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ScaledDotProductAttention	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/w7/cw766c4uxduz3dqmxkdfvgucfoooblkc54km6jr3q5kk3krunkze.py # Topologically Sorted Source Nodes: [attn_2], Original ATen: [aten._softmax] # Source node to ATen node mapping: # attn_2 => exp # Graph fragment: # %mul_tensor : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%bmm, 1), kwargs = {}) # %amax_default : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%mul_tensor, [2], True), kwargs = {}) # %sub_tensor : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul_tensor, %amax_default), kwargs = {}) # %div_tensor : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub_tensor, 4), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%div_tensor,), kwargs = {}) triton_poi_fused__softmax_0 = async_compile.triton('triton_poi_fused__softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp3 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp1 = 1.0 tmp2 = tmp0 * tmp1 tmp4 = tmp3 * tmp1 tmp6 = tmp5 * tmp1 tmp7 = triton_helpers.maximum(tmp4, tmp6) tmp9 = tmp8 * tmp1 tmp10 = triton_helpers.maximum(tmp7, tmp9) tmp12 = tmp11 * tmp1 tmp13 = triton_helpers.maximum(tmp10, tmp12) tmp14 = tmp2 - tmp13 tmp15 = 0.25 tmp16 = tmp14 * tmp15 tmp17 = tl_math.exp(tmp16) tl.store(out_ptr0 + (x2), tmp17, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/yh/cyhf6bhaqimi2pucos5fnrpvhrt4vuaetbxnooyr5pvgjt7s6fgo.py # Topologically Sorted Source Nodes: [attn_2], Original ATen: [aten._softmax] # Source node to ATen node mapping: # attn_2 => div_1, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [2], True), kwargs = {}) # %div_1 : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [attn], Original ATen: [aten.bmm] extern_kernels.bmm(arg1_1, reinterpret_tensor(arg0_1, (4, 4, 4), (16, 1, 4), 0), out=buf0) del arg0_1 del arg1_1 buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [attn_2], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(buf0, buf1, 64, grid=grid(64), stream=stream0) buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [attn_2], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf1, buf2, 64, grid=grid(64), stream=stream0) buf3 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [output], Original ATen: [aten.bmm] extern_kernels.bmm(buf2, arg2_1, out=buf3) del arg2_1 return (buf3, buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) arg2_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1, arg2_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import numpy as np from torch import nn class ScaledDotProductAttention(nn.Module): """ Scaled Dot-Product Attention """ def __init__(self, temperature, attn_dropout=0.1): super().__init__() self.temperature = temperature self.dropout = nn.Dropout(attn_dropout) self.softmax = nn.Softmax(dim=2) def forward(self, q, k, v, mask=None): attn = torch.bmm(q, k.transpose(1, 2)) attn = attn / self.temperature if mask is not None: attn = attn.masked_fill(mask, -np.inf) attn = self.softmax(attn) attn = self.dropout(attn) output = torch.bmm(attn, v) return output, attn def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4]) ] def get_init_inputs(): return [[], {'temperature': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp3 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last' ) tmp1 = 1.0 tmp2 = tmp0 * tmp1 tmp4 = tmp3 * tmp1 tmp6 = tmp5 * tmp1 tmp7 = triton_helpers.maximum(tmp4, tmp6) tmp9 = tmp8 * tmp1 tmp10 = triton_helpers.maximum(tmp7, tmp9) tmp12 = tmp11 * tmp1 tmp13 = triton_helpers.maximum(tmp10, tmp12) tmp14 = tmp2 - tmp13 tmp15 = 0.25 tmp16 = tmp14 * tmp15 tmp17 = tl_math.exp(tmp16) tl.store(out_ptr0 + x2, tmp17, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(arg1_1, reinterpret_tensor(arg0_1, (4, 4, 4), ( 16, 1, 4), 0), out=buf0) del arg0_1 del arg1_1 buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(64)](buf0, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) buf2 = buf0 del buf0 triton_poi_fused__softmax_1[grid(64)](buf1, buf2, 64, XBLOCK=64, num_warps=1, num_stages=1) buf3 = buf1 del buf1 extern_kernels.bmm(buf2, arg2_1, out=buf3) del arg2_1 return buf3, buf2 class ScaledDotProductAttentionNew(nn.Module): """ Scaled Dot-Product Attention """ def __init__(self, temperature, attn_dropout=0.1): super().__init__() self.temperature = temperature self.dropout = nn.Dropout(attn_dropout) self.softmax = nn.Softmax(dim=2) def forward(self, input_0, input_1, input_2): arg0_1 = input_0 arg1_1 = input_1 arg2_1 = input_2 output = call([arg0_1, arg1_1, arg2_1]) return output[0], output[1]	ArrowLuo/GRACE	ScaledDotProductAttention	false	7,744	[ "Apache-2.0" ]	17	f27b500ba905685c03eee6d91d87adc9ef78b4d1	https://github.com/ArrowLuo/GRACE/tree/f27b500ba905685c03eee6d91d87adc9ef78b4d1	import torch import numpy as np from torch import nn class Model(nn.Module): """ Scaled Dot-Product Attention """ def __init__(self, temperature, attn_dropout=0.1): super().__init__() self.temperature = temperature self.dropout = nn.Dropout(attn_dropout) self.softmax = nn.Softmax(dim=2) def forward(self, q, k, v, mask=None): attn = torch.bmm(q, k.transpose(1, 2)) attn = attn / self.temperature if mask is not None: attn = attn.masked_fill(mask, -np.inf) attn = self.softmax(attn) attn = self.dropout(attn) output = torch.bmm(attn, v) return output, attn def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4]) ] def get_init_inputs(): return [4]
ConvNorm	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/vk/cvkzhzb7oocto7jxk7ypi26v6mxuazufh3cdxr5hibhpz6pgdmg7.py # Topologically Sorted Source Nodes: [conv_signal], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv_signal => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%unsqueeze, %primals_1, %primals_2, [1], [0], [1], False, [0], 1), kwargs = {}) triton_poi_fused_convolution_0 = async_compile.triton('triton_poi_fused_convolution_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x2), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 1), (4, 1, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv_signal], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(reinterpret_tensor(primals_3, (1, 4, 4), (16, 4, 1), 0), primals_1, stride=(1,), padding=(0,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf0, (1, 4, 4), (16, 4, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [conv_signal], Original ATen: [aten.convolution] stream0 = get_raw_stream(0) triton_poi_fused_convolution_0.run(buf1, primals_2, 16, grid=grid(16), stream=stream0) del primals_2 return (reinterpret_tensor(buf1, (4, 4), (4, 1), 0), primals_1, reinterpret_tensor(primals_3, (1, 4, 4), (16, 4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 1), (4, 1, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data import torch.nn.functional as F class ConvNorm(torch.nn.Module): def __init__(self, in_channels, out_channels, kernel_size=1, stride=1, padding=None, dilation=1, bias=True, w_init_gain='linear', dropout=0.0 ): super(ConvNorm, self).__init__() if padding is None: assert kernel_size % 2 == 1 padding = int(dilation * (kernel_size - 1) / 2) self.dropout = dropout self.conv = torch.nn.Conv1d(in_channels, out_channels, kernel_size= kernel_size, stride=stride, padding=padding, dilation=dilation, bias=bias) torch.nn.init.xavier_uniform_(self.conv.weight, gain=torch.nn.init. calculate_gain(w_init_gain)) def forward(self, signal): conv_signal = self.conv(signal) if self.training and self.dropout > 0.0: conv_signal = F.dropout(conv_signal, p=self.dropout) return conv_signal def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x2, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 1), (4, 1, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(reinterpret_tensor(primals_3, (1, 4, 4), (16, 4, 1), 0), primals_1, stride=(1,), padding=(0,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf0, (1, 4, 4), (16, 4, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_0[grid(16)](buf1, primals_2, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_2 return reinterpret_tensor(buf1, (4, 4), (4, 1), 0 ), primals_1, reinterpret_tensor(primals_3, (1, 4, 4), (16, 4, 1), 0) class ConvNormNew(torch.nn.Module): def __init__(self, in_channels, out_channels, kernel_size=1, stride=1, padding=None, dilation=1, bias=True, w_init_gain='linear', dropout=0.0 ): super(ConvNormNew, self).__init__() if padding is None: assert kernel_size % 2 == 1 padding = int(dilation * (kernel_size - 1) / 2) self.dropout = dropout self.conv = torch.nn.Conv1d(in_channels, out_channels, kernel_size= kernel_size, stride=stride, padding=padding, dilation=dilation, bias=bias) torch.nn.init.xavier_uniform_(self.conv.weight, gain=torch.nn.init. calculate_gain(w_init_gain)) def forward(self, input_0): primals_1 = self.conv.weight primals_2 = self.conv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	AstraliteHeart/cookietts	ConvNorm	false	7,745	[ "BSD-3-Clause" ]	25	c871f5f7b5790656d5b57bcd9e63946a2da52f0f	https://github.com/AstraliteHeart/cookietts/tree/c871f5f7b5790656d5b57bcd9e63946a2da52f0f	import torch import torch.utils.data import torch.nn.functional as F class Model(torch.nn.Module): def __init__(self, in_channels, out_channels, kernel_size=1, stride=1, padding=None, dilation=1, bias=True, w_init_gain='linear', dropout=0.0 ): super().__init__() if padding is None: assert kernel_size % 2 == 1 padding = int(dilation * (kernel_size - 1) / 2) self.dropout = dropout self.conv = torch.nn.Conv1d(in_channels, out_channels, kernel_size= kernel_size, stride=stride, padding=padding, dilation=dilation, bias=bias) torch.nn.init.xavier_uniform_(self.conv.weight, gain=torch.nn.init. calculate_gain(w_init_gain)) def forward(self, signal): conv_signal = self.conv(signal) if self.training and self.dropout > 0.0: conv_signal = F.dropout(conv_signal, p=self.dropout) return conv_signal def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [4, 4]
Conv1d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/tq/ctqdifcwmtd3tah42lbnveldsqmwdcsf6r24qb4fhjaqhhgjcgrt.py # Topologically Sorted Source Nodes: [y], Original ATen: [aten.convolution] # Source node to ATen node mapping: # y => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1], [2], [1], False, [0], 1), kwargs = {}) triton_poi_fused_convolution_0 = async_compile.triton('triton_poi_fused_convolution_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 80 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 5) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x3), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [y], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1,), padding=(2,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 5), (20, 5, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [y], Original ATen: [aten.convolution] stream0 = get_raw_stream(0) triton_poi_fused_convolution_0.run(buf1, primals_2, 80, grid=grid(80), stream=stream0) del primals_2 return (reinterpret_tensor(buf1, (4, 4, 4), (20, 5, 1), 0), primals_1, primals_3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data from torch import nn from torch.nn import Conv1d class Conv1d(nn.Conv1d): """ :param in_channels: Scalar :param out_channels: Scalar :param kernel_size: Scalar :param activation_fn: activation function :param drop_rate: Scalar. dropout rate :param stride: Scalar :param padding: padding type :param dilation: Scalar :param groups: Scalar :param bias: Boolean. :param bn: Boolean. whether it uses batch normalization """ def __init__(self, in_channels, out_channels, kernel_size, activation_fn=None, drop_rate=0.0, stride=1, padding='same', dilation=1, groups=1, bias=True, bn=False): self.activation_fn = activation_fn self.drop_rate = drop_rate if padding == 'same': padding = kernel_size // 2 * dilation self.even_kernel = not bool(kernel_size % 2) super(Conv1d, self).__init__(in_channels, out_channels, kernel_size, stride=stride, padding=padding, dilation=dilation, groups= groups, bias=bias) self.drop_out = nn.Dropout(drop_rate) if drop_rate > 0 else None self.batch_norm = nn.BatchNorm1d(out_channels, eps=0.001, momentum= 0.001) if bn else None def forward(self, x): """ :param x: (N, C_in, T) Tensor. Returns: y: (N, C_out, T) Tensor. """ y = super(Conv1d, self).forward(x) y = self.batch_norm(y) if self.batch_norm is not None else y y = self.activation_fn(y) if self.activation_fn is not None else y y = self.drop_out(y) if self.drop_out is not None else y y = y[:, :, :-1] if self.even_kernel else y return y def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.utils.data from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 80 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 5 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x3, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1,), padding=(2,), dilation=(1,), transposed=False, output_padding=( 0,), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 5), (20, 5, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_0[grid(80)](buf1, primals_2, 80, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 return reinterpret_tensor(buf1, (4, 4, 4), (20, 5, 1), 0 ), primals_1, primals_3 class Conv1dNew(nn.Conv1d): """ :param in_channels: Scalar :param out_channels: Scalar :param kernel_size: Scalar :param activation_fn: activation function :param drop_rate: Scalar. dropout rate :param stride: Scalar :param padding: padding type :param dilation: Scalar :param groups: Scalar :param bias: Boolean. :param bn: Boolean. whether it uses batch normalization """ def __init__(self, in_channels, out_channels, kernel_size, activation_fn=None, drop_rate=0.0, stride=1, padding='same', dilation=1, groups=1, bias=True, bn=False): self.activation_fn = activation_fn self.drop_rate = drop_rate if padding == 'same': padding = kernel_size // 2 * dilation self.even_kernel = not bool(kernel_size % 2) super(Conv1dNew, self).__init__(in_channels, out_channels, kernel_size, stride=stride, padding=padding, dilation=dilation, groups=groups, bias=bias) self.drop_out = nn.Dropout(drop_rate) if drop_rate > 0 else None self.batch_norm = nn.BatchNorm1d(out_channels, eps=0.001, momentum= 0.001) if bn else None def forward(self, input_0): primals_1 = self.weight primals_2 = self.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	AstraliteHeart/cookietts	Conv1d	false	7,746	[ "BSD-3-Clause" ]	25	c871f5f7b5790656d5b57bcd9e63946a2da52f0f	https://github.com/AstraliteHeart/cookietts/tree/c871f5f7b5790656d5b57bcd9e63946a2da52f0f	import torch import torch.utils.data from torch import nn from torch.nn import Conv1d class Model(nn.Conv1d): """ :param in_channels: Scalar :param out_channels: Scalar :param kernel_size: Scalar :param activation_fn: activation function :param drop_rate: Scalar. dropout rate :param stride: Scalar :param padding: padding type :param dilation: Scalar :param groups: Scalar :param bias: Boolean. :param bn: Boolean. whether it uses batch normalization """ def __init__(self, in_channels, out_channels, kernel_size, activation_fn=None, drop_rate=0.0, stride=1, padding='same', dilation=1, groups=1, bias=True, bn=False): self.activation_fn = activation_fn self.drop_rate = drop_rate if padding == 'same': padding = kernel_size // 2 * dilation self.even_kernel = not bool(kernel_size % 2) super().__init__(in_channels, out_channels, kernel_size, stride=stride, padding=padding, dilation=dilation, groups= groups, bias=bias) self.drop_out = nn.Dropout(drop_rate) if drop_rate > 0 else None self.batch_norm = nn.BatchNorm1d(out_channels, eps=0.001, momentum= 0.001) if bn else None def forward(self, x): """ :param x: (N, C_in, T) Tensor. Returns: y: (N, C_out, T) Tensor. """ y = super(Conv1d, self).forward(x) y = self.batch_norm(y) if self.batch_norm is not None else y y = self.activation_fn(y) if self.activation_fn is not None else y y = self.drop_out(y) if self.drop_out is not None else y y = y[:, :, :-1] if self.even_kernel else y return y def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [4, 4, 4]
Conv2d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/rw/crwzalc3a5loe7wzev2pgjw2ceopbgiaj7j35vweh6ybcqfy4mvh.py # Topologically Sorted Source Nodes: [y], Original ATen: [aten.convolution] # Source node to ATen node mapping: # y => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [2, 2], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_0 = async_compile.triton('triton_poi_fused_convolution_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 400 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 25) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x3), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [y], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 5, 5), (100, 25, 5, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [y], Original ATen: [aten.convolution] stream0 = get_raw_stream(0) triton_poi_fused_convolution_0.run(buf1, primals_2, 400, grid=grid(400), stream=stream0) del primals_2 return (reinterpret_tensor(buf1, (4, 4, 4, 5), (100, 25, 5, 1), 0), primals_1, primals_3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data from torch import nn from torch.nn import Conv2d class Conv2d(nn.Conv2d): """ :param in_channels: Scalar :param out_channels: Scalar :param kernel_size: Scalar :param activation_fn: activation function :param drop_rate: Scalar. dropout rate :param stride: Scalar :param padding: padding type :param dilation: Scalar :param groups: Scalar. :param bias: Boolean. :param bn: Boolean. whether it uses batch normalization """ def __init__(self, in_channels, out_channels, kernel_size, activation_fn=None, drop_rate=0.0, stride=1, padding='same', dilation=1, groups=1, bias=True, bn=False): self.activation_fn = activation_fn self.drop_rate = drop_rate if padding == 'same': padding = kernel_size // 2 * dilation self.even_kernel = not bool(kernel_size % 2) super(Conv2d, self).__init__(in_channels, out_channels, kernel_size, stride=stride, padding=padding, dilation=dilation, groups= groups, bias=bias) self.drop_out = nn.Dropout(drop_rate) if drop_rate > 0 else None self.batch_norm = nn.BatchNorm2d(out_channels, eps=0.001, momentum= 0.001) if bn else None def forward(self, x): """ :param x: (N, C_in, T) Tensor. Returns: y: (N, C_out, T) Tensor. """ y = super(Conv2d, self).forward(x) y = self.batch_norm(y) if self.batch_norm is not None else y y = self.activation_fn(y) if self.activation_fn is not None else y y = self.drop_out(y) if self.drop_out is not None else y y = y[:, :, :-1] if self.even_kernel else y return y def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.utils.data from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 400 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 25 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x3, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 5, 5), (100, 25, 5, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_0[grid(400)](buf1, primals_2, 400, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 return reinterpret_tensor(buf1, (4, 4, 4, 5), (100, 25, 5, 1), 0 ), primals_1, primals_3 class Conv2dNew(nn.Conv2d): """ :param in_channels: Scalar :param out_channels: Scalar :param kernel_size: Scalar :param activation_fn: activation function :param drop_rate: Scalar. dropout rate :param stride: Scalar :param padding: padding type :param dilation: Scalar :param groups: Scalar. :param bias: Boolean. :param bn: Boolean. whether it uses batch normalization """ def __init__(self, in_channels, out_channels, kernel_size, activation_fn=None, drop_rate=0.0, stride=1, padding='same', dilation=1, groups=1, bias=True, bn=False): self.activation_fn = activation_fn self.drop_rate = drop_rate if padding == 'same': padding = kernel_size // 2 * dilation self.even_kernel = not bool(kernel_size % 2) super(Conv2dNew, self).__init__(in_channels, out_channels, kernel_size, stride=stride, padding=padding, dilation=dilation, groups=groups, bias=bias) self.drop_out = nn.Dropout(drop_rate) if drop_rate > 0 else None self.batch_norm = nn.BatchNorm2d(out_channels, eps=0.001, momentum= 0.001) if bn else None def forward(self, input_0): primals_1 = self.weight primals_2 = self.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	AstraliteHeart/cookietts	Conv2d	false	7,747	[ "BSD-3-Clause" ]	25	c871f5f7b5790656d5b57bcd9e63946a2da52f0f	https://github.com/AstraliteHeart/cookietts/tree/c871f5f7b5790656d5b57bcd9e63946a2da52f0f	import torch import torch.utils.data from torch import nn from torch.nn import Conv2d class Model(nn.Conv2d): """ :param in_channels: Scalar :param out_channels: Scalar :param kernel_size: Scalar :param activation_fn: activation function :param drop_rate: Scalar. dropout rate :param stride: Scalar :param padding: padding type :param dilation: Scalar :param groups: Scalar. :param bias: Boolean. :param bn: Boolean. whether it uses batch normalization """ def __init__(self, in_channels, out_channels, kernel_size, activation_fn=None, drop_rate=0.0, stride=1, padding='same', dilation=1, groups=1, bias=True, bn=False): self.activation_fn = activation_fn self.drop_rate = drop_rate if padding == 'same': padding = kernel_size // 2 * dilation self.even_kernel = not bool(kernel_size % 2) super().__init__(in_channels, out_channels, kernel_size, stride=stride, padding=padding, dilation=dilation, groups= groups, bias=bias) self.drop_out = nn.Dropout(drop_rate) if drop_rate > 0 else None self.batch_norm = nn.BatchNorm2d(out_channels, eps=0.001, momentum= 0.001) if bn else None def forward(self, x): """ :param x: (N, C_in, T) Tensor. Returns: y: (N, C_out, T) Tensor. """ y = super(Conv2d, self).forward(x) y = self.batch_norm(y) if self.batch_norm is not None else y y = self.activation_fn(y) if self.activation_fn is not None else y y = self.drop_out(y) if self.drop_out is not None else y y = y[:, :, :-1] if self.even_kernel else y return y def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4, 4]
PositionwiseFeedForward	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/y7/cy75pv62flzgueapzlnlplljec2lmbrjxeuhmgi2gb5pjyl6sna4.py # Topologically Sorted Source Nodes: [conv1d], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv1d => convolution # Graph fragment: # %convolution : [num_users=3] = call_function[target=torch.ops.aten.convolution.default](args = (%permute, %primals_2, %primals_3, [1], [0], [1], False, [0], 1), kwargs = {}) triton_poi_fused_convolution_0 = async_compile.triton('triton_poi_fused_convolution_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (16y1)), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + (4y3)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/cp/ccp565znp7j2qfqy7pnzo2mze3d565vxvgsgwl4dgmeu76xwb4gb.py # Topologically Sorted Source Nodes: [conv1d, mul, truediv, erf, add, mul_1], Original ATen: [aten.convolution, aten.mul, aten.div, aten.erf, aten.add] # Source node to ATen node mapping: # add => add # conv1d => convolution # erf => erf # mul => mul # mul_1 => mul_1 # truediv => div # Graph fragment: # %convolution : [num_users=3] = call_function[target=torch.ops.aten.convolution.default](args = (%permute, %primals_2, %primals_3, [1], [0], [1], False, [0], 1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution, 0.5), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%convolution, 1.4142135623730951), kwargs = {}) # %erf : [num_users=1] = call_function[target=torch.ops.aten.erf.default](args = (%div,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%erf, 1.0), kwargs = {}) # %mul_1 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, %add), kwargs = {}) triton_poi_fused_add_convolution_div_erf_mul_1 = async_compile.triton('triton_poi_fused_add_convolution_div_erf_mul_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_convolution_div_erf_mul_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_convolution_div_erf_mul_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 4) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.5 tmp4 = tmp2 * tmp3 tmp5 = 0.7071067811865475 tmp6 = tmp2 * tmp5 tmp7 = libdevice.erf(tmp6) tmp8 = 1.0 tmp9 = tmp7 + tmp8 tmp10 = tmp4 * tmp9 tl.store(in_out_ptr0 + (x3), tmp2, xmask) tl.store(out_ptr0 + (x3), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/r2/cr2h3252vsveia733y3hc44mzgu7rann2uwjgvo4xn54fam36ec5.py # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.convolution] # Source node to ATen node mapping: # output_1 => convolution_1 # Graph fragment: # %convolution_1 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%mul_1, %primals_4, %primals_5, [1], [0], [1], False, [0], 1), kwargs = {}) triton_poi_fused_convolution_2 = async_compile.triton('triton_poi_fused_convolution_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 4) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x3), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/6a/c6ay25nxozjje6lo7ldghziivuwdddyjybryyhc4wnnw3ugkoobb.py # Topologically Sorted Source Nodes: [add_1, output_4], Original ATen: [aten.add, aten.native_layer_norm] # Source node to ATen node mapping: # add_1 => add_1 # output_4 => clone_1, var_mean # Graph fragment: # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%permute_1, %primals_1), kwargs = {}) # %clone_1 : [num_users=2] = call_function[target=torch.ops.aten.clone.default](args = (%add_1,), kwargs = {memory_format: torch.contiguous_format}) # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%clone_1, [2]), kwargs = {correction: 0, keepdim: True}) triton_poi_fused_add_native_layer_norm_3 = async_compile.triton('triton_poi_fused_add_native_layer_norm_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_native_layer_norm_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_native_layer_norm_3(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (16x1)), xmask) tmp1 = tl.load(in_ptr1 + (4x2), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (4 + x0 + (16x1)), xmask) tmp4 = tl.load(in_ptr1 + (1 + (4x2)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (8 + x0 + (16x1)), xmask) tmp8 = tl.load(in_ptr1 + (2 + (4x2)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (12 + x0 + (16x1)), xmask) tmp12 = tl.load(in_ptr1 + (3 + (4x2)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 + tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 + tmp12 tmp14 = tmp10 + tmp13 tmp15 = 4.0 tmp16 = tmp14 / tmp15 tmp17 = tmp2 - tmp16 tmp18 = tmp17 * tmp17 tmp19 = tmp5 - tmp16 tmp20 = tmp19 * tmp19 tmp21 = tmp18 + tmp20 tmp22 = tmp9 - tmp16 tmp23 = tmp22 * tmp22 tmp24 = tmp21 + tmp23 tmp25 = tmp13 - tmp16 tmp26 = tmp25 * tmp25 tmp27 = tmp24 + tmp26 tmp28 = tmp27 / tmp15 tl.store(out_ptr0 + (x2), tmp16, xmask) tl.store(out_ptr1 + (x2), tmp28, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/qh/cqhud5pr2n7orqbv5pdlb2l35z7vhlv6okumz3vydoqn6u4n5ipk.py # Topologically Sorted Source Nodes: [add_1, output_4], Original ATen: [aten.add, aten.native_layer_norm] # Source node to ATen node mapping: # add_1 => add_1 # output_4 => add_2, add_3, clone_1, mul_2, mul_3, rsqrt, sub # Graph fragment: # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%permute_1, %primals_1), kwargs = {}) # %clone_1 : [num_users=2] = call_function[target=torch.ops.aten.clone.default](args = (%add_1,), kwargs = {memory_format: torch.contiguous_format}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_2,), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%clone_1, %getitem_1), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %rsqrt), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_2, %primals_6), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_3, %primals_7), kwargs = {}) triton_poi_fused_add_native_layer_norm_4 = async_compile.triton('triton_poi_fused_add_native_layer_norm_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4], tile_hint=TileHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'i32', 8: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_native_layer_norm_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_native_layer_norm_4(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (16y1)), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x2 + (4y3)), xmask & ymask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (y3), ymask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (y3), ymask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr4 + (x2), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr5 + (x2), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 - tmp3 tmp6 = 1e-05 tmp7 = tmp5 + tmp6 tmp8 = libdevice.rsqrt(tmp7) tmp9 = tmp4 tmp8 tmp11 = tmp9 * tmp10 tmp13 = tmp11 + tmp12 tl.store(out_ptr0 + (x2 + (4*y3)), tmp13, xmask & ymask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4, 1), (4, 1, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (4, 4, 1), (4, 1, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, ), (1, )) assert_size_stride(primals_7, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [conv1d], Original ATen: [aten.convolution] stream0 = get_raw_stream(0) triton_poi_fused_convolution_0.run(primals_1, buf0, 16, 4, grid=grid(16, 4), stream=stream0) # Topologically Sorted Source Nodes: [conv1d], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(buf0, primals_2, stride=(1,), padding=(0,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 4), (16, 4, 1)) buf2 = buf1; del buf1 # reuse buf3 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [conv1d, mul, truediv, erf, add, mul_1], Original ATen: [aten.convolution, aten.mul, aten.div, aten.erf, aten.add] triton_poi_fused_add_convolution_div_erf_mul_1.run(buf2, primals_3, buf3, 64, grid=grid(64), stream=stream0) del primals_3 # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(buf3, primals_4, stride=(1,), padding=(0,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf4, (4, 4, 4), (16, 4, 1)) buf5 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.convolution] triton_poi_fused_convolution_2.run(buf5, primals_5, 64, grid=grid(64), stream=stream0) del primals_5 buf6 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) buf7 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) # Topologically Sorted Source Nodes: [add_1, output_4], Original ATen: [aten.add, aten.native_layer_norm] triton_poi_fused_add_native_layer_norm_3.run(buf5, primals_1, buf6, buf7, 16, grid=grid(16), stream=stream0) buf8 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [add_1, output_4], Original ATen: [aten.add, aten.native_layer_norm] triton_poi_fused_add_native_layer_norm_4.run(buf5, primals_1, buf6, buf7, primals_6, primals_7, buf8, 16, 4, grid=grid(16, 4), stream=stream0) del buf6 del buf7 del primals_7 return (buf8, primals_1, primals_2, primals_4, primals_6, buf2, buf3, buf5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 1), (4, 1, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 1), (4, 1, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import math import torch from torch import nn def gelu(x): """Implementation of the gelu activation function. For information: OpenAI GPT's gelu is slightly different (and gives slightly different results): 0.5 * x * (1 + torch.tanh(math.sqrt(2 / math.pi) * (x + 0.044715 * torch.pow(x, 3)))) """ return x * 0.5 * (1.0 + torch.erf(x / math.sqrt(2.0))) class PositionwiseFeedForward(nn.Module): """ A two-feed-forward-layer module """ def __init__(self, d_in, d_hid, dropout=0.1): super().__init__() self.w_1 = nn.Conv1d(d_in, d_hid, 1) self.w_2 = nn.Conv1d(d_hid, d_in, 1) self.layer_norm = nn.LayerNorm(d_in) self.dropout = nn.Dropout(dropout) def forward(self, x): residual = x output = x.transpose(1, 2) output = self.w_2(gelu(self.w_1(output))) output = output.transpose(1, 2) output = self.dropout(output) output = self.layer_norm(output + residual) return output def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'d_in': 4, 'd_hid': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import math from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_convolution_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 16 * y1), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + 4 * y3), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_add_convolution_div_erf_mul_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 4 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.5 tmp4 = tmp2 * tmp3 tmp5 = 0.7071067811865475 tmp6 = tmp2 * tmp5 tmp7 = libdevice.erf(tmp6) tmp8 = 1.0 tmp9 = tmp7 + tmp8 tmp10 = tmp4 * tmp9 tl.store(in_out_ptr0 + x3, tmp2, xmask) tl.store(out_ptr0 + x3, tmp10, xmask) @triton.jit def triton_poi_fused_convolution_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 4 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x3, tmp2, xmask) @triton.jit def triton_poi_fused_add_native_layer_norm_3(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 16 * x1), xmask) tmp1 = tl.load(in_ptr1 + 4 * x2, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (4 + x0 + 16 * x1), xmask) tmp4 = tl.load(in_ptr1 + (1 + 4 * x2), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (8 + x0 + 16 * x1), xmask) tmp8 = tl.load(in_ptr1 + (2 + 4 * x2), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (12 + x0 + 16 * x1), xmask) tmp12 = tl.load(in_ptr1 + (3 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 + tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 + tmp12 tmp14 = tmp10 + tmp13 tmp15 = 4.0 tmp16 = tmp14 / tmp15 tmp17 = tmp2 - tmp16 tmp18 = tmp17 * tmp17 tmp19 = tmp5 - tmp16 tmp20 = tmp19 * tmp19 tmp21 = tmp18 + tmp20 tmp22 = tmp9 - tmp16 tmp23 = tmp22 * tmp22 tmp24 = tmp21 + tmp23 tmp25 = tmp13 - tmp16 tmp26 = tmp25 * tmp25 tmp27 = tmp24 + tmp26 tmp28 = tmp27 / tmp15 tl.store(out_ptr0 + x2, tmp16, xmask) tl.store(out_ptr1 + x2, tmp28, xmask) @triton.jit def triton_poi_fused_add_native_layer_norm_4(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 16 * y1), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x2 + 4 * y3), xmask & ymask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr2 + y3, ymask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + y3, ymask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr4 + x2, xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr5 + x2, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 - tmp3 tmp6 = 1e-05 tmp7 = tmp5 + tmp6 tmp8 = libdevice.rsqrt(tmp7) tmp9 = tmp4 * tmp8 tmp11 = tmp9 * tmp10 tmp13 = tmp11 + tmp12 tl.store(out_ptr0 + (x2 + 4 * y3), tmp13, xmask & ymask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7) = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4, 1), (4, 1, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (4, 4, 1), (4, 1, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4,), (1,)) assert_size_stride(primals_7, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_convolution_0[grid(16, 4)](primals_1, buf0, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) buf1 = extern_kernels.convolution(buf0, primals_2, stride=(1,), padding=(0,), dilation=(1,), transposed=False, output_padding=( 0,), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 4), (16, 4, 1)) buf2 = buf1 del buf1 buf3 = buf0 del buf0 triton_poi_fused_add_convolution_div_erf_mul_1[grid(64)](buf2, primals_3, buf3, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_3 buf4 = extern_kernels.convolution(buf3, primals_4, stride=(1,), padding=(0,), dilation=(1,), transposed=False, output_padding=( 0,), groups=1, bias=None) assert_size_stride(buf4, (4, 4, 4), (16, 4, 1)) buf5 = buf4 del buf4 triton_poi_fused_convolution_2[grid(64)](buf5, primals_5, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_5 buf6 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) buf7 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) triton_poi_fused_add_native_layer_norm_3[grid(16)](buf5, primals_1, buf6, buf7, 16, XBLOCK=16, num_warps=1, num_stages=1) buf8 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_add_native_layer_norm_4[grid(16, 4)](buf5, primals_1, buf6, buf7, primals_6, primals_7, buf8, 16, 4, XBLOCK=2, YBLOCK=16, num_warps=1, num_stages=1) del buf6 del buf7 del primals_7 return buf8, primals_1, primals_2, primals_4, primals_6, buf2, buf3, buf5 def gelu(x): """Implementation of the gelu activation function. For information: OpenAI GPT's gelu is slightly different (and gives slightly different results): 0.5 * x * (1 + torch.tanh(math.sqrt(2 / math.pi) * (x + 0.044715 * torch.pow(x, 3)))) """ return x * 0.5 * (1.0 + torch.erf(x / math.sqrt(2.0))) class PositionwiseFeedForwardNew(nn.Module): """ A two-feed-forward-layer module """ def __init__(self, d_in, d_hid, dropout=0.1): super().__init__() self.w_1 = nn.Conv1d(d_in, d_hid, 1) self.w_2 = nn.Conv1d(d_hid, d_in, 1) self.layer_norm = nn.LayerNorm(d_in) self.dropout = nn.Dropout(dropout) def forward(self, input_0): primals_2 = self.w_1.weight primals_3 = self.w_1.bias primals_4 = self.w_2.weight primals_5 = self.w_2.bias primals_6 = self.layer_norm.weight primals_7 = self.layer_norm.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	ArrowLuo/GRACE	PositionwiseFeedForward	false	7,748	[ "Apache-2.0" ]	17	f27b500ba905685c03eee6d91d87adc9ef78b4d1	https://github.com/ArrowLuo/GRACE/tree/f27b500ba905685c03eee6d91d87adc9ef78b4d1	import math import torch from torch import nn def gelu(x): """Implementation of the gelu activation function. For information: OpenAI GPT's gelu is slightly different (and gives slightly different results): 0.5 * x * (1 + torch.tanh(math.sqrt(2 / math.pi) * (x + 0.044715 * torch.pow(x, 3)))) """ return x * 0.5 * (1.0 + torch.erf(x / math.sqrt(2.0))) class Model(nn.Module): """ A two-feed-forward-layer module """ def __init__(self, d_in, d_hid, dropout=0.1): super().__init__() self.w_1 = nn.Conv1d(d_in, d_hid, 1) self.w_2 = nn.Conv1d(d_hid, d_in, 1) self.layer_norm = nn.LayerNorm(d_in) self.dropout = nn.Dropout(dropout) def forward(self, x): residual = x output = x.transpose(1, 2) output = self.w_2(gelu(self.w_1(output))) output = output.transpose(1, 2) output = self.dropout(output) output = self.layer_norm(output + residual) return output def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [4, 4]
Conv2d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/zm/czm5xlclvigamxygpggs2l53p7xugkmd3t5brhd4sz3j6ylqkueq.py # Topologically Sorted Source Nodes: [input_1], Original ATen: [aten.constant_pad_nd] # Source node to ATen node mapping: # input_1 => constant_pad_nd # Graph fragment: # %constant_pad_nd : [num_users=2] = call_function[target=torch.ops.aten.constant_pad_nd.default](args = (%primals_3, [0, 1, 0, 1], 0.0), kwargs = {}) triton_poi_fused_constant_pad_nd_0 = async_compile.triton('triton_poi_fused_constant_pad_nd_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_constant_pad_nd_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_constant_pad_nd_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 400 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 5) % 5 x0 = xindex % 5 x2 = (xindex // 25) x3 = xindex tmp0 = x1 tmp1 = tl.full([1], 4, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = x0 tmp4 = tmp3 < tmp1 tmp5 = tmp2 & tmp4 tmp6 = tl.load(in_ptr0 + (x0 + (4x1) + (16x2)), tmp5 & xmask, other=0.0) tl.store(out_ptr0 + (x3), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/7r/c7r2u57hr54idc3of6lw2ouxuoyy44tzonl7cy4k7awnnjece2kt.py # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv2d => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%constant_pad_nd, %primals_1, %primals_2, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_1 = async_compile.triton('triton_poi_fused_convolution_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x3), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 5, 5), (100, 25, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [input_1], Original ATen: [aten.constant_pad_nd] stream0 = get_raw_stream(0) triton_poi_fused_constant_pad_nd_0.run(primals_3, buf0, 400, grid=grid(400), stream=stream0) del primals_3 # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(buf0, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 4, 4), (64, 16, 4, 1)) buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf2, primals_2, 256, grid=grid(256), stream=stream0) del primals_2 return (buf2, primals_1, buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	from torch.nn import Module import math import torch from torch.nn import functional as F import torch.utils.data from torch.nn.parameter import Parameter from torch.nn.functional import pad from torch.nn.modules import Module from torch.nn.modules.utils import _pair import torch.nn.parallel def conv2d_same_padding(input, weight, bias=None, stride=1, padding=1, dilation=1, groups=1): input_rows = input.size(2) filter_rows = weight.size(2) out_rows = (input_rows + stride[0] - 1) // stride[0] padding_rows = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) rows_odd = padding_rows % 2 != 0 padding_cols = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) cols_odd = padding_rows % 2 != 0 if rows_odd or cols_odd: input = pad(input, [0, int(cols_odd), 0, int(rows_odd)]) return F.conv2d(input, weight, bias, stride, padding=(padding_rows // 2, padding_cols // 2), dilation=dilation, groups=groups) class _ConvNd(Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding, dilation, transposed, output_padding, groups, bias): super(_ConvNd, self).__init__() if in_channels % groups != 0: raise ValueError('in_channels must be divisible by groups') if out_channels % groups != 0: raise ValueError('out_channels must be divisible by groups') self.in_channels = in_channels self.out_channels = out_channels self.kernel_size = kernel_size self.stride = stride self.padding = padding self.dilation = dilation self.transposed = transposed self.output_padding = output_padding self.groups = groups if transposed: self.weight = Parameter(torch.Tensor(in_channels, out_channels // groups, kernel_size)) else: self.weight = Parameter(torch.Tensor(out_channels, in_channels // groups, kernel_size)) if bias: self.bias = Parameter(torch.Tensor(out_channels)) else: self.register_parameter('bias', None) self.reset_parameters() def reset_parameters(self): n = self.in_channels for k in self.kernel_size: n = k stdv = 1.0 / math.sqrt(n) self.weight.data.uniform_(-stdv, stdv) if self.bias is not None: self.bias.data.uniform_(-stdv, stdv) def __repr__(self): s = ( '{name}({in_channels}, {out_channels}, kernel_size={kernel_size}, stride={stride}' ) if self.padding != (0,) len(self.padding): s += ', padding={padding}' if self.dilation != (1,) * len(self.dilation): s += ', dilation={dilation}' if self.output_padding != (0,) * len(self.output_padding): s += ', output_padding={output_padding}' if self.groups != 1: s += ', groups={groups}' if self.bias is None: s += ', bias=False' s += ')' return s.format(name=self.__class__.__name__, **self.__dict__) class Conv2d(_ConvNd): def __init__(self, in_channels, out_channels, kernel_size, stride=1, padding=1, dilation=1, groups=1, bias=True): kernel_size = _pair(kernel_size) stride = _pair(stride) padding = _pair(padding) dilation = _pair(dilation) super(Conv2d, self).__init__(in_channels, out_channels, kernel_size, stride, padding, dilation, False, _pair(0), groups, bias) def forward(self, input): return conv2d_same_padding(input, self.weight, self.bias, self. stride, self.padding, self.dilation, self.groups) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch.nn import Module import math from torch.nn import functional as F import torch.utils.data from torch.nn.parameter import Parameter from torch.nn.functional import pad from torch.nn.modules import Module from torch.nn.modules.utils import _pair import torch.nn.parallel assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_constant_pad_nd_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 400 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 5 % 5 x0 = xindex % 5 x2 = xindex // 25 x3 = xindex tmp0 = x1 tmp1 = tl.full([1], 4, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = x0 tmp4 = tmp3 < tmp1 tmp5 = tmp2 & tmp4 tmp6 = tl.load(in_ptr0 + (x0 + 4 * x1 + 16 * x2), tmp5 & xmask, other=0.0) tl.store(out_ptr0 + x3, tmp6, xmask) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x3, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 5, 5), (100, 25, 5, 1), torch.float32) get_raw_stream(0) triton_poi_fused_constant_pad_nd_0[grid(400)](primals_3, buf0, 400, XBLOCK=256, num_warps=4, num_stages=1) del primals_3 buf1 = extern_kernels.convolution(buf0, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 4, 4), (64, 16, 4, 1)) buf2 = buf1 del buf1 triton_poi_fused_convolution_1[grid(256)](buf2, primals_2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 return buf2, primals_1, buf0 def conv2d_same_padding(input, weight, bias=None, stride=1, padding=1, dilation=1, groups=1): input_rows = input.size(2) filter_rows = weight.size(2) out_rows = (input_rows + stride[0] - 1) // stride[0] padding_rows = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) rows_odd = padding_rows % 2 != 0 padding_cols = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) cols_odd = padding_rows % 2 != 0 if rows_odd or cols_odd: input = pad(input, [0, int(cols_odd), 0, int(rows_odd)]) return F.conv2d(input, weight, bias, stride, padding=(padding_rows // 2, padding_cols // 2), dilation=dilation, groups=groups) class _ConvNd(Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding, dilation, transposed, output_padding, groups, bias): super(_ConvNd, self).__init__() if in_channels % groups != 0: raise ValueError('in_channels must be divisible by groups') if out_channels % groups != 0: raise ValueError('out_channels must be divisible by groups') self.in_channels = in_channels self.out_channels = out_channels self.kernel_size = kernel_size self.stride = stride self.padding = padding self.dilation = dilation self.transposed = transposed self.output_padding = output_padding self.groups = groups if transposed: self.weight = Parameter(torch.Tensor(in_channels, out_channels // groups, kernel_size)) else: self.weight = Parameter(torch.Tensor(out_channels, in_channels // groups, kernel_size)) if bias: self.bias = Parameter(torch.Tensor(out_channels)) else: self.register_parameter('bias', None) self.reset_parameters() def reset_parameters(self): n = self.in_channels for k in self.kernel_size: n = k stdv = 1.0 / math.sqrt(n) self.weight.data.uniform_(-stdv, stdv) if self.bias is not None: self.bias.data.uniform_(-stdv, stdv) def __repr__(self): s = ( '{name}({in_channels}, {out_channels}, kernel_size={kernel_size}, stride={stride}' ) if self.padding != (0,) len(self.padding): s += ', padding={padding}' if self.dilation != (1,) * len(self.dilation): s += ', dilation={dilation}' if self.output_padding != (0,) * len(self.output_padding): s += ', output_padding={output_padding}' if self.groups != 1: s += ', groups={groups}' if self.bias is None: s += ', bias=False' s += ')' return s.format(name=self.__class__.__name__, **self.__dict__) class Conv2dNew(_ConvNd): def __init__(self, in_channels, out_channels, kernel_size, stride=1, padding=1, dilation=1, groups=1, bias=True): kernel_size = _pair(kernel_size) stride = _pair(stride) padding = _pair(padding) dilation = _pair(dilation) super(Conv2dNew, self).__init__(in_channels, out_channels, kernel_size, stride, padding, dilation, False, _pair(0), groups, bias) def forward(self, input_0): primals_1 = self.weight primals_2 = self.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	AvrilCheng/LidarStereoNet	Conv2d	false	7,749	[ "MIT" ]	27	96c7cd6d5edb9b2fd302e2edd0c05cbda1ed024e	https://github.com/AvrilCheng/LidarStereoNet/tree/96c7cd6d5edb9b2fd302e2edd0c05cbda1ed024e	from torch.nn import Module import math import torch from torch.nn import functional as F import torch.utils.data from torch.nn.parameter import Parameter from torch.nn.functional import pad from torch.nn.modules import Module from torch.nn.modules.utils import _pair import torch.nn.parallel def conv2d_same_padding(input, weight, bias=None, stride=1, padding=1, dilation=1, groups=1): input_rows = input.size(2) filter_rows = weight.size(2) out_rows = (input_rows + stride[0] - 1) // stride[0] padding_rows = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) rows_odd = padding_rows % 2 != 0 padding_cols = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) cols_odd = padding_rows % 2 != 0 if rows_odd or cols_odd: input = pad(input, [0, int(cols_odd), 0, int(rows_odd)]) return F.conv2d(input, weight, bias, stride, padding=(padding_rows // 2, padding_cols // 2), dilation=dilation, groups=groups) class _ConvNd(Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding, dilation, transposed, output_padding, groups, bias): super().__init__() if in_channels % groups != 0: raise ValueError('in_channels must be divisible by groups') if out_channels % groups != 0: raise ValueError('out_channels must be divisible by groups') self.in_channels = in_channels self.out_channels = out_channels self.kernel_size = kernel_size self.stride = stride self.padding = padding self.dilation = dilation self.transposed = transposed self.output_padding = output_padding self.groups = groups if transposed: self.weight = Parameter(torch.Tensor(in_channels, out_channels // groups, kernel_size)) else: self.weight = Parameter(torch.Tensor(out_channels, in_channels // groups, kernel_size)) if bias: self.bias = Parameter(torch.Tensor(out_channels)) else: self.register_parameter('bias', None) self.reset_parameters() def reset_parameters(self): n = self.in_channels for k in self.kernel_size: n = k stdv = 1.0 / math.sqrt(n) self.weight.data.uniform_(-stdv, stdv) if self.bias is not None: self.bias.data.uniform_(-stdv, stdv) def __repr__(self): s = ( '{name}({in_channels}, {out_channels}, kernel_size={kernel_size}, stride={stride}' ) if self.padding != (0,) len(self.padding): s += ', padding={padding}' if self.dilation != (1,) * len(self.dilation): s += ', dilation={dilation}' if self.output_padding != (0,) * len(self.output_padding): s += ', output_padding={output_padding}' if self.groups != 1: s += ', groups={groups}' if self.bias is None: s += ', bias=False' s += ')' return s.format(name=self.__class__.__name__, **self.__dict__) class Model(_ConvNd): def __init__(self, in_channels, out_channels, kernel_size, stride=1, padding=1, dilation=1, groups=1, bias=True): kernel_size = _pair(kernel_size) stride = _pair(stride) padding = _pair(padding) dilation = _pair(dilation) super().__init__(in_channels, out_channels, kernel_size, stride, padding, dilation, False, _pair(0), groups, bias) def forward(self, input): return conv2d_same_padding(input, self.weight, self.bias, self. stride, self.padding, self.dilation, self.groups) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4, 4]
SiLU	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/s5/cs5cii52tc3hbclol2cj5szknqlzoteg2pw4i5j57dyaz6f54ybl.py # Topologically Sorted Source Nodes: [sigmoid, mul], Original ATen: [aten.sigmoid, aten.mul] # Source node to ATen node mapping: # mul => mul # sigmoid => sigmoid # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%arg0_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg0_1, %sigmoid), kwargs = {}) triton_poi_fused_mul_sigmoid_0 = async_compile.triton('triton_poi_fused_mul_sigmoid_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_sigmoid_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_sigmoid_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.sigmoid(tmp0) tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sigmoid, mul], Original ATen: [aten.sigmoid, aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_sigmoid_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class SiLU(nn.Module): """export-friendly version of nn.SiLU()""" @staticmethod def forward(x): return x * torch.sigmoid(x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_mul_sigmoid_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.sigmoid(tmp0) tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_sigmoid_0[grid(256)](arg0_1, buf0, 256, XBLOCK =256, num_warps=4, num_stages=1) del arg0_1 return buf0, class SiLUNew(nn.Module): """export-friendly version of nn.SiLU()""" def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Arui66/YOLOX	SiLU	false	7,750	[ "Apache-2.0" ]	16	7ee17936db849600817d7de05269bfdfb1a0eb48	https://github.com/Arui66/YOLOX/tree/7ee17936db849600817d7de05269bfdfb1a0eb48	import torch import torch.nn as nn class Model(nn.Module): """export-friendly version of nn.SiLU()""" @staticmethod def forward(x): return x * torch.sigmoid(x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
Auto_Encoder_Model	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/nd/cndrb2by2g3ednlxsjtytxjhjdm7bdlrgvzzodhsxvxnpml2di7p.py # Topologically Sorted Source Nodes: [conv2d, output], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d => convolution # output => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) triton_poi_fused_convolution_relu_0 = async_compile.triton('triton_poi_fused_convolution_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1048576], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1048576 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 4096) % 64 tmp0 = tl.load(in_out_ptr0 + (x3), None) tmp1 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x3), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/j5/cj5x5g7tjylagvbz6h2m6hegls2cywtutdigiphpfjlvmthy7vno.py # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # output_1 => getitem, getitem_1 # Graph fragment: # %getitem : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 0), kwargs = {}) # %getitem_1 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_1 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[262144], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 262144 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x0 = xindex % 32 x1 = (xindex // 32) x2 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (128x1)), None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (128x1)), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (64 + (2x0) + (128x1)), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (65 + (2x0) + (128x1)), None, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x2), tmp6, None) tl.store(out_ptr1 + (x2), tmp16, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/hv/chvtt4t3kybe7wxgu2lkrb2bzvvdcwsfa44w3awhon2lp5m42awx.py # Topologically Sorted Source Nodes: [conv2d_1, output_2], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_1 => convolution_1 # output_2 => relu_1 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem, %primals_4, %primals_5, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_1,), kwargs = {}) triton_poi_fused_convolution_relu_2 = async_compile.triton('triton_poi_fused_convolution_relu_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[131072], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 131072 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 1024) % 32 tmp0 = tl.load(in_out_ptr0 + (x3), None) tmp1 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x3), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/pv/cpvhvr3om26tjoygqjdsrhlyx526uttcdsddr6kdriinxi2otyn3.py # Topologically Sorted Source Nodes: [output_3], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # output_3 => getitem_2, getitem_3 # Graph fragment: # %getitem_2 : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_1, 0), kwargs = {}) # %getitem_3 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_1, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_3 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32768], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_3(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 32768 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x0 = xindex % 16 x1 = (xindex // 16) x2 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (64x1)), None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (64x1)), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (32 + (2x0) + (64x1)), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (33 + (2x0) + (64x1)), None, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x2), tmp6, None) tl.store(out_ptr1 + (x2), tmp16, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/nf/cnfyqrkuphqkiv6czf4b7k56iwsoautz4yqxm6ouf7cag2jjvpum.py # Topologically Sorted Source Nodes: [conv2d_2, output_4], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_2 => convolution_2 # output_4 => relu_2 # Graph fragment: # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem_2, %primals_6, %primals_7, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_2 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_2,), kwargs = {}) triton_poi_fused_convolution_relu_4 = async_compile.triton('triton_poi_fused_convolution_relu_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_4', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16384 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 256) % 16 tmp0 = tl.load(in_out_ptr0 + (x3), None) tmp1 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x3), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ng/cngtvb5oxtkb56vanucsj6tblery6az5vtxy7la4runjhlxmbmd2.py # Topologically Sorted Source Nodes: [conv2d_4, output_8], Original ATen: [aten.convolution, aten.sigmoid] # Source node to ATen node mapping: # conv2d_4 => convolution_6 # output_8 => sigmoid # Graph fragment: # %convolution_6 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_5, %primals_14, %primals_15, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%convolution_6,), kwargs = {}) triton_poi_fused_convolution_sigmoid_5 = async_compile.triton('triton_poi_fused_convolution_sigmoid_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_sigmoid_5', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_sigmoid_5(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16384 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), None) tmp1 = tl.load(in_ptr0 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 + tmp2 tmp4 = tl.sigmoid(tmp3) tl.store(in_out_ptr0 + (x0), tmp4, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15 = args args.clear() assert_size_stride(primals_1, (64, 1, 3, 3), (9, 9, 3, 1)) assert_size_stride(primals_2, (64, ), (1, )) assert_size_stride(primals_3, (4, 1, 64, 64), (4096, 4096, 64, 1)) assert_size_stride(primals_4, (32, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (32, ), (1, )) assert_size_stride(primals_6, (16, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_7, (16, ), (1, )) assert_size_stride(primals_8, (16, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_9, (32, ), (1, )) assert_size_stride(primals_10, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_11, (32, ), (1, )) assert_size_stride(primals_12, (32, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_13, (64, ), (1, )) assert_size_stride(primals_14, (1, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_15, (1, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [conv2d, output], Original ATen: [aten.convolution, aten.relu] stream0 = get_raw_stream(0) triton_poi_fused_convolution_relu_0.run(buf1, primals_2, 1048576, grid=grid(1048576), stream=stream0) del primals_2 buf2 = empty_strided_cuda((4, 64, 32, 32), (65536, 1024, 32, 1), torch.float32) buf3 = empty_strided_cuda((4, 64, 32, 32), (65536, 1024, 32, 1), torch.int8) # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_1.run(buf1, buf2, buf3, 262144, grid=grid(262144), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 32, 32, 32), (32768, 1024, 32, 1)) buf5 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [conv2d_1, output_2], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_2.run(buf5, primals_5, 131072, grid=grid(131072), stream=stream0) del primals_5 buf6 = empty_strided_cuda((4, 32, 16, 16), (8192, 256, 16, 1), torch.float32) buf7 = empty_strided_cuda((4, 32, 16, 16), (8192, 256, 16, 1), torch.int8) # Topologically Sorted Source Nodes: [output_3], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_3.run(buf5, buf6, buf7, 32768, grid=grid(32768), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_2], Original ATen: [aten.convolution] buf8 = extern_kernels.convolution(buf6, primals_6, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 16, 16, 16), (4096, 256, 16, 1)) buf9 = buf8; del buf8 # reuse # Topologically Sorted Source Nodes: [conv2d_2, output_4], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf9, primals_7, 16384, grid=grid(16384), stream=stream0) del primals_7 # Topologically Sorted Source Nodes: [conv_transpose2d], Original ATen: [aten.convolution] buf10 = extern_kernels.convolution(buf9, primals_8, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(1, 1), groups=1, bias=None) assert_size_stride(buf10, (4, 32, 32, 32), (32768, 1024, 32, 1)) buf11 = buf10; del buf10 # reuse # Topologically Sorted Source Nodes: [conv_transpose2d, output_5], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_2.run(buf11, primals_9, 131072, grid=grid(131072), stream=stream0) del primals_9 # Topologically Sorted Source Nodes: [conv2d_3], Original ATen: [aten.convolution] buf12 = extern_kernels.convolution(buf11, primals_10, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf12, (4, 32, 32, 32), (32768, 1024, 32, 1)) buf13 = buf12; del buf12 # reuse # Topologically Sorted Source Nodes: [conv2d_3, output_6], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_2.run(buf13, primals_11, 131072, grid=grid(131072), stream=stream0) del primals_11 # Topologically Sorted Source Nodes: [conv_transpose2d_1], Original ATen: [aten.convolution] buf14 = extern_kernels.convolution(buf13, primals_12, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(1, 1), groups=1, bias=None) assert_size_stride(buf14, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf15 = buf14; del buf14 # reuse # Topologically Sorted Source Nodes: [conv_transpose2d_1, output_7], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_0.run(buf15, primals_13, 1048576, grid=grid(1048576), stream=stream0) del primals_13 # Topologically Sorted Source Nodes: [conv2d_4], Original ATen: [aten.convolution] buf16 = extern_kernels.convolution(buf15, primals_14, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf16, (4, 1, 64, 64), (4096, 4096, 64, 1)) buf17 = buf16; del buf16 # reuse # Topologically Sorted Source Nodes: [conv2d_4, output_8], Original ATen: [aten.convolution, aten.sigmoid] triton_poi_fused_convolution_sigmoid_5.run(buf17, primals_15, 16384, grid=grid(16384), stream=stream0) del primals_15 return (buf17, primals_1, primals_3, primals_4, primals_6, primals_8, primals_10, primals_12, primals_14, buf1, buf2, buf3, buf5, buf6, buf7, buf9, buf11, buf13, buf15, buf17, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((64, 1, 3, 3), (9, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 1, 64, 64), (4096, 4096, 64, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((32, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((16, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((16, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((32, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((32, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_14 = rand_strided((1, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_15 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class Auto_Encoder_Model(nn.Module): def __init__(self): super(Auto_Encoder_Model, self).__init__() self.conv1 = nn.Conv2d(1, 64, padding=1, kernel_size=3) self.max_pool1 = nn.MaxPool2d(2) self.conv2 = nn.Conv2d(64, 32, padding=1, kernel_size=3) self.max_pool2 = nn.MaxPool2d(2) self.conv3 = nn.Conv2d(32, 16, padding=1, kernel_size=3) self.tran_conv1 = nn.ConvTranspose2d(16, 32, kernel_size=3, stride= 2, padding=1, output_padding=1) self.conv4 = nn.Conv2d(32, 32, kernel_size=3, padding=1) self.tran_conv2 = nn.ConvTranspose2d(32, 64, kernel_size=3, stride= 2, padding=1, output_padding=1) self.conv5 = nn.Conv2d(64, 1, kernel_size=3, padding=1) def forward_pass(self, x): output = F.relu(self.conv1(x)) output = self.max_pool1(output) output = F.relu(self.conv2(output)) output = self.max_pool2(output) output = F.relu(self.conv3(output)) return output def reconstruct_pass(self, x): output = F.relu(self.tran_conv1(x)) output = F.relu(self.conv4(output)) output = F.relu(self.tran_conv2(output)) output = torch.sigmoid(self.conv5(output)) return output def forward(self, x): output = self.forward_pass(x) output = self.reconstruct_pass(output) return output def get_inputs(): return [torch.rand([4, 1, 64, 64])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn import torch.nn.functional as F assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_convolution_relu_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 4096 % 64 tmp0 = tl.load(in_out_ptr0 + x3, None) tmp1 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x3, tmp4, None) @triton.jit def triton_poi_fused_max_pool2d_with_indices_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x0 = xindex % 32 x1 = xindex // 32 x2 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 128 * x1), None, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 128 * x1), None, eviction_policy ='evict_last') tmp3 = tl.load(in_ptr0 + (64 + 2 * x0 + 128 * x1), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (65 + 2 * x0 + 128 * x1), None, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + x2, tmp6, None) tl.store(out_ptr1 + x2, tmp16, None) @triton.jit def triton_poi_fused_convolution_relu_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 1024 % 32 tmp0 = tl.load(in_out_ptr0 + x3, None) tmp1 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x3, tmp4, None) @triton.jit def triton_poi_fused_max_pool2d_with_indices_3(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x0 = xindex % 16 x1 = xindex // 16 x2 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 64 * x1), None, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 64 * x1), None, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (32 + 2 * x0 + 64 * x1), None, eviction_policy ='evict_last') tmp5 = tl.load(in_ptr0 + (33 + 2 * x0 + 64 * x1), None, eviction_policy ='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + x2, tmp6, None) tl.store(out_ptr1 + x2, tmp16, None) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 256 % 16 tmp0 = tl.load(in_out_ptr0 + x3, None) tmp1 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x3, tmp4, None) @triton.jit def triton_poi_fused_convolution_sigmoid_5(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, None) tmp1 = tl.load(in_ptr0 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 + tmp2 tmp4 = tl.sigmoid(tmp3) tl.store(in_out_ptr0 + x0, tmp4, None) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15) = args args.clear() assert_size_stride(primals_1, (64, 1, 3, 3), (9, 9, 3, 1)) assert_size_stride(primals_2, (64,), (1,)) assert_size_stride(primals_3, (4, 1, 64, 64), (4096, 4096, 64, 1)) assert_size_stride(primals_4, (32, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (32,), (1,)) assert_size_stride(primals_6, (16, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_7, (16,), (1,)) assert_size_stride(primals_8, (16, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_9, (32,), (1,)) assert_size_stride(primals_10, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_11, (32,), (1,)) assert_size_stride(primals_12, (32, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_13, (64,), (1,)) assert_size_stride(primals_14, (1, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_15, (1,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_relu_0[grid(1048576)](buf1, primals_2, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((4, 64, 32, 32), (65536, 1024, 32, 1), torch.float32) buf3 = empty_strided_cuda((4, 64, 32, 32), (65536, 1024, 32, 1), torch.int8) triton_poi_fused_max_pool2d_with_indices_1[grid(262144)](buf1, buf2, buf3, 262144, XBLOCK=512, num_warps=8, num_stages=1) buf4 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 32, 32, 32), (32768, 1024, 32, 1)) buf5 = buf4 del buf4 triton_poi_fused_convolution_relu_2[grid(131072)](buf5, primals_5, 131072, XBLOCK=512, num_warps=8, num_stages=1) del primals_5 buf6 = empty_strided_cuda((4, 32, 16, 16), (8192, 256, 16, 1), torch.float32) buf7 = empty_strided_cuda((4, 32, 16, 16), (8192, 256, 16, 1), torch.int8) triton_poi_fused_max_pool2d_with_indices_3[grid(32768)](buf5, buf6, buf7, 32768, XBLOCK=128, num_warps=4, num_stages=1) buf8 = extern_kernels.convolution(buf6, primals_6, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 16, 16, 16), (4096, 256, 16, 1)) buf9 = buf8 del buf8 triton_poi_fused_convolution_relu_4[grid(16384)](buf9, primals_7, 16384, XBLOCK=256, num_warps=4, num_stages=1) del primals_7 buf10 = extern_kernels.convolution(buf9, primals_8, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(1, 1), groups=1, bias=None) assert_size_stride(buf10, (4, 32, 32, 32), (32768, 1024, 32, 1)) buf11 = buf10 del buf10 triton_poi_fused_convolution_relu_2[grid(131072)](buf11, primals_9, 131072, XBLOCK=512, num_warps=8, num_stages=1) del primals_9 buf12 = extern_kernels.convolution(buf11, primals_10, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf12, (4, 32, 32, 32), (32768, 1024, 32, 1)) buf13 = buf12 del buf12 triton_poi_fused_convolution_relu_2[grid(131072)](buf13, primals_11, 131072, XBLOCK=512, num_warps=8, num_stages=1) del primals_11 buf14 = extern_kernels.convolution(buf13, primals_12, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(1, 1), groups=1, bias=None) assert_size_stride(buf14, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf15 = buf14 del buf14 triton_poi_fused_convolution_relu_0[grid(1048576)](buf15, primals_13, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_13 buf16 = extern_kernels.convolution(buf15, primals_14, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf16, (4, 1, 64, 64), (4096, 4096, 64, 1)) buf17 = buf16 del buf16 triton_poi_fused_convolution_sigmoid_5[grid(16384)](buf17, primals_15, 16384, XBLOCK=256, num_warps=4, num_stages=1) del primals_15 return (buf17, primals_1, primals_3, primals_4, primals_6, primals_8, primals_10, primals_12, primals_14, buf1, buf2, buf3, buf5, buf6, buf7, buf9, buf11, buf13, buf15, buf17) class Auto_Encoder_ModelNew(nn.Module): def __init__(self): super(Auto_Encoder_ModelNew, self).__init__() self.conv1 = nn.Conv2d(1, 64, padding=1, kernel_size=3) self.max_pool1 = nn.MaxPool2d(2) self.conv2 = nn.Conv2d(64, 32, padding=1, kernel_size=3) self.max_pool2 = nn.MaxPool2d(2) self.conv3 = nn.Conv2d(32, 16, padding=1, kernel_size=3) self.tran_conv1 = nn.ConvTranspose2d(16, 32, kernel_size=3, stride= 2, padding=1, output_padding=1) self.conv4 = nn.Conv2d(32, 32, kernel_size=3, padding=1) self.tran_conv2 = nn.ConvTranspose2d(32, 64, kernel_size=3, stride= 2, padding=1, output_padding=1) self.conv5 = nn.Conv2d(64, 1, kernel_size=3, padding=1) def forward_pass(self, x): output = F.relu(self.conv1(x)) output = self.max_pool1(output) output = F.relu(self.conv2(output)) output = self.max_pool2(output) output = F.relu(self.conv3(output)) return output def reconstruct_pass(self, x): output = F.relu(self.tran_conv1(x)) output = F.relu(self.conv4(output)) output = F.relu(self.tran_conv2(output)) output = torch.sigmoid(self.conv5(output)) return output def forward(self, input_0): primals_1 = self.conv1.weight primals_2 = self.conv1.bias primals_4 = self.conv2.weight primals_5 = self.conv2.bias primals_6 = self.conv3.weight primals_7 = self.conv3.bias primals_8 = self.tran_conv1.weight primals_9 = self.tran_conv1.bias primals_10 = self.conv4.weight primals_11 = self.conv4.bias primals_12 = self.tran_conv2.weight primals_13 = self.tran_conv2.bias primals_14 = self.conv5.weight primals_15 = self.conv5.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15]) return output[0]	Awenbocc/med-vqa	Auto_Encoder_Model	false	7,751	[ "MIT" ]	27	0cca6811e38cf54aff6a7cce3442296d07875e64	https://github.com/Awenbocc/med-vqa/tree/0cca6811e38cf54aff6a7cce3442296d07875e64	import torch import torch.nn as nn import torch.nn.functional as F class Model(nn.Module): def __init__(self): super().__init__() self.conv1 = nn.Conv2d(1, 64, padding=1, kernel_size=3) self.max_pool1 = nn.MaxPool2d(2) self.conv2 = nn.Conv2d(64, 32, padding=1, kernel_size=3) self.max_pool2 = nn.MaxPool2d(2) self.conv3 = nn.Conv2d(32, 16, padding=1, kernel_size=3) self.tran_conv1 = nn.ConvTranspose2d(16, 32, kernel_size=3, stride= 2, padding=1, output_padding=1) self.conv4 = nn.Conv2d(32, 32, kernel_size=3, padding=1) self.tran_conv2 = nn.ConvTranspose2d(32, 64, kernel_size=3, stride= 2, padding=1, output_padding=1) self.conv5 = nn.Conv2d(64, 1, kernel_size=3, padding=1) def forward_pass(self, x): output = F.relu(self.conv1(x)) output = self.max_pool1(output) output = F.relu(self.conv2(output)) output = self.max_pool2(output) output = F.relu(self.conv3(output)) return output def reconstruct_pass(self, x): output = F.relu(self.tran_conv1(x)) output = F.relu(self.conv4(output)) output = F.relu(self.tran_conv2(output)) output = torch.sigmoid(self.conv5(output)) return output def forward(self, x): output = self.forward_pass(x) output = self.reconstruct_pass(output) return output def get_inputs(): return [torch.rand([4, 1, 64, 64])] def get_init_inputs(): return []
Attention_SEblock	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/yg/cygooswl5gkxugqq2ejgag2vtcqhtumn2j3notsgzty3xoxbrq4v.py # Topologically Sorted Source Nodes: [adaptive_avg_pool2d], Original ATen: [aten.mean] # Source node to ATen node mapping: # adaptive_avg_pool2d => mean # Graph fragment: # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%primals_1, [-1, -2], True), kwargs = {}) triton_per_fused_mean_0 = async_compile.triton('triton_per_fused_mean_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_mean_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_mean_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (16x0)), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp5 = 16.0 tmp6 = tmp4 / tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/xr/cxrbkvclbwezn4blkxettbfalyh5q4bsuxhlcnje4eedoho3alx4.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.relu] # Source node to ATen node mapping: # x_2 => relu # Graph fragment: # %add_tensor_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default_1, %primals_3), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_tensor_1,), kwargs = {}) triton_poi_fused_relu_1 = async_compile.triton('triton_poi_fused_relu_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr0 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 + tmp2 tmp4 = tl.full([1], 0, tl.int32) tmp5 = triton_helpers.maximum(tmp4, tmp3) tl.store(in_out_ptr0 + (x0), tmp5, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ko/ckohiwbe7h5vj3bnohaai4ijfjs7dx5rmbls3kqi5c4urq6zevlx.py # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.log, aten.neg, aten.add, aten._softmax] # Source node to ATen node mapping: # x_4 => add, exp, log, neg, sum_1 # Graph fragment: # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_5), kwargs = {}) # %log : [num_users=1] = call_function[target=torch.ops.aten.log.default](args = (%exponential,), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%log,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_tensor, %neg), kwargs = {}) # %mul_tensor : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add, 1), kwargs = {}) # %amax_default : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%mul_tensor, [-1], True), kwargs = {}) # %sub_tensor : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul_tensor, %amax_default), kwargs = {}) # %div_tensor : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub_tensor, 1), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%div_tensor,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) triton_poi_fused__softmax_add_log_neg_2 = async_compile.triton('triton_poi_fused__softmax_add_log_neg_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_add_log_neg_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_add_log_neg_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (2x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp4 = tl.load(in_ptr2 + (2x0), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr0 + (1 + (2x0)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr1 + (1)) tmp12 = tl.broadcast_to(tmp11, [XBLOCK]) tmp14 = tl.load(in_ptr2 + (1 + (2x0)), xmask, eviction_policy='evict_last') tmp3 = tmp0 + tmp2 tmp5 = tl_math.log(tmp4) tmp6 = -tmp5 tmp7 = tmp3 + tmp6 tmp8 = 1.0 tmp9 = tmp7 * tmp8 tmp13 = tmp10 + tmp12 tmp15 = tl_math.log(tmp14) tmp16 = -tmp15 tmp17 = tmp13 + tmp16 tmp18 = tmp17 * tmp8 tmp19 = triton_helpers.maximum(tmp9, tmp18) tmp20 = tmp9 - tmp19 tmp21 = tmp20 * tmp8 tmp22 = tl_math.exp(tmp21) tmp23 = tmp18 - tmp19 tmp24 = tmp23 * tmp8 tmp25 = tl_math.exp(tmp24) tmp26 = tmp22 + tmp25 tl.store(out_ptr0 + (x0), tmp19, xmask) tl.store(out_ptr1 + (x0), tmp26, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/xs/cxsglt6gmdff5j7ipvbbuw5en4f7klmbz2bb4pdkfh5ioui7je36.py # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.log, aten.neg, aten.add, aten._softmax] # Source node to ATen node mapping: # x_4 => add, div_1, exp, log, neg, sum_1 # Graph fragment: # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_5), kwargs = {}) # %log : [num_users=1] = call_function[target=torch.ops.aten.log.default](args = (%exponential,), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%log,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_tensor, %neg), kwargs = {}) # %mul_tensor : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add, 1), kwargs = {}) # %amax_default : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%mul_tensor, [-1], True), kwargs = {}) # %sub_tensor : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul_tensor, %amax_default), kwargs = {}) # %div_tensor : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub_tensor, 1), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%div_tensor,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) # %div_1 : [num_users=4] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_add_log_neg_3 = async_compile.triton('triton_poi_fused__softmax_add_log_neg_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[8], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_add_log_neg_3', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_add_log_neg_3(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, xnumel, XBLOCK : tl.constexpr): xnumel = 8 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 2 x1 = (xindex // 2) tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (x2), xmask) tmp9 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr3 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tl_math.log(tmp3) tmp5 = -tmp4 tmp6 = tmp2 + tmp5 tmp7 = 1.0 tmp8 = tmp6 * tmp7 tmp10 = tmp8 - tmp9 tmp11 = tmp10 * tmp7 tmp12 = tl_math.exp(tmp11) tmp14 = tmp12 / tmp13 tl.store(in_out_ptr0 + (x2), tmp14, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/dq/cdq4543nna3f7j45hcsu6apn5rnmsiiztgvx2kvajrzuce4na3zw.py # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.max, aten.scatter, aten.sub, aten.add] # Source node to ATen node mapping: # x_4 => add_1, max_1, scatter_upon_const_tensor, sub_1 # Graph fragment: # %max_1 : [num_users=1] = call_function[target=torch.ops.aten.max.dim](args = (%div_1, -1, True), kwargs = {}) # %scatter_upon_const_tensor : [num_users=1] = call_function[target=torch._inductor.fx_passes.post_grad.scatter_upon_const_tensor](args = (), kwargs = {shape: [4, 2], background_val: 0, dtype: torch.float32, dim: -1, selector: %getitem_1, val: 1.0}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%scatter_upon_const_tensor, %div_1), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sub_1, %div_1), kwargs = {}) triton_poi_fused_add_max_scatter_sub_4 = async_compile.triton('triton_poi_fused_add_max_scatter_sub_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[8], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_max_scatter_sub_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_max_scatter_sub_4(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 8 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 2) x0 = xindex % 2 x2 = xindex tmp0 = tl.load(in_ptr0 + (2x1), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x1)), xmask, eviction_policy='evict_last') tmp22 = tl.load(in_ptr0 + (x2), xmask) tmp2 = tmp0 > tmp1 tmp3 = tmp0 == tmp1 tmp4 = tmp0 != tmp0 tmp5 = tmp1 != tmp1 tmp6 = tmp4 > tmp5 tmp7 = tmp2 \| tmp6 tmp8 = tmp4 & tmp5 tmp9 = tmp3 \| tmp8 tmp10 = tl.full([1], 0, tl.int64) tmp11 = tl.full([1], 1, tl.int64) tmp12 = tmp10 < tmp11 tmp13 = tmp9 & tmp12 tmp14 = tmp7 \| tmp13 tmp15 = tl.where(tmp14, tmp0, tmp1) tmp16 = tl.where(tmp14, tmp10, tmp11) tmp17 = x0 tmp18 = tmp16 == tmp17 tmp19 = 1.0 tmp20 = 0.0 tmp21 = tl.where(tmp18, tmp19, tmp20) tmp23 = tmp21 - tmp22 tmp24 = tmp23 + tmp22 tl.store(out_ptr0 + (x2), tmp24, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (1, 4), (4, 1)) assert_size_stride(primals_3, (1, ), (1, )) assert_size_stride(primals_4, (2, 1), (1, 1)) assert_size_stride(primals_5, (2, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [adaptive_avg_pool2d], Original ATen: [aten.mean] stream0 = get_raw_stream(0) triton_per_fused_mean_0.run(buf1, primals_1, 16, 16, grid=grid(16), stream=stream0) del primals_1 buf2 = empty_strided_cuda((4, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (4, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 1), (1, 4), 0), out=buf2) del primals_2 buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.relu] triton_poi_fused_relu_1.run(buf3, primals_3, 4, grid=grid(4), stream=stream0) del primals_3 buf4 = empty_strided_cuda((4, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf3, reinterpret_tensor(primals_4, (1, 2), (1, 1), 0), out=buf4) buf5 = empty_strided_cuda((4, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.exponential] buf6 = torch.ops.aten.exponential.default(buf5) del buf5 buf7 = buf6 del buf6 buf8 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf9 = empty_strided_cuda((4, 1), (1, 4), torch.float32) # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.log, aten.neg, aten.add, aten._softmax] triton_poi_fused__softmax_add_log_neg_2.run(buf4, primals_5, buf7, buf8, buf9, 4, grid=grid(4), stream=stream0) buf10 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.log, aten.neg, aten.add, aten._softmax] triton_poi_fused__softmax_add_log_neg_3.run(buf10, primals_5, buf7, buf8, buf9, 8, grid=grid(8), stream=stream0) del buf8 del buf9 del primals_5 buf11 = buf7; del buf7 # reuse # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.max, aten.scatter, aten.sub, aten.add] triton_poi_fused_add_max_scatter_sub_4.run(buf10, buf11, 8, grid=grid(8), stream=stream0) return (buf11, reinterpret_tensor(buf1, (4, 4), (4, 1), 0), buf3, buf10, primals_4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((1, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((2, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class Attention_SEblock(nn.Module): def __init__(self, channels, reduction, temperature): super(Attention_SEblock, self).__init__() self.avg_pool = nn.AdaptiveAvgPool2d(1) self.fc1 = nn.Linear(channels, channels // reduction) self.relu = nn.ReLU(inplace=True) self.fc2 = nn.Linear(channels // reduction, 2) self.fc2.bias.data[0] = 0.1 self.fc2.bias.data[1] = 2 self.temperature = temperature self.channels = channels def forward(self, x): x = self.avg_pool(x).view(-1, self.channels) x = self.fc1(x) x = self.relu(x) x = self.fc2(x) x = F.gumbel_softmax(x, tau=1, hard=True) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'channels': 4, 'reduction': 4, 'temperature': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_per_fused_mean_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp5 = 16.0 tmp6 = tmp4 / tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp6, xmask) @triton.jit def triton_poi_fused_relu_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr0 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 + tmp2 tmp4 = tl.full([1], 0, tl.int32) tmp5 = triton_helpers.maximum(tmp4, tmp3) tl.store(in_out_ptr0 + x0, tmp5, xmask) @triton.jit def triton_poi_fused__softmax_add_log_neg_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 2 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp4 = tl.load(in_ptr2 + 2 * x0, xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr0 + (1 + 2 * x0), xmask, eviction_policy='evict_last' ) tmp11 = tl.load(in_ptr1 + 1) tmp12 = tl.broadcast_to(tmp11, [XBLOCK]) tmp14 = tl.load(in_ptr2 + (1 + 2 * x0), xmask, eviction_policy='evict_last' ) tmp3 = tmp0 + tmp2 tmp5 = tl_math.log(tmp4) tmp6 = -tmp5 tmp7 = tmp3 + tmp6 tmp8 = 1.0 tmp9 = tmp7 * tmp8 tmp13 = tmp10 + tmp12 tmp15 = tl_math.log(tmp14) tmp16 = -tmp15 tmp17 = tmp13 + tmp16 tmp18 = tmp17 * tmp8 tmp19 = triton_helpers.maximum(tmp9, tmp18) tmp20 = tmp9 - tmp19 tmp21 = tmp20 * tmp8 tmp22 = tl_math.exp(tmp21) tmp23 = tmp18 - tmp19 tmp24 = tmp23 * tmp8 tmp25 = tl_math.exp(tmp24) tmp26 = tmp22 + tmp25 tl.store(out_ptr0 + x0, tmp19, xmask) tl.store(out_ptr1 + x0, tmp26, xmask) @triton.jit def triton_poi_fused__softmax_add_log_neg_3(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, xnumel, XBLOCK: tl.constexpr): xnumel = 8 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 2 x1 = xindex // 2 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + x2, xmask) tmp9 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr3 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tl_math.log(tmp3) tmp5 = -tmp4 tmp6 = tmp2 + tmp5 tmp7 = 1.0 tmp8 = tmp6 * tmp7 tmp10 = tmp8 - tmp9 tmp11 = tmp10 * tmp7 tmp12 = tl_math.exp(tmp11) tmp14 = tmp12 / tmp13 tl.store(in_out_ptr0 + x2, tmp14, xmask) @triton.jit def triton_poi_fused_add_max_scatter_sub_4(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 8 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 2 x0 = xindex % 2 x2 = xindex tmp0 = tl.load(in_ptr0 + 2 * x1, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x1), xmask, eviction_policy='evict_last') tmp22 = tl.load(in_ptr0 + x2, xmask) tmp2 = tmp0 > tmp1 tmp3 = tmp0 == tmp1 tmp4 = tmp0 != tmp0 tmp5 = tmp1 != tmp1 tmp6 = tmp4 > tmp5 tmp7 = tmp2 \| tmp6 tmp8 = tmp4 & tmp5 tmp9 = tmp3 \| tmp8 tmp10 = tl.full([1], 0, tl.int64) tmp11 = tl.full([1], 1, tl.int64) tmp12 = tmp10 < tmp11 tmp13 = tmp9 & tmp12 tmp14 = tmp7 \| tmp13 tl.where(tmp14, tmp0, tmp1) tmp16 = tl.where(tmp14, tmp10, tmp11) tmp17 = x0 tmp18 = tmp16 == tmp17 tmp19 = 1.0 tmp20 = 0.0 tmp21 = tl.where(tmp18, tmp19, tmp20) tmp23 = tmp21 - tmp22 tmp24 = tmp23 + tmp22 tl.store(out_ptr0 + x2, tmp24, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (1, 4), (4, 1)) assert_size_stride(primals_3, (1,), (1,)) assert_size_stride(primals_4, (2, 1), (1, 1)) assert_size_stride(primals_5, (2,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_mean_0[grid(16)](buf1, primals_1, 16, 16, XBLOCK=8, num_warps=2, num_stages=1) del primals_1 buf2 = empty_strided_cuda((4, 1), (1, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (4, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 1), (1, 4), 0), out=buf2) del primals_2 buf3 = buf2 del buf2 triton_poi_fused_relu_1[grid(4)](buf3, primals_3, 4, XBLOCK=4, num_warps=1, num_stages=1) del primals_3 buf4 = empty_strided_cuda((4, 2), (2, 1), torch.float32) extern_kernels.mm(buf3, reinterpret_tensor(primals_4, (1, 2), (1, 1 ), 0), out=buf4) buf5 = empty_strided_cuda((4, 2), (2, 1), torch.float32) buf6 = torch.ops.aten.exponential.default(buf5) del buf5 buf7 = buf6 del buf6 buf8 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf9 = empty_strided_cuda((4, 1), (1, 4), torch.float32) triton_poi_fused__softmax_add_log_neg_2[grid(4)](buf4, primals_5, buf7, buf8, buf9, 4, XBLOCK=4, num_warps=1, num_stages=1) buf10 = buf4 del buf4 triton_poi_fused__softmax_add_log_neg_3[grid(8)](buf10, primals_5, buf7, buf8, buf9, 8, XBLOCK=8, num_warps=1, num_stages=1) del buf8 del buf9 del primals_5 buf11 = buf7 del buf7 triton_poi_fused_add_max_scatter_sub_4[grid(8)](buf10, buf11, 8, XBLOCK=8, num_warps=1, num_stages=1) return buf11, reinterpret_tensor(buf1, (4, 4), (4, 1), 0 ), buf3, buf10, primals_4 class Attention_SEblockNew(nn.Module): def __init__(self, channels, reduction, temperature): super(Attention_SEblockNew, self).__init__() self.avg_pool = nn.AdaptiveAvgPool2d(1) self.fc1 = nn.Linear(channels, channels // reduction) self.relu = nn.ReLU(inplace=True) self.fc2 = nn.Linear(channels // reduction, 2) self.fc2.bias.data[0] = 0.1 self.fc2.bias.data[1] = 2 self.temperature = temperature self.channels = channels def forward(self, input_0): primals_2 = self.fc1.weight primals_3 = self.fc1.bias primals_4 = self.fc2.weight primals_5 = self.fc2.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	Andrew-Zhu/DyFPN	Attention_SEblock	false	7,752	[ "Apache-2.0" ]	32	a74463b59c4ce28253c2449a07c0f6692a0147a1	https://github.com/Andrew-Zhu/DyFPN/tree/a74463b59c4ce28253c2449a07c0f6692a0147a1	import torch import torch.nn as nn import torch.nn.functional as F class Model(nn.Module): def __init__(self, channels, reduction, temperature): super().__init__() self.avg_pool = nn.AdaptiveAvgPool2d(1) self.fc1 = nn.Linear(channels, channels // reduction) self.relu = nn.ReLU(inplace=True) self.fc2 = nn.Linear(channels // reduction, 2) self.fc2.bias.data[0] = 0.1 self.fc2.bias.data[1] = 2 self.temperature = temperature self.channels = channels def forward(self, x): x = self.avg_pool(x).view(-1, self.channels) x = self.fc1(x) x = self.relu(x) x = self.fc2(x) x = F.gumbel_softmax(x, tau=1, hard=True) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4, 4]
Conv3d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/h6/ch6eqgos2urlyqi4nszwse7alqodbdhnuomp6famphdglrvxctcb.py # Topologically Sorted Source Nodes: [input_1], Original ATen: [aten.constant_pad_nd] # Source node to ATen node mapping: # input_1 => constant_pad_nd # Graph fragment: # %constant_pad_nd : [num_users=1] = call_function[target=torch.ops.aten.constant_pad_nd.default](args = (%primals_3, [0, 1, 0, 1, 0, 1], 0.0), kwargs = {}) triton_poi_fused_constant_pad_nd_0 = async_compile.triton('triton_poi_fused_constant_pad_nd_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_constant_pad_nd_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_constant_pad_nd_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 500 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = (xindex // 25) % 5 x1 = (xindex // 5) % 5 x0 = xindex % 5 x3 = (xindex // 125) x4 = xindex tmp0 = x2 tmp1 = tl.full([1], 4, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = x1 tmp4 = tmp3 < tmp1 tmp5 = x0 tmp6 = tmp5 < tmp1 tmp7 = tmp2 & tmp4 tmp8 = tmp7 & tmp6 tmp9 = tl.load(in_ptr0 + (x0 + (4x1) + (16x2) + (64x3)), tmp8 & xmask, other=0.0) tl.store(out_ptr0 + (x4), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/sl/cslkfhhs6jurt24runqwulpse5bloeqqtfnqzgiwxdbhnetft6vx.py # Topologically Sorted Source Nodes: [conv3d], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv3d => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%unsqueeze, %primals_1, %primals_2, [1, 1, 1], [1, 1, 1], [1, 1, 1], False, [0, 0, 0], 1), kwargs = {}) triton_poi_fused_convolution_1 = async_compile.triton('triton_poi_fused_convolution_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 64) tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x2), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 5, 5, 5), (125, 25, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [input_1], Original ATen: [aten.constant_pad_nd] stream0 = get_raw_stream(0) triton_poi_fused_constant_pad_nd_0.run(primals_3, buf0, 500, grid=grid(500), stream=stream0) del primals_3 # Topologically Sorted Source Nodes: [conv3d], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(reinterpret_tensor(buf0, (1, 4, 5, 5, 5), (0, 125, 25, 5, 1), 0), primals_1, stride=(1, 1, 1), padding=(1, 1, 1), dilation=(1, 1, 1), transposed=False, output_padding=(0, 0, 0), groups=1, bias=None) assert_size_stride(buf1, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1)) buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [conv3d], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf2, primals_2, 256, grid=grid(256), stream=stream0) del primals_2 return (reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0), primals_1, reinterpret_tensor(buf0, (1, 4, 5, 5, 5), (500, 125, 25, 5, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	from torch.nn import Module import math import torch from torch.nn import functional as F import torch.utils.data from torch.nn.parameter import Parameter from torch.nn.functional import pad from torch.nn.modules import Module from torch.nn.modules.utils import _triple import torch.nn.parallel def conv3d_same_padding(input, weight, bias=None, stride=1, padding=1, dilation=1, groups=1): input_rows = input.size(3) filter_rows = weight.size(3) out_rows = (input_rows + stride[0] - 1) // stride[0] padding_rows = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) rows_odd = padding_rows % 2 != 0 padding_cols = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) cols_odd = padding_rows % 2 != 0 padding_d = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) d_odd = padding_rows % 2 != 0 if rows_odd or cols_odd or d_odd: input = pad(input, [0, int(d_odd), 0, int(cols_odd), 0, int(rows_odd)]) return F.conv3d(input, weight, bias, stride, padding=(padding_d // 2, padding_rows // 2, padding_cols // 2), dilation=dilation, groups=groups ) class _ConvNd(Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding, dilation, transposed, output_padding, groups, bias): super(_ConvNd, self).__init__() if in_channels % groups != 0: raise ValueError('in_channels must be divisible by groups') if out_channels % groups != 0: raise ValueError('out_channels must be divisible by groups') self.in_channels = in_channels self.out_channels = out_channels self.kernel_size = kernel_size self.stride = stride self.padding = padding self.dilation = dilation self.transposed = transposed self.output_padding = output_padding self.groups = groups if transposed: self.weight = Parameter(torch.Tensor(in_channels, out_channels // groups, kernel_size)) else: self.weight = Parameter(torch.Tensor(out_channels, in_channels // groups, kernel_size)) if bias: self.bias = Parameter(torch.Tensor(out_channels)) else: self.register_parameter('bias', None) self.reset_parameters() def reset_parameters(self): n = self.in_channels for k in self.kernel_size: n = k stdv = 1.0 / math.sqrt(n) self.weight.data.uniform_(-stdv, stdv) if self.bias is not None: self.bias.data.uniform_(-stdv, stdv) def __repr__(self): s = ( '{name}({in_channels}, {out_channels}, kernel_size={kernel_size}, stride={stride}' ) if self.padding != (0,) len(self.padding): s += ', padding={padding}' if self.dilation != (1,) * len(self.dilation): s += ', dilation={dilation}' if self.output_padding != (0,) * len(self.output_padding): s += ', output_padding={output_padding}' if self.groups != 1: s += ', groups={groups}' if self.bias is None: s += ', bias=False' s += ')' return s.format(name=self.__class__.__name__, **self.__dict__) class Conv3d(_ConvNd): def __init__(self, in_channels, out_channels, kernel_size, stride=1, padding=0, dilation=1, groups=1, bias=True): kernel_size = _triple(kernel_size) stride = _triple(stride) padding = _triple(padding) dilation = _triple(dilation) super(Conv3d, self).__init__(in_channels, out_channels, kernel_size, stride, padding, dilation, False, _triple(0), groups, bias) def forward(self, input): return conv3d_same_padding(input, self.weight, self.bias, self. stride, self.padding, self.dilation, self.groups) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch.nn import Module import math from torch.nn import functional as F import torch.utils.data from torch.nn.parameter import Parameter from torch.nn.functional import pad from torch.nn.modules import Module from torch.nn.modules.utils import _triple import torch.nn.parallel assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_constant_pad_nd_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 500 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex // 25 % 5 x1 = xindex // 5 % 5 x0 = xindex % 5 x3 = xindex // 125 x4 = xindex tmp0 = x2 tmp1 = tl.full([1], 4, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = x1 tmp4 = tmp3 < tmp1 tmp5 = x0 tmp6 = tmp5 < tmp1 tmp7 = tmp2 & tmp4 tmp8 = tmp7 & tmp6 tmp9 = tl.load(in_ptr0 + (x0 + 4 * x1 + 16 * x2 + 64 * x3), tmp8 & xmask, other=0.0) tl.store(out_ptr0 + x4, tmp9, xmask) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 64 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x2, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 5, 5, 5), (125, 25, 5, 1), torch.float32) get_raw_stream(0) triton_poi_fused_constant_pad_nd_0[grid(500)](primals_3, buf0, 500, XBLOCK=256, num_warps=4, num_stages=1) del primals_3 buf1 = extern_kernels.convolution(reinterpret_tensor(buf0, (1, 4, 5, 5, 5), (0, 125, 25, 5, 1), 0), primals_1, stride=(1, 1, 1), padding=(1, 1, 1), dilation=(1, 1, 1), transposed=False, output_padding=(0, 0, 0), groups=1, bias=None) assert_size_stride(buf1, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1)) buf2 = buf1 del buf1 triton_poi_fused_convolution_1[grid(256)](buf2, primals_2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 return reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), primals_1, reinterpret_tensor(buf0, (1, 4, 5, 5, 5), (500, 125, 25, 5, 1), 0) def conv3d_same_padding(input, weight, bias=None, stride=1, padding=1, dilation=1, groups=1): input_rows = input.size(3) filter_rows = weight.size(3) out_rows = (input_rows + stride[0] - 1) // stride[0] padding_rows = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) rows_odd = padding_rows % 2 != 0 padding_cols = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) cols_odd = padding_rows % 2 != 0 padding_d = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) d_odd = padding_rows % 2 != 0 if rows_odd or cols_odd or d_odd: input = pad(input, [0, int(d_odd), 0, int(cols_odd), 0, int(rows_odd)]) return F.conv3d(input, weight, bias, stride, padding=(padding_d // 2, padding_rows // 2, padding_cols // 2), dilation=dilation, groups=groups ) class _ConvNd(Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding, dilation, transposed, output_padding, groups, bias): super(_ConvNd, self).__init__() if in_channels % groups != 0: raise ValueError('in_channels must be divisible by groups') if out_channels % groups != 0: raise ValueError('out_channels must be divisible by groups') self.in_channels = in_channels self.out_channels = out_channels self.kernel_size = kernel_size self.stride = stride self.padding = padding self.dilation = dilation self.transposed = transposed self.output_padding = output_padding self.groups = groups if transposed: self.weight = Parameter(torch.Tensor(in_channels, out_channels // groups, kernel_size)) else: self.weight = Parameter(torch.Tensor(out_channels, in_channels // groups, kernel_size)) if bias: self.bias = Parameter(torch.Tensor(out_channels)) else: self.register_parameter('bias', None) self.reset_parameters() def reset_parameters(self): n = self.in_channels for k in self.kernel_size: n = k stdv = 1.0 / math.sqrt(n) self.weight.data.uniform_(-stdv, stdv) if self.bias is not None: self.bias.data.uniform_(-stdv, stdv) def __repr__(self): s = ( '{name}({in_channels}, {out_channels}, kernel_size={kernel_size}, stride={stride}' ) if self.padding != (0,) len(self.padding): s += ', padding={padding}' if self.dilation != (1,) * len(self.dilation): s += ', dilation={dilation}' if self.output_padding != (0,) * len(self.output_padding): s += ', output_padding={output_padding}' if self.groups != 1: s += ', groups={groups}' if self.bias is None: s += ', bias=False' s += ')' return s.format(name=self.__class__.__name__, **self.__dict__) class Conv3dNew(_ConvNd): def __init__(self, in_channels, out_channels, kernel_size, stride=1, padding=0, dilation=1, groups=1, bias=True): kernel_size = _triple(kernel_size) stride = _triple(stride) padding = _triple(padding) dilation = _triple(dilation) super(Conv3dNew, self).__init__(in_channels, out_channels, kernel_size, stride, padding, dilation, False, _triple(0), groups, bias) def forward(self, input_0): primals_1 = self.weight primals_2 = self.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	AvrilCheng/LidarStereoNet	Conv3d	false	7,753	[ "MIT" ]	27	96c7cd6d5edb9b2fd302e2edd0c05cbda1ed024e	https://github.com/AvrilCheng/LidarStereoNet/tree/96c7cd6d5edb9b2fd302e2edd0c05cbda1ed024e	from torch.nn import Module import math import torch from torch.nn import functional as F import torch.utils.data from torch.nn.parameter import Parameter from torch.nn.functional import pad from torch.nn.modules import Module from torch.nn.modules.utils import _triple import torch.nn.parallel def conv3d_same_padding(input, weight, bias=None, stride=1, padding=1, dilation=1, groups=1): input_rows = input.size(3) filter_rows = weight.size(3) out_rows = (input_rows + stride[0] - 1) // stride[0] padding_rows = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) rows_odd = padding_rows % 2 != 0 padding_cols = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) cols_odd = padding_rows % 2 != 0 padding_d = max(0, (out_rows - 1) * stride[0] + (filter_rows - 1) * dilation[0] + 1 - input_rows) d_odd = padding_rows % 2 != 0 if rows_odd or cols_odd or d_odd: input = pad(input, [0, int(d_odd), 0, int(cols_odd), 0, int(rows_odd)]) return F.conv3d(input, weight, bias, stride, padding=(padding_d // 2, padding_rows // 2, padding_cols // 2), dilation=dilation, groups=groups ) class _ConvNd(Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding, dilation, transposed, output_padding, groups, bias): super().__init__() if in_channels % groups != 0: raise ValueError('in_channels must be divisible by groups') if out_channels % groups != 0: raise ValueError('out_channels must be divisible by groups') self.in_channels = in_channels self.out_channels = out_channels self.kernel_size = kernel_size self.stride = stride self.padding = padding self.dilation = dilation self.transposed = transposed self.output_padding = output_padding self.groups = groups if transposed: self.weight = Parameter(torch.Tensor(in_channels, out_channels // groups, kernel_size)) else: self.weight = Parameter(torch.Tensor(out_channels, in_channels // groups, kernel_size)) if bias: self.bias = Parameter(torch.Tensor(out_channels)) else: self.register_parameter('bias', None) self.reset_parameters() def reset_parameters(self): n = self.in_channels for k in self.kernel_size: n = k stdv = 1.0 / math.sqrt(n) self.weight.data.uniform_(-stdv, stdv) if self.bias is not None: self.bias.data.uniform_(-stdv, stdv) def __repr__(self): s = ( '{name}({in_channels}, {out_channels}, kernel_size={kernel_size}, stride={stride}' ) if self.padding != (0,) len(self.padding): s += ', padding={padding}' if self.dilation != (1,) * len(self.dilation): s += ', dilation={dilation}' if self.output_padding != (0,) * len(self.output_padding): s += ', output_padding={output_padding}' if self.groups != 1: s += ', groups={groups}' if self.bias is None: s += ', bias=False' s += ')' return s.format(name=self.__class__.__name__, **self.__dict__) class Model(_ConvNd): def __init__(self, in_channels, out_channels, kernel_size, stride=1, padding=0, dilation=1, groups=1, bias=True): kernel_size = _triple(kernel_size) stride = _triple(stride) padding = _triple(padding) dilation = _triple(dilation) super().__init__(in_channels, out_channels, kernel_size, stride, padding, dilation, False, _triple(0), groups, bias) def forward(self, input): return conv3d_same_padding(input, self.weight, self.bias, self. stride, self.padding, self.dilation, self.groups) def get_inputs(): # ... truncated (>4000 chars) for memory efficiency
ShiftedSoftplus	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/g6/cg6u4ofsx3lzzsbxca23bt25wgxzmwef3qgpn5xni2lefwxppl2u.py # Topologically Sorted Source Nodes: [softplus, sub], Original ATen: [aten.softplus, aten.sub] # Source node to ATen node mapping: # softplus => exp, gt, log1p, where # sub => sub # Graph fragment: # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%arg0_1, 20), kwargs = {}) # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%arg0_1,), kwargs = {}) # %log1p : [num_users=1] = call_function[target=torch.ops.aten.log1p.default](args = (%exp,), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %arg0_1, %log1p), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where, 0.6931471824645996), kwargs = {}) triton_poi_fused_softplus_sub_0 = async_compile.triton('triton_poi_fused_softplus_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_softplus_sub_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_softplus_sub_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 20.0 tmp2 = tmp0 > tmp1 tmp3 = tl_math.exp(tmp0) tmp4 = libdevice.log1p(tmp3) tmp5 = tl.where(tmp2, tmp0, tmp4) tmp6 = 0.6931471824645996 tmp7 = tmp5 - tmp6 tl.store(out_ptr0 + (x0), tmp7, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [softplus, sub], Original ATen: [aten.softplus, aten.sub] stream0 = get_raw_stream(0) triton_poi_fused_softplus_sub_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F class ShiftedSoftplus(torch.nn.Module): def __init__(self): super(ShiftedSoftplus, self).__init__() self.shift = torch.log(torch.tensor(2.0)).item() def forward(self, x): return F.softplus(x) - self.shift def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_softplus_sub_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 20.0 tmp2 = tmp0 > tmp1 tmp3 = tl_math.exp(tmp0) tmp4 = libdevice.log1p(tmp3) tmp5 = tl.where(tmp2, tmp0, tmp4) tmp6 = 0.6931471824645996 tmp7 = tmp5 - tmp6 tl.store(out_ptr0 + x0, tmp7, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_softplus_sub_0[grid(256)](arg0_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, class ShiftedSoftplusNew(torch.nn.Module): def __init__(self): super(ShiftedSoftplusNew, self).__init__() self.shift = torch.log(torch.tensor(2.0)).item() def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	BaratiLab/AugLiChem	ShiftedSoftplus	false	7,754	[ "MIT" ]	16	37258b5ce2c653436b3e819b58d2659052d6edcc	https://github.com/BaratiLab/AugLiChem/tree/37258b5ce2c653436b3e819b58d2659052d6edcc	import torch import torch.nn.functional as F class Model(torch.nn.Module): def __init__(self): super().__init__() self.shift = torch.log(torch.tensor(2.0)).item() def forward(self, x): return F.softplus(x) - self.shift def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
Upsample	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/6w/c6wtmdwxjo7wezkht7wgzzxxrhlxzpar6hx7dzg655ig7bbf4zmm.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten._unsafe_index] # Source node to ATen node mapping: # x => _unsafe_index # Graph fragment: # %_unsafe_index : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%arg0_1, [None, None, %unsqueeze, %convert_element_type_3]), kwargs = {}) triton_poi_fused__unsafe_index_0 = async_compile.triton('triton_poi_fused__unsafe_index_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__unsafe_index_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 0, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__unsafe_index_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 8) % 8 x0 = xindex % 8 x2 = (xindex // 64) x4 = xindex tmp0 = x1 tmp1 = tmp0.to(tl.float32) tmp2 = 0.5 tmp3 = tmp1 * tmp2 tmp4 = tmp3.to(tl.int32) tmp5 = x0 tmp6 = tmp5.to(tl.float32) tmp7 = tmp6 * tmp2 tmp8 = tmp7.to(tl.int32) tmp9 = tl.load(in_ptr0 + (tmp8 + (4tmp4) + (16x2)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (x4), tmp9, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 8, 8), (256, 64, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [x], Original ATen: [aten._unsafe_index] stream0 = get_raw_stream(0) triton_poi_fused__unsafe_index_0.run(arg0_1, buf0, 1024, grid=grid(1024), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.utils.data import torch.nn.functional as F class Upsample(nn.Module): def __init__(self, scale_factor=2, size=None): super(Upsample, self).__init__() self.upsample = F.upsample_nearest self.size = size self.scale_factor = scale_factor def forward(self, x): x = self.upsample(x, size=self.size, scale_factor=self.scale_factor) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn import torch.utils.data import torch.nn.functional as F assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused__unsafe_index_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 8 % 8 x0 = xindex % 8 x2 = xindex // 64 x4 = xindex tmp0 = x1 tmp1 = tmp0.to(tl.float32) tmp2 = 0.5 tmp3 = tmp1 * tmp2 tmp4 = tmp3.to(tl.int32) tmp5 = x0 tmp6 = tmp5.to(tl.float32) tmp7 = tmp6 * tmp2 tmp8 = tmp7.to(tl.int32) tmp9 = tl.load(in_ptr0 + (tmp8 + 4 * tmp4 + 16 * x2), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + x4, tmp9, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 8, 8), (256, 64, 8, 1), torch.float32) get_raw_stream(0) triton_poi_fused__unsafe_index_0[grid(1024)](arg0_1, buf0, 1024, XBLOCK=128, num_warps=4, num_stages=1) del arg0_1 return buf0, class UpsampleNew(nn.Module): def __init__(self, scale_factor=2, size=None): super(UpsampleNew, self).__init__() self.upsample = F.upsample_nearest self.size = size self.scale_factor = scale_factor def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Bhaskers-Blu-Org1/gfmn	Upsample	false	7,756	[ "Apache-2.0" ]	15	52b4fd005f8c52297bd6aa5d93e4a1c8d46f56ce	https://github.com/Bhaskers-Blu-Org1/gfmn/tree/52b4fd005f8c52297bd6aa5d93e4a1c8d46f56ce	import torch import torch.nn as nn import torch.utils.data import torch.nn.functional as F class Model(nn.Module): def __init__(self, scale_factor=2, size=None): super().__init__() self.upsample = F.upsample_nearest self.size = size self.scale_factor = scale_factor def forward(self, x): x = self.upsample(x, size=self.size, scale_factor=self.scale_factor) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
ChamferLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/54/c54kbgh4c76rfiqkzpjap2o3tnyyulhbtvr4yf5xmipugremz7cz.py # Topologically Sorted Source Nodes: [add, mul, P, min_1, min_2, loss_1, loss_2, add_1], Original ATen: [aten.add, aten.mul, aten.sub, aten.min, aten.sum] # Source node to ATen node mapping: # P => sub # add => add # add_1 => add_1 # loss_1 => sum_1 # loss_2 => sum_2 # min_1 => min_1 # min_2 => min_2 # mul => mul # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%permute_4, %expand_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%bmm_2, 2), kwargs = {}) # %sub : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add, %mul), kwargs = {}) # %min_1 : [num_users=1] = call_function[target=torch.ops.aten.min.dim](args = (%sub, 1), kwargs = {}) # %min_2 : [num_users=1] = call_function[target=torch.ops.aten.min.dim](args = (%sub, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%getitem,), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%getitem_2,), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_1, %sum_2), kwargs = {}) triton_per_fused_add_min_mul_sub_sum_0 = async_compile.triton('triton_per_fused_add_min_mul_sub_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 16], reduction_hint=ReductionHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {4: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 5), equal_to_1=(4,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_min_mul_sub_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 18, 'num_reduction': 2, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_min_mul_sub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = (rindex // 4) r0 = rindex % 4 r2 = rindex tmp0 = tl.load(in_ptr0 + (16r1), None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + ((5r0) + (16r1)), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (r0 + (16r1)), None) tmp7 = tl.load(in_ptr0 + (5 + (16r1)), None, eviction_policy='evict_last') tmp9 = tl.load(in_ptr2 + (4 + r0 + (16r1)), None) tmp13 = tl.load(in_ptr0 + (10 + (16r1)), None, eviction_policy='evict_last') tmp15 = tl.load(in_ptr2 + (8 + r0 + (16r1)), None) tmp19 = tl.load(in_ptr0 + (15 + (16r1)), None, eviction_policy='evict_last') tmp21 = tl.load(in_ptr2 + (12 + r0 + (16r1)), None) tmp28 = tl.load(in_ptr0 + ((5r0) + (16r1)), None, eviction_policy='evict_last') tmp29 = tl.load(in_ptr1 + (16r1), None, eviction_policy='evict_last') tmp31 = tl.load(in_ptr2 + (4r2), None, eviction_policy='evict_last') tmp34 = tl.load(in_ptr1 + (5 + (16r1)), None, eviction_policy='evict_last') tmp36 = tl.load(in_ptr2 + (1 + (4r2)), None, eviction_policy='evict_last') tmp40 = tl.load(in_ptr1 + (10 + (16r1)), None, eviction_policy='evict_last') tmp42 = tl.load(in_ptr2 + (2 + (4r2)), None, eviction_policy='evict_last') tmp46 = tl.load(in_ptr1 + (15 + (16r1)), None, eviction_policy='evict_last') tmp48 = tl.load(in_ptr2 + (3 + (4r2)), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = 2.0 tmp5 = tmp3 * tmp4 tmp6 = tmp2 - tmp5 tmp8 = tmp7 + tmp1 tmp10 = tmp9 * tmp4 tmp11 = tmp8 - tmp10 tmp12 = triton_helpers.minimum(tmp6, tmp11) tmp14 = tmp13 + tmp1 tmp16 = tmp15 * tmp4 tmp17 = tmp14 - tmp16 tmp18 = triton_helpers.minimum(tmp12, tmp17) tmp20 = tmp19 + tmp1 tmp22 = tmp21 * tmp4 tmp23 = tmp20 - tmp22 tmp24 = triton_helpers.minimum(tmp18, tmp23) tmp25 = tl.broadcast_to(tmp24, [XBLOCK, RBLOCK]) tmp27 = tl.sum(tmp25, 1)[:, None] tmp30 = tmp28 + tmp29 tmp32 = tmp31 * tmp4 tmp33 = tmp30 - tmp32 tmp35 = tmp28 + tmp34 tmp37 = tmp36 * tmp4 tmp38 = tmp35 - tmp37 tmp39 = triton_helpers.minimum(tmp33, tmp38) tmp41 = tmp28 + tmp40 tmp43 = tmp42 * tmp4 tmp44 = tmp41 - tmp43 tmp45 = triton_helpers.minimum(tmp39, tmp44) tmp47 = tmp28 + tmp46 tmp49 = tmp48 * tmp4 tmp50 = tmp47 - tmp49 tmp51 = triton_helpers.minimum(tmp45, tmp50) tmp52 = tl.broadcast_to(tmp51, [XBLOCK, RBLOCK]) tmp54 = tl.sum(tmp52, 1)[:, None] tmp55 = tmp27 + tmp54 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp55, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [xx], Original ATen: [aten.bmm] extern_kernels.bmm(arg0_1, reinterpret_tensor(arg0_1, (4, 4, 4), (16, 1, 4), 0), out=buf0) buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [yy], Original ATen: [aten.bmm] extern_kernels.bmm(arg1_1, reinterpret_tensor(arg1_1, (4, 4, 4), (16, 1, 4), 0), out=buf1) buf2 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [zz], Original ATen: [aten.bmm] extern_kernels.bmm(arg0_1, reinterpret_tensor(arg1_1, (4, 4, 4), (16, 1, 4), 0), out=buf2) del arg0_1 del arg1_1 buf5 = empty_strided_cuda((), (), torch.float32) buf7 = buf5; del buf5 # reuse # Topologically Sorted Source Nodes: [add, mul, P, min_1, min_2, loss_1, loss_2, add_1], Original ATen: [aten.add, aten.mul, aten.sub, aten.min, aten.sum] stream0 = get_raw_stream(0) triton_per_fused_add_min_mul_sub_sum_0.run(buf7, buf0, buf1, buf2, 1, 16, grid=grid(1), stream=stream0) del buf0 del buf1 del buf2 return (buf7, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn def batch_pairwise_dist(x, y): _bs, num_points_x, _points_dim = x.size() _, num_points_y, _ = y.size() xx = torch.bmm(x, x.transpose(2, 1)) yy = torch.bmm(y, y.transpose(2, 1)) zz = torch.bmm(x, y.transpose(2, 1)) diag_ind_x = torch.arange(0, num_points_x) diag_ind_y = torch.arange(0, num_points_y) if x.get_device() != -1: diag_ind_x = diag_ind_x diag_ind_y = diag_ind_y rx = xx[:, diag_ind_x, diag_ind_x].unsqueeze(1).expand_as(zz.transpose( 2, 1)) ry = yy[:, diag_ind_y, diag_ind_y].unsqueeze(1).expand_as(zz) P = rx.transpose(2, 1) + ry - 2 * zz return P class ChamferLoss(nn.Module): def __init__(self): super(ChamferLoss, self).__init__() self.use_cuda = torch.cuda.is_available() def forward(self, preds, gts): P = batch_pairwise_dist(gts, preds) mins, _ = torch.min(P, 1) loss_1 = torch.sum(mins) mins, _ = torch.min(P, 2) loss_2 = torch.sum(mins) return loss_1 + loss_2 def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_per_fused_add_min_mul_sub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex // 4 r0 = rindex % 4 r2 = rindex tmp0 = tl.load(in_ptr0 + 16 * r1, None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (5 * r0 + 16 * r1), None, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr2 + (r0 + 16 * r1), None) tmp7 = tl.load(in_ptr0 + (5 + 16 * r1), None, eviction_policy='evict_last') tmp9 = tl.load(in_ptr2 + (4 + r0 + 16 * r1), None) tmp13 = tl.load(in_ptr0 + (10 + 16 * r1), None, eviction_policy= 'evict_last') tmp15 = tl.load(in_ptr2 + (8 + r0 + 16 * r1), None) tmp19 = tl.load(in_ptr0 + (15 + 16 * r1), None, eviction_policy= 'evict_last') tmp21 = tl.load(in_ptr2 + (12 + r0 + 16 * r1), None) tmp28 = tl.load(in_ptr0 + (5 * r0 + 16 * r1), None, eviction_policy= 'evict_last') tmp29 = tl.load(in_ptr1 + 16 * r1, None, eviction_policy='evict_last') tmp31 = tl.load(in_ptr2 + 4 * r2, None, eviction_policy='evict_last') tmp34 = tl.load(in_ptr1 + (5 + 16 * r1), None, eviction_policy='evict_last' ) tmp36 = tl.load(in_ptr2 + (1 + 4 * r2), None, eviction_policy='evict_last') tmp40 = tl.load(in_ptr1 + (10 + 16 * r1), None, eviction_policy= 'evict_last') tmp42 = tl.load(in_ptr2 + (2 + 4 * r2), None, eviction_policy='evict_last') tmp46 = tl.load(in_ptr1 + (15 + 16 * r1), None, eviction_policy= 'evict_last') tmp48 = tl.load(in_ptr2 + (3 + 4 * r2), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = 2.0 tmp5 = tmp3 * tmp4 tmp6 = tmp2 - tmp5 tmp8 = tmp7 + tmp1 tmp10 = tmp9 * tmp4 tmp11 = tmp8 - tmp10 tmp12 = triton_helpers.minimum(tmp6, tmp11) tmp14 = tmp13 + tmp1 tmp16 = tmp15 * tmp4 tmp17 = tmp14 - tmp16 tmp18 = triton_helpers.minimum(tmp12, tmp17) tmp20 = tmp19 + tmp1 tmp22 = tmp21 * tmp4 tmp23 = tmp20 - tmp22 tmp24 = triton_helpers.minimum(tmp18, tmp23) tmp25 = tl.broadcast_to(tmp24, [XBLOCK, RBLOCK]) tmp27 = tl.sum(tmp25, 1)[:, None] tmp30 = tmp28 + tmp29 tmp32 = tmp31 * tmp4 tmp33 = tmp30 - tmp32 tmp35 = tmp28 + tmp34 tmp37 = tmp36 * tmp4 tmp38 = tmp35 - tmp37 tmp39 = triton_helpers.minimum(tmp33, tmp38) tmp41 = tmp28 + tmp40 tmp43 = tmp42 * tmp4 tmp44 = tmp41 - tmp43 tmp45 = triton_helpers.minimum(tmp39, tmp44) tmp47 = tmp28 + tmp46 tmp49 = tmp48 * tmp4 tmp50 = tmp47 - tmp49 tmp51 = triton_helpers.minimum(tmp45, tmp50) tmp52 = tl.broadcast_to(tmp51, [XBLOCK, RBLOCK]) tmp54 = tl.sum(tmp52, 1)[:, None] tmp55 = tmp27 + tmp54 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp55, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(arg0_1, reinterpret_tensor(arg0_1, (4, 4, 4), ( 16, 1, 4), 0), out=buf0) buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(arg1_1, reinterpret_tensor(arg1_1, (4, 4, 4), ( 16, 1, 4), 0), out=buf1) buf2 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(arg0_1, reinterpret_tensor(arg1_1, (4, 4, 4), ( 16, 1, 4), 0), out=buf2) del arg0_1 del arg1_1 buf5 = empty_strided_cuda((), (), torch.float32) buf7 = buf5 del buf5 get_raw_stream(0) triton_per_fused_add_min_mul_sub_sum_0[grid(1)](buf7, buf0, buf1, buf2, 1, 16, XBLOCK=1, num_warps=2, num_stages=1) del buf0 del buf1 del buf2 return buf7, def batch_pairwise_dist(x, y): _bs, num_points_x, _points_dim = x.size() _, num_points_y, _ = y.size() xx = torch.bmm(x, x.transpose(2, 1)) yy = torch.bmm(y, y.transpose(2, 1)) zz = torch.bmm(x, y.transpose(2, 1)) diag_ind_x = torch.arange(0, num_points_x) diag_ind_y = torch.arange(0, num_points_y) if x.get_device() != -1: diag_ind_x = diag_ind_x diag_ind_y = diag_ind_y rx = xx[:, diag_ind_x, diag_ind_x].unsqueeze(1).expand_as(zz.transpose( 2, 1)) ry = yy[:, diag_ind_y, diag_ind_y].unsqueeze(1).expand_as(zz) P = rx.transpose(2, 1) + ry - 2 * zz return P class ChamferLossNew(nn.Module): def __init__(self): super(ChamferLossNew, self).__init__() self.use_cuda = torch.cuda.is_available() def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	AnTao97/UnsupervisedPointCloudSegmentation	ChamferLoss	false	7,757	[ "MIT" ]	13	9bcf0bdf3b1ae62421d9202eb7c0b014d6a69c02	https://github.com/AnTao97/UnsupervisedPointCloudSegmentation/tree/9bcf0bdf3b1ae62421d9202eb7c0b014d6a69c02	import torch import torch.nn as nn def batch_pairwise_dist(x, y): _bs, num_points_x, _points_dim = x.size() _, num_points_y, _ = y.size() xx = torch.bmm(x, x.transpose(2, 1)) yy = torch.bmm(y, y.transpose(2, 1)) zz = torch.bmm(x, y.transpose(2, 1)) diag_ind_x = torch.arange(0, num_points_x) diag_ind_y = torch.arange(0, num_points_y) if x.get_device() != -1: diag_ind_x = diag_ind_x diag_ind_y = diag_ind_y rx = xx[:, diag_ind_x, diag_ind_x].unsqueeze(1).expand_as(zz.transpose( 2, 1)) ry = yy[:, diag_ind_y, diag_ind_y].unsqueeze(1).expand_as(zz) P = rx.transpose(2, 1) + ry - 2 * zz return P class Model(nn.Module): def __init__(self): super().__init__() self.use_cuda = torch.cuda.is_available() def forward(self, preds, gts): P = batch_pairwise_dist(gts, preds) mins, _ = torch.min(P, 1) loss_1 = torch.sum(mins) mins, _ = torch.min(P, 2) loss_2 = torch.sum(mins) return loss_1 + loss_2 def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return []
Step	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/yr/cyrimrn7hjs4ujrah23iozftnxyacokmj2xvgfceqhk7e4zm5szc.py # Topologically Sorted Source Nodes: [sign, clamp, mul, output], Original ATen: [aten.sign, aten.clamp, aten.mul, aten.sub] # Source node to ATen node mapping: # clamp => clamp_min # mul => mul # output => sub # sign => sign # Graph fragment: # %sign : [num_users=1] = call_function[target=torch.ops.aten.sign.default](args = (%arg0_1,), kwargs = {}) # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sign, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%clamp_min, 2), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul, 1), kwargs = {}) triton_poi_fused_clamp_mul_sign_sub_0 = async_compile.triton('triton_poi_fused_clamp_mul_sign_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clamp_mul_sign_sub_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clamp_mul_sign_sub_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp1 < tmp0 tmp3 = tmp2.to(tl.int8) tmp4 = tmp0 < tmp1 tmp5 = tmp4.to(tl.int8) tmp6 = tmp3 - tmp5 tmp7 = tmp6.to(tmp0.dtype) tmp8 = 0.0 tmp9 = triton_helpers.maximum(tmp7, tmp8) tmp10 = 2.0 tmp11 = tmp9 * tmp10 tmp12 = 1.0 tmp13 = tmp11 - tmp12 tl.store(out_ptr0 + (x0), tmp13, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sign, clamp, mul, output], Original ATen: [aten.sign, aten.clamp, aten.mul, aten.sub] stream0 = get_raw_stream(0) triton_poi_fused_clamp_mul_sign_sub_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class StepF(torch.autograd.Function): """ A step function that returns values in {-1, 1} and uses the Straigh-Through Estimator to update upstream weights in the network """ @staticmethod def forward(ctx, input_): ctx.save_for_backward(input_) output = torch.sign(input_).clamp(min=0) * 2 - 1 return output @staticmethod def backward(ctx, grad_output): input_, = ctx.saved_tensors grad_input = None if ctx.needs_input_grad[0]: grad_input = grad_output return grad_input class Step(nn.Module): """Module wrapper for a step function (StepF). """ def __init__(self): super(Step, self).__init__() def __repr__(self): s = '{name}(low=-1, high=1)' return s.format(name=self.__class__.__name__) def forward(self, x): return StepF.apply(x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_clamp_mul_sign_sub_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp1 < tmp0 tmp3 = tmp2.to(tl.int8) tmp4 = tmp0 < tmp1 tmp5 = tmp4.to(tl.int8) tmp6 = tmp3 - tmp5 tmp7 = tmp6.to(tmp0.dtype) tmp8 = 0.0 tmp9 = triton_helpers.maximum(tmp7, tmp8) tmp10 = 2.0 tmp11 = tmp9 * tmp10 tmp12 = 1.0 tmp13 = tmp11 - tmp12 tl.store(out_ptr0 + x0, tmp13, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clamp_mul_sign_sub_0[grid(256)](arg0_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del arg0_1 return buf0, class StepF(torch.autograd.Function): """ A step function that returns values in {-1, 1} and uses the Straigh-Through Estimator to update upstream weights in the network """ @staticmethod def forward(ctx, input_): ctx.save_for_backward(input_) output = torch.sign(input_).clamp(min=0) * 2 - 1 return output @staticmethod def backward(ctx, grad_output): input_, = ctx.saved_tensors grad_input = None if ctx.needs_input_grad[0]: grad_input = grad_output return grad_input class StepNew(nn.Module): """Module wrapper for a step function (StepF). """ def __init__(self): super(StepNew, self).__init__() def __repr__(self): s = '{name}(low=-1, high=1)' return s.format(name=self.__class__.__name__) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Bhaskers-Blu-Org1/online-alt-min	Step	false	7,758	[ "Apache-2.0" ]	23	ef31aaad639c0880df8700d34613164298bcadd0	https://github.com/Bhaskers-Blu-Org1/online-alt-min/tree/ef31aaad639c0880df8700d34613164298bcadd0	import torch import torch.nn as nn class StepF(torch.autograd.Function): """ A step function that returns values in {-1, 1} and uses the Straigh-Through Estimator to update upstream weights in the network """ @staticmethod def forward(ctx, input_): ctx.save_for_backward(input_) output = torch.sign(input_).clamp(min=0) * 2 - 1 return output @staticmethod def backward(ctx, grad_output): input_, = ctx.saved_tensors grad_input = None if ctx.needs_input_grad[0]: grad_input = grad_output return grad_input class Model(nn.Module): """Module wrapper for a step function (StepF). """ def __init__(self): super().__init__() def __repr__(self): s = '{name}(low=-1, high=1)' return s.format(name=self.__class__.__name__) def forward(self, x): return StepF.apply(x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
BilinearAttention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/p3/cp3vh5ge4dyj3r4smr5dvjovuocujri2yvhft44mt2rcrwo3tz5y.py # Topologically Sorted Source Nodes: [e], Original ATen: [aten.clone] # Source node to ATen node mapping: # e => clone # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand_1,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_0 = async_compile.triton('triton_poi_fused_clone_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) % 4 x2 = (xindex // 16) % 4 x3 = (xindex // 64) x4 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4x2) + (16x1) + (64x3)), xmask) tl.store(out_ptr0 + (x4), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/om/com5a2jdtzsd2gxozlfy64n7thpakjehaajnnx7weffss4gxj2sy.py # Topologically Sorted Source Nodes: [A], Original ATen: [aten._softmax] # Source node to ATen node mapping: # A => amax, clone_1, exp, sub # Graph fragment: # %clone_1 : [num_users=2] = call_function[target=torch.ops.aten.clone.default](args = (%permute_2,), kwargs = {memory_format: torch.contiguous_format}) # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%clone_1, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%clone_1, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/5a/c5abigykhfm7cab2u6niwnld7cmypn7ucdeyk23bxivht75kaxr2.py # Topologically Sorted Source Nodes: [A], Original ATen: [aten._softmax] # Source node to ATen node mapping: # A => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_2 = async_compile.triton('triton_poi_fused__softmax_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x4 = xindex x5 = (xindex // 4) x0 = xindex % 4 x1 = (xindex // 4) % 4 x2 = (xindex // 16) % 4 x3 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x4), xmask) tmp1 = tl.load(in_ptr0 + (4x5), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x5)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x5)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x5)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x0 + (4x2) + (16x1) + (64*x3)), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [wh], Original ATen: [aten.addmm] extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf0) del primals_1 del primals_2 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [e], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(primals_4, buf1, 256, grid=grid(256), stream=stream0) del primals_4 buf2 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [e], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf1, (16, 4, 4), (16, 4, 1), 0), out=buf2) buf3 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 4, 16, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [A], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf2, buf3, 256, grid=grid(256), stream=stream0) buf4 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [A], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf3, buf4, 256, grid=grid(256), stream=stream0) del buf3 return (buf4, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf4, reinterpret_tensor(buf1, (16, 4, 4), (16, 1, 4), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data from torch import nn class BilinearAttention(nn.Module): """ :param enc_dim: Scalar. :param dec_dim: Scalar """ def __init__(self, enc_dim, dec_dim): super(BilinearAttention, self).__init__() self.W = nn.Linear(enc_dim, dec_dim) def forward(self, h, s): """ :param h: (N, Tx, Cx) Tensor. Encoder outputs :param s: (N, Ty/r, Cx) Tensor. Decoder inputs (previous decoder outputs) Returns: A: (N, Ty/r, Tx) Tensor. attention """ wh = self.W(h) e = torch.matmul(wh, s.transpose(1, 2)) A = torch.softmax(e.transpose(1, 2), dim=-1) return A def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'enc_dim': 4, 'dec_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.utils.data from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_clone_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 % 4 x3 = xindex // 64 x4 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * x2 + 16 * x1 + 64 * x3), xmask) tl.store(out_ptr0 + x4, tmp0, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x4 = xindex x5 = xindex // 4 x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 % 4 x3 = xindex // 64 tmp0 = tl.load(in_ptr0 + x4, xmask) tmp1 = tl.load(in_ptr0 + 4 * x5, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x5), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x5), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x5), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x0 + 4 * x2 + 16 * x1 + 64 * x3), tmp8, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0 ), alpha=1, beta=1, out=buf0) del primals_1 del primals_2 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(256)](primals_4, buf1, 256, XBLOCK= 128, num_warps=4, num_stages=1) del primals_4 buf2 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf0, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf1, (16, 4, 4), (16, 4, 1), 0), out=buf2) buf3 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 4, 16, 1), 0) del buf0 triton_poi_fused__softmax_1[grid(256)](buf2, buf3, 256, XBLOCK=256, num_warps=4, num_stages=1) buf4 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf2 triton_poi_fused__softmax_2[grid(256)](buf3, buf4, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf3 return buf4, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), buf4, reinterpret_tensor(buf1, (16, 4, 4), (16, 1, 4), 0) class BilinearAttentionNew(nn.Module): """ :param enc_dim: Scalar. :param dec_dim: Scalar """ def __init__(self, enc_dim, dec_dim): super(BilinearAttentionNew, self).__init__() self.W = nn.Linear(enc_dim, dec_dim) def forward(self, input_0, input_1): primals_1 = self.W.weight primals_2 = self.W.bias primals_3 = input_0 primals_4 = input_1 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	AstraliteHeart/cookietts	BilinearAttention	false	7,759	[ "BSD-3-Clause" ]	25	c871f5f7b5790656d5b57bcd9e63946a2da52f0f	https://github.com/AstraliteHeart/cookietts/tree/c871f5f7b5790656d5b57bcd9e63946a2da52f0f	import torch import torch.utils.data from torch import nn class Model(nn.Module): """ :param enc_dim: Scalar. :param dec_dim: Scalar """ def __init__(self, enc_dim, dec_dim): super().__init__() self.W = nn.Linear(enc_dim, dec_dim) def forward(self, h, s): """ :param h: (N, Tx, Cx) Tensor. Encoder outputs :param s: (N, Ty/r, Cx) Tensor. Decoder inputs (previous decoder outputs) Returns: A: (N, Ty/r, Tx) Tensor. attention """ wh = self.W(h) e = torch.matmul(wh, s.transpose(1, 2)) A = torch.softmax(e.transpose(1, 2), dim=-1) return A def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
InnerProductLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/v5/cv5ygy72ibvj3xeptmbufohha2fia4mvuj4xpvzqvo7vtaqe2vuo.py # Topologically Sorted Source Nodes: [mul, pos_score, neg, softplus, mul_1, neg_score, softplus_1, add, mean], Original ATen: [aten.mul, aten.sum, aten.neg, aten.softplus, aten.add, aten.mean] # Source node to ATen node mapping: # add => add # mean => mean # mul => mul # mul_1 => mul_1 # neg => neg # neg_score => sum_2 # pos_score => sum_1 # softplus => exp, gt, log1p, where # softplus_1 => exp_1, gt_1, log1p_1, where_1 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg1_1, %arg0_1), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [1]), kwargs = {}) # %neg : [num_users=3] = call_function[target=torch.ops.aten.neg.default](args = (%sum_1,), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%neg, 20), kwargs = {}) # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%neg,), kwargs = {}) # %log1p : [num_users=1] = call_function[target=torch.ops.aten.log1p.default](args = (%exp,), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %neg, %log1p), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg1_1, %arg2_1), kwargs = {}) # %sum_2 : [num_users=3] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul_1, [1]), kwargs = {}) # %gt_1 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%sum_2, 20), kwargs = {}) # %exp_1 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%sum_2,), kwargs = {}) # %log1p_1 : [num_users=1] = call_function[target=torch.ops.aten.log1p.default](args = (%exp_1,), kwargs = {}) # %where_1 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %sum_2, %log1p_1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%where, %where_1), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%add,), kwargs = {}) triton_per_fused_add_mean_mul_neg_softplus_sum_0 = async_compile.triton('triton_per_fused_add_mean_mul_neg_softplus_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 64], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {4: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 5), equal_to_1=(4,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_mean_mul_neg_softplus_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 12, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_mean_mul_neg_softplus_sum_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 64 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = (rindex // 16) r2 = rindex tmp0 = tl.load(in_ptr0 + (r0 + (64r1)), None) tmp1 = tl.load(in_ptr1 + (r0 + (64r1)), None) tmp3 = tl.load(in_ptr0 + (16 + r0 + (64r1)), None) tmp4 = tl.load(in_ptr1 + (16 + r0 + (64r1)), None) tmp7 = tl.load(in_ptr0 + (32 + r0 + (64r1)), None) tmp8 = tl.load(in_ptr1 + (32 + r0 + (64r1)), None) tmp11 = tl.load(in_ptr0 + (48 + r0 + (64r1)), None) tmp12 = tl.load(in_ptr1 + (48 + r0 + (64r1)), None) tmp16 = tl.load(in_ptr2 + (r0 + (64r1)), None) tmp18 = tl.load(in_ptr2 + (16 + r0 + (64r1)), None) tmp21 = tl.load(in_ptr2 + (32 + r0 + (64r1)), None) tmp24 = tl.load(in_ptr2 + (48 + r0 + (64r1)), None) tmp2 = tmp0 * tmp1 tmp5 = tmp3 * tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 * tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 * tmp12 tmp14 = tmp10 + tmp13 tmp15 = -tmp14 tmp17 = tmp0 * tmp16 tmp19 = tmp3 * tmp18 tmp20 = tmp17 + tmp19 tmp22 = tmp7 * tmp21 tmp23 = tmp20 + tmp22 tmp25 = tmp11 * tmp24 tmp26 = tmp23 + tmp25 tmp27 = 20.0 tmp28 = tmp15 > tmp27 tmp29 = tl_math.exp(tmp15) tmp30 = libdevice.log1p(tmp29) tmp31 = tl.where(tmp28, tmp15, tmp30) tmp32 = tmp26 > tmp27 tmp33 = tl_math.exp(tmp26) tmp34 = libdevice.log1p(tmp33) tmp35 = tl.where(tmp32, tmp26, tmp34) tmp36 = tmp31 + tmp35 tmp37 = tl.broadcast_to(tmp36, [XBLOCK, RBLOCK]) tmp39 = tl.sum(tmp37, 1)[:, None] tmp40 = 64.0 tmp41 = tmp39 / tmp40 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp41, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf2 = empty_strided_cuda((), (), torch.float32) buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [mul, pos_score, neg, softplus, mul_1, neg_score, softplus_1, add, mean], Original ATen: [aten.mul, aten.sum, aten.neg, aten.softplus, aten.add, aten.mean] stream0 = get_raw_stream(0) triton_per_fused_add_mean_mul_neg_softplus_sum_0.run(buf3, arg1_1, arg0_1, arg2_1, 1, 64, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 del arg2_1 return (buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg2_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1, arg2_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class InnerProductLoss(nn.Module): """This is the inner-product loss used in CFKG for optimization. """ def __init__(self): super(InnerProductLoss, self).__init__() def forward(self, anchor, positive, negative): pos_score = torch.mul(anchor, positive).sum(dim=1) neg_score = torch.mul(anchor, negative).sum(dim=1) return (F.softplus(-pos_score) + F.softplus(neg_score)).mean() def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_mean_mul_neg_softplus_sum_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = rindex // 16 tmp0 = tl.load(in_ptr0 + (r0 + 64 * r1), None) tmp1 = tl.load(in_ptr1 + (r0 + 64 * r1), None) tmp3 = tl.load(in_ptr0 + (16 + r0 + 64 * r1), None) tmp4 = tl.load(in_ptr1 + (16 + r0 + 64 * r1), None) tmp7 = tl.load(in_ptr0 + (32 + r0 + 64 * r1), None) tmp8 = tl.load(in_ptr1 + (32 + r0 + 64 * r1), None) tmp11 = tl.load(in_ptr0 + (48 + r0 + 64 * r1), None) tmp12 = tl.load(in_ptr1 + (48 + r0 + 64 * r1), None) tmp16 = tl.load(in_ptr2 + (r0 + 64 * r1), None) tmp18 = tl.load(in_ptr2 + (16 + r0 + 64 * r1), None) tmp21 = tl.load(in_ptr2 + (32 + r0 + 64 * r1), None) tmp24 = tl.load(in_ptr2 + (48 + r0 + 64 * r1), None) tmp2 = tmp0 * tmp1 tmp5 = tmp3 * tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 * tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 * tmp12 tmp14 = tmp10 + tmp13 tmp15 = -tmp14 tmp17 = tmp0 * tmp16 tmp19 = tmp3 * tmp18 tmp20 = tmp17 + tmp19 tmp22 = tmp7 * tmp21 tmp23 = tmp20 + tmp22 tmp25 = tmp11 * tmp24 tmp26 = tmp23 + tmp25 tmp27 = 20.0 tmp28 = tmp15 > tmp27 tmp29 = tl_math.exp(tmp15) tmp30 = libdevice.log1p(tmp29) tmp31 = tl.where(tmp28, tmp15, tmp30) tmp32 = tmp26 > tmp27 tmp33 = tl_math.exp(tmp26) tmp34 = libdevice.log1p(tmp33) tmp35 = tl.where(tmp32, tmp26, tmp34) tmp36 = tmp31 + tmp35 tmp37 = tl.broadcast_to(tmp36, [XBLOCK, RBLOCK]) tmp39 = tl.sum(tmp37, 1)[:, None] tmp40 = 64.0 tmp41 = tmp39 / tmp40 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp41, None) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf2 = empty_strided_cuda((), (), torch.float32) buf3 = buf2 del buf2 get_raw_stream(0) triton_per_fused_add_mean_mul_neg_softplus_sum_0[grid(1)](buf3, arg1_1, arg0_1, arg2_1, 1, 64, XBLOCK=1, num_warps=2, num_stages=1) del arg0_1 del arg1_1 del arg2_1 return buf3, class InnerProductLossNew(nn.Module): """This is the inner-product loss used in CFKG for optimization. """ def __init__(self): super(InnerProductLossNew, self).__init__() def forward(self, input_0, input_1, input_2): arg0_1 = input_0 arg1_1 = input_1 arg2_1 = input_2 output = call([arg0_1, arg1_1, arg2_1]) return output[0]	BELIEVEfxy/LightSANs	InnerProductLoss	false	7,760	[ "MIT" ]	17	94ce7e59d144dbc787153b8c486cad334790ec6e	https://github.com/BELIEVEfxy/LightSANs/tree/94ce7e59d144dbc787153b8c486cad334790ec6e	import torch import torch.nn as nn import torch.nn.functional as F class Model(nn.Module): """This is the inner-product loss used in CFKG for optimization. """ def __init__(self): super().__init__() def forward(self, anchor, positive, negative): pos_score = torch.mul(anchor, positive).sum(dim=1) neg_score = torch.mul(anchor, negative).sum(dim=1) return (F.softplus(-pos_score) + F.softplus(neg_score)).mean() def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return []
Conv1d2Score	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/44/c44fnd2sx4lskftppzq33nzwkycyinwxh7mdvvucqxac7hkpfqnz.py # Topologically Sorted Source Nodes: [conv1d], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv1d => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%unsqueeze, %primals_1, %primals_2, [1], [0], [1], False, [0], 1), kwargs = {}) triton_poi_fused_convolution_0 = async_compile.triton('triton_poi_fused_convolution_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask) tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv1d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(reinterpret_tensor(primals_3, (1, 4, 4), (16, 4, 1), 0), primals_1, stride=(1,), padding=(0,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf0, (1, 4, 1), (4, 1, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [conv1d], Original ATen: [aten.convolution] stream0 = get_raw_stream(0) triton_poi_fused_convolution_0.run(buf1, primals_2, 4, grid=grid(4), stream=stream0) del primals_2 return (reinterpret_tensor(buf1, (4, ), (1, ), 0), primals_1, reinterpret_tensor(primals_3, (1, 4, 4), (16, 4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.optim import torch.utils.data class Conv1d2Score(nn.Module): """Calculate a Nout_dim tensor from Nin_dimseq_len using nn.Conv1d Essentially it is a linear layer Args: in_dim: int out_dim: int, usually number of classes seq_len: int Shape: - Input: Nin_dimseq_len - Output: Nout_dim Attributes: weight (Tensor): the learnable weights of the module of shape out_channels (out_dim) * in_channels (in_dim) * kernel_size (seq_len) bias (Tensor): shape: out_channels (out_dim) Examples:: >>> x = torch.randn(2, 3, 4, device=device) >>> model = Conv1d2Score(3, 5, 4) >>> model(x).shape """ def __init__(self, in_dim, out_dim, seq_len, bias=True): super(Conv1d2Score, self).__init__() self.conv = nn.Conv1d(in_dim, out_dim, kernel_size=seq_len, bias=bias) def forward(self, x): out = self.conv(x).squeeze(-1) return out def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [[], {'in_dim': 4, 'out_dim': 4, 'seq_len': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn import torch.optim import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask) tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x0, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(reinterpret_tensor(primals_3, (1, 4, 4), (16, 4, 1), 0), primals_1, stride=(1,), padding=(0,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf0, (1, 4, 1), (4, 1, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_0[grid(4)](buf1, primals_2, 4, XBLOCK= 4, num_warps=1, num_stages=1) del primals_2 return reinterpret_tensor(buf1, (4,), (1,), 0 ), primals_1, reinterpret_tensor(primals_3, (1, 4, 4), (16, 4, 1), 0) class Conv1d2ScoreNew(nn.Module): """Calculate a Nout_dim tensor from Nin_dimseq_len using nn.Conv1d Essentially it is a linear layer Args: in_dim: int out_dim: int, usually number of classes seq_len: int Shape: - Input: Nin_dimseq_len - Output: Nout_dim Attributes: weight (Tensor): the learnable weights of the module of shape out_channels (out_dim) * in_channels (in_dim) * kernel_size (seq_len) bias (Tensor): shape: out_channels (out_dim) Examples:: >>> x = torch.randn(2, 3, 4, device=device) >>> model = Conv1d2Score(3, 5, 4) >>> model(x).shape """ def __init__(self, in_dim, out_dim, seq_len, bias=True): super(Conv1d2ScoreNew, self).__init__() self.conv = nn.Conv1d(in_dim, out_dim, kernel_size=seq_len, bias=bias) def forward(self, input_0): primals_1 = self.conv.weight primals_2 = self.conv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	BeautyOfWeb/VIN	Conv1d2Score	false	7,761	[ "MIT" ]	34	53343d28130f5fd6e5badb58daf8079a5933fd6a	https://github.com/BeautyOfWeb/VIN/tree/53343d28130f5fd6e5badb58daf8079a5933fd6a	import torch import torch.nn as nn import torch.optim import torch.utils.data class Model(nn.Module): """Calculate a Nout_dim tensor from Nin_dimseq_len using nn.Conv1d Essentially it is a linear layer Args: in_dim: int out_dim: int, usually number of classes seq_len: int Shape: - Input: Nin_dimseq_len - Output: Nout_dim Attributes: weight (Tensor): the learnable weights of the module of shape out_channels (out_dim) * in_channels (in_dim) * kernel_size (seq_len) bias (Tensor): shape: out_channels (out_dim) Examples:: >>> x = torch.randn(2, 3, 4, device=device) >>> model = Conv1d2Score(3, 5, 4) >>> model(x).shape """ def __init__(self, in_dim, out_dim, seq_len, bias=True): super().__init__() self.conv = nn.Conv1d(in_dim, out_dim, kernel_size=seq_len, bias=bias) def forward(self, x): out = self.conv(x).squeeze(-1) return out def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [4, 4, 4]
IOUloss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/cq/ccq7p56weap3fhh724522loxbw5vhvqz352t32rbsxm5u5vnniae.py # Topologically Sorted Source Nodes: [area_p, area_g, add_2, truediv_2, add, truediv_3, add_1, br, truediv, sub, truediv_1, sub_1, tl, sub_2, prod_3, lt, type_1, en, area_i, area_u, add_3, iou, pow_1, loss], Original ATen: [aten.prod, aten.add, aten.div, aten.minimum, aten.sub, aten.maximum, aten.lt, aten._to_copy, aten.mul, aten.pow, aten.rsub] # Source node to ATen node mapping: # add => add # add_1 => add_1 # add_2 => add_2 # add_3 => add_3 # area_g => prod_1 # area_i => mul # area_p => prod # area_u => sub_3 # br => minimum # en => prod_2 # iou => div_4 # loss => sub_4 # lt => lt # pow_1 => pow_1 # prod_3 => prod_3 # sub => sub # sub_1 => sub_1 # sub_2 => sub_2 # tl => maximum # truediv => div # truediv_1 => div_1 # truediv_2 => div_2 # truediv_3 => div_3 # type_1 => convert_element_type # Graph fragment: # %prod : [num_users=1] = call_function[target=torch.ops.aten.prod.dim_int](args = (%slice_18, 1), kwargs = {}) # %prod_1 : [num_users=1] = call_function[target=torch.ops.aten.prod.dim_int](args = (%slice_20, 1), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%prod, %prod_1), kwargs = {}) # %div_2 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%slice_12, 2), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%slice_10, %div_2), kwargs = {}) # %div_3 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%slice_16, 2), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%slice_14, %div_3), kwargs = {}) # %minimum : [num_users=2] = call_function[target=torch.ops.aten.minimum.default](args = (%add, %add_1), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%slice_4, 2), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%slice_2, %div), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%slice_8, 2), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%slice_6, %div_1), kwargs = {}) # %maximum : [num_users=2] = call_function[target=torch.ops.aten.maximum.default](args = (%sub, %sub_1), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%minimum, %maximum), kwargs = {}) # %prod_3 : [num_users=1] = call_function[target=torch.ops.aten.prod.dim_int](args = (%sub_2, 1), kwargs = {}) # %lt : [num_users=1] = call_function[target=torch.ops.aten.lt.Tensor](args = (%maximum, %minimum), kwargs = {}) # %convert_element_type : [num_users=1] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%lt, torch.float32), kwargs = {}) # %prod_2 : [num_users=1] = call_function[target=torch.ops.aten.prod.dim_int](args = (%convert_element_type, 1), kwargs = {}) # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%prod_3, %prod_2), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_2, %mul), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sub_3, 1e-16), kwargs = {}) # %div_4 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul, %add_3), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%div_4, 2), kwargs = {}) # %sub_4 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %pow_1), kwargs = {}) triton_poi_fused__to_copy_add_div_lt_maximum_minimum_mul_pow_prod_rsub_sub_0 = async_compile.triton('triton_poi_fused__to_copy_add_div_lt_maximum_minimum_mul_pow_prod_rsub_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__to_copy_add_div_lt_maximum_minimum_mul_pow_prod_rsub_sub_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__to_copy_add_div_lt_maximum_minimum_mul_pow_prod_rsub_sub_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr1 + (4x0), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr1 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp18 = tl.load(in_ptr1 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp19 = tl.load(in_ptr1 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp2 = 0.5 tmp3 = tmp1 * tmp2 tmp4 = tmp0 + tmp3 tmp7 = tmp6 * tmp2 tmp8 = tmp5 + tmp7 tmp9 = triton_helpers.minimum(tmp4, tmp8) tmp10 = tmp0 - tmp3 tmp11 = tmp5 - tmp7 tmp12 = triton_helpers.maximum(tmp10, tmp11) tmp13 = tmp9 - tmp12 tmp16 = tmp15 * tmp2 tmp17 = tmp14 + tmp16 tmp20 = tmp19 * tmp2 tmp21 = tmp18 + tmp20 tmp22 = triton_helpers.minimum(tmp17, tmp21) tmp23 = tmp14 - tmp16 tmp24 = tmp18 - tmp20 tmp25 = triton_helpers.maximum(tmp23, tmp24) tmp26 = tmp22 - tmp25 tmp27 = tmp13 * tmp26 tmp28 = tmp12 < tmp9 tmp29 = tmp28.to(tl.float32) tmp30 = tmp25 < tmp22 tmp31 = tmp30.to(tl.float32) tmp32 = tmp29 * tmp31 tmp33 = tmp27 * tmp32 tmp34 = tmp1 * tmp15 tmp35 = tmp6 * tmp19 tmp36 = tmp34 + tmp35 tmp37 = tmp36 - tmp33 tmp38 = 1e-16 tmp39 = tmp37 + tmp38 tmp40 = tmp33 / tmp39 tmp41 = tmp40 * tmp40 tmp42 = 1.0 tmp43 = tmp42 - tmp41 tl.store(in_out_ptr0 + (x0), tmp43, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, ), (1, ), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [area_p, area_g, add_2, truediv_2, add, truediv_3, add_1, br, truediv, sub, truediv_1, sub_1, tl, sub_2, prod_3, lt, type_1, en, area_i, area_u, add_3, iou, pow_1, loss], Original ATen: [aten.prod, aten.add, aten.div, aten.minimum, aten.sub, aten.maximum, aten.lt, aten._to_copy, aten.mul, aten.pow, aten.rsub] stream0 = get_raw_stream(0) triton_poi_fused__to_copy_add_div_lt_maximum_minimum_mul_pow_prod_rsub_sub_0.run(buf1, arg0_1, arg1_1, 64, grid=grid(64), stream=stream0) del arg0_1 del arg1_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class IOUloss(nn.Module): def __init__(self, reduction='none', loss_type='iou'): super(IOUloss, self).__init__() self.reduction = reduction self.loss_type = loss_type def forward(self, pred, target): assert pred.shape[0] == target.shape[0] pred = pred.view(-1, 4) target = target.view(-1, 4) tl = torch.max(pred[:, :2] - pred[:, 2:] / 2, target[:, :2] - target[:, 2:] / 2) br = torch.min(pred[:, :2] + pred[:, 2:] / 2, target[:, :2] + target[:, 2:] / 2) area_p = torch.prod(pred[:, 2:], 1) area_g = torch.prod(target[:, 2:], 1) en = (tl < br).type(tl.type()).prod(dim=1) area_i = torch.prod(br - tl, 1) * en area_u = area_p + area_g - area_i iou = area_i / (area_u + 1e-16) if self.loss_type == 'iou': loss = 1 - iou ** 2 elif self.loss_type == 'giou': c_tl = torch.min(pred[:, :2] - pred[:, 2:] / 2, target[:, :2] - target[:, 2:] / 2) c_br = torch.max(pred[:, :2] + pred[:, 2:] / 2, target[:, :2] + target[:, 2:] / 2) area_c = torch.prod(c_br - c_tl, 1) giou = iou - (area_c - area_u) / area_c.clamp(1e-16) loss = 1 - giou.clamp(min=-1.0, max=1.0) if self.reduction == 'mean': loss = loss.mean() elif self.reduction == 'sum': loss = loss.sum() return loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused__to_copy_add_div_lt_maximum_minimum_mul_pow_prod_rsub_sub_0( in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr1 + 4 * x0, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr1 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp15 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp18 = tl.load(in_ptr1 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp19 = tl.load(in_ptr1 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp2 = 0.5 tmp3 = tmp1 * tmp2 tmp4 = tmp0 + tmp3 tmp7 = tmp6 * tmp2 tmp8 = tmp5 + tmp7 tmp9 = triton_helpers.minimum(tmp4, tmp8) tmp10 = tmp0 - tmp3 tmp11 = tmp5 - tmp7 tmp12 = triton_helpers.maximum(tmp10, tmp11) tmp13 = tmp9 - tmp12 tmp16 = tmp15 * tmp2 tmp17 = tmp14 + tmp16 tmp20 = tmp19 * tmp2 tmp21 = tmp18 + tmp20 tmp22 = triton_helpers.minimum(tmp17, tmp21) tmp23 = tmp14 - tmp16 tmp24 = tmp18 - tmp20 tmp25 = triton_helpers.maximum(tmp23, tmp24) tmp26 = tmp22 - tmp25 tmp27 = tmp13 * tmp26 tmp28 = tmp12 < tmp9 tmp29 = tmp28.to(tl.float32) tmp30 = tmp25 < tmp22 tmp31 = tmp30.to(tl.float32) tmp32 = tmp29 * tmp31 tmp33 = tmp27 * tmp32 tmp34 = tmp1 * tmp15 tmp35 = tmp6 * tmp19 tmp36 = tmp34 + tmp35 tmp37 = tmp36 - tmp33 tmp38 = 1e-16 tmp39 = tmp37 + tmp38 tmp40 = tmp33 / tmp39 tmp41 = tmp40 * tmp40 tmp42 = 1.0 tmp43 = tmp42 - tmp41 tl.store(in_out_ptr0 + x0, tmp43, xmask) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64,), (1,), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused__to_copy_add_div_lt_maximum_minimum_mul_pow_prod_rsub_sub_0[ grid(64)](buf1, arg0_1, arg1_1, 64, XBLOCK=64, num_warps=1, num_stages=1) del arg0_1 del arg1_1 return buf1, class IOUlossNew(nn.Module): def __init__(self, reduction='none', loss_type='iou'): super(IOUlossNew, self).__init__() self.reduction = reduction self.loss_type = loss_type def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	Arui66/YOLOX	IOUloss	false	7,762	[ "Apache-2.0" ]	16	7ee17936db849600817d7de05269bfdfb1a0eb48	https://github.com/Arui66/YOLOX/tree/7ee17936db849600817d7de05269bfdfb1a0eb48	import torch import torch.nn as nn class Model(nn.Module): def __init__(self, reduction='none', loss_type='iou'): super().__init__() self.reduction = reduction self.loss_type = loss_type def forward(self, pred, target): assert pred.shape[0] == target.shape[0] pred = pred.view(-1, 4) target = target.view(-1, 4) tl = torch.max(pred[:, :2] - pred[:, 2:] / 2, target[:, :2] - target[:, 2:] / 2) br = torch.min(pred[:, :2] + pred[:, 2:] / 2, target[:, :2] + target[:, 2:] / 2) area_p = torch.prod(pred[:, 2:], 1) area_g = torch.prod(target[:, 2:], 1) en = (tl < br).type(tl.type()).prod(dim=1) area_i = torch.prod(br - tl, 1) * en area_u = area_p + area_g - area_i iou = area_i / (area_u + 1e-16) if self.loss_type == 'iou': loss = 1 - iou ** 2 elif self.loss_type == 'giou': c_tl = torch.min(pred[:, :2] - pred[:, 2:] / 2, target[:, :2] - target[:, 2:] / 2) c_br = torch.max(pred[:, :2] + pred[:, 2:] / 2, target[:, :2] + target[:, 2:] / 2) area_c = torch.prod(c_br - c_tl, 1) giou = iou - (area_c - area_u) / area_c.clamp(1e-16) loss = 1 - giou.clamp(min=-1.0, max=1.0) if self.reduction == 'mean': loss = loss.mean() elif self.reduction == 'sum': loss = loss.sum() return loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
WeightedView	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/fe/cfectm5bcy5shyxsysnrgesmv5nz3kcc7dmnkoifg25aiy5lkoeg.py # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] # Source node to ATen node mapping: # softmax => amax, div, exp, sub, sum_1 # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%primals_1, [0], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_1, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [0], True), kwargs = {}) # %div : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_0 = async_compile.triton('triton_poi_fused__softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {2: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=(2,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) tmp0 = tl.load(in_ptr0 + (0)) tmp1 = tl.broadcast_to(tmp0, [XBLOCK]) tmp2 = tmp1 - tmp1 tmp3 = tl_math.exp(tmp2) tmp4 = tmp3 / tmp3 tl.store(out_ptr0 + (tl.full([XBLOCK], 0, tl.int32)), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ti/ctirlc5pkmwgnlnthecbyyuplgtjrpbhlixppogsu3g54jlpd7e3.py # Topologically Sorted Source Nodes: [mul, out], Original ATen: [aten.mul, aten.sum] # Source node to ATen node mapping: # mul => mul # out => sum_2 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%permute, %div), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [-1]), kwargs = {}) triton_poi_fused_mul_sum_1 = async_compile.triton('triton_poi_fused_mul_sum_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_sum_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_sum_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr1 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 * tmp2 tl.store(out_ptr0 + (x0), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (1, ), (1, )) assert_size_stride(primals_2, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((1, ), (1, ), torch.float32) # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(primals_1, buf0, 1, grid=grid(1), stream=stream0) del primals_1 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, out], Original ATen: [aten.mul, aten.sum] triton_poi_fused_mul_sum_1.run(primals_2, buf0, buf1, 16, grid=grid(16), stream=stream0) return (buf1, buf0, primals_2, buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.optim import torch.utils.data class WeightedView(nn.Module): """Calculate weighted view Args: num_groups: int, number of groups (views) reduce_dimension: bool, default False. If True, reduce dimension dim dim: default -1. Only used when reduce_dimension is True Shape: - Input: if dim is None, (N, num_featuresnum_groups) - Output: (N, num_features) Attributes: weight: (num_groups) Examples: >>> model = WeightedView(3) >>> x = Variable(torch.randn(1, 6)) >>> print(model(x)) >>> model = WeightedView(3, True, 1) >>> model(x.view(1,3,2)) """ def __init__(self, num_groups, reduce_dimension=False, dim=-1): super(WeightedView, self).__init__() self.num_groups = num_groups self.reduce_dimension = reduce_dimension self.dim = dim self.weight = nn.Parameter(torch.Tensor(num_groups)) self.weight.data.uniform_(-1.0 / num_groups, 1.0 / num_groups) def forward(self, x): self.normalized_weight = nn.functional.softmax(self.weight, dim=0) if self.reduce_dimension: assert x.size(self.dim) == self.num_groups dim = self.dim if self.dim >= 0 else self.dim + x.dim() if dim == x.dim() - 1: out = (x self.weight).sum(-1) else: out = torch.transpose((x.transpose(dim, -1) * self. normalized_weight).sum(-1), dim, -1) else: assert x.dim() == 2 num_features = x.size(-1) // self.num_groups out = (x.view(-1, self.num_groups, num_features).transpose(1, - 1) * self.normalized_weight).sum(-1) return out def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [[], {'num_groups': 1}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn import torch.optim import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) tmp0 = tl.load(in_ptr0 + 0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK]) tmp2 = tmp1 - tmp1 tmp3 = tl_math.exp(tmp2) tmp4 = tmp3 / tmp3 tl.store(out_ptr0 + tl.full([XBLOCK], 0, tl.int32), tmp4, None) @triton.jit def triton_poi_fused_mul_sum_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr1 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 * tmp2 tl.store(out_ptr0 + x0, tmp3, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (1,), (1,)) assert_size_stride(primals_2, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((1,), (1,), torch.float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(1)](primals_1, buf0, 1, XBLOCK=1, num_warps=1, num_stages=1) del primals_1 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) triton_poi_fused_mul_sum_1[grid(16)](primals_2, buf0, buf1, 16, XBLOCK=16, num_warps=1, num_stages=1) return buf1, buf0, primals_2, buf0 class WeightedViewNew(nn.Module): """Calculate weighted view Args: num_groups: int, number of groups (views) reduce_dimension: bool, default False. If True, reduce dimension dim dim: default -1. Only used when reduce_dimension is True Shape: - Input: if dim is None, (N, num_features*num_groups) - Output: (N, num_features) Attributes: weight: (num_groups) Examples: >>> model = WeightedView(3) >>> x = Variable(torch.randn(1, 6)) >>> print(model(x)) >>> model = WeightedView(3, True, 1) >>> model(x.view(1,3,2)) """ def __init__(self, num_groups, reduce_dimension=False, dim=-1): super(WeightedViewNew, self).__init__() self.num_groups = num_groups self.reduce_dimension = reduce_dimension self.dim = dim self.weight = nn.Parameter(torch.Tensor(num_groups)) self.weight.data.uniform_(-1.0 / num_groups, 1.0 / num_groups) def forward(self, input_0): primals_1 = self.weight primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	BeautyOfWeb/AffinityNet	WeightedView	false	7,763	[ "MIT" ]	34	d3f79823fa0182328894483165d4f0853740ee53	https://github.com/BeautyOfWeb/AffinityNet/tree/d3f79823fa0182328894483165d4f0853740ee53	import torch import torch.nn as nn import torch.optim import torch.utils.data class Model(nn.Module): """Calculate weighted view Args: num_groups: int, number of groups (views) reduce_dimension: bool, default False. If True, reduce dimension dim dim: default -1. Only used when reduce_dimension is True Shape: - Input: if dim is None, (N, num_featuresnum_groups) - Output: (N, num_features) Attributes: weight: (num_groups) Examples: >>> model = WeightedView(3) >>> x = Variable(torch.randn(1, 6)) >>> print(model(x)) >>> model = WeightedView(3, True, 1) >>> model(x.view(1,3,2)) """ def __init__(self, num_groups, reduce_dimension=False, dim=-1): super().__init__() self.num_groups = num_groups self.reduce_dimension = reduce_dimension self.dim = dim self.weight = nn.Parameter(torch.Tensor(num_groups)) self.weight.data.uniform_(-1.0 / num_groups, 1.0 / num_groups) def forward(self, x): self.normalized_weight = nn.functional.softmax(self.weight, dim=0) if self.reduce_dimension: assert x.size(self.dim) == self.num_groups dim = self.dim if self.dim >= 0 else self.dim + x.dim() if dim == x.dim() - 1: out = (x self.weight).sum(-1) else: out = torch.transpose((x.transpose(dim, -1) * self. normalized_weight).sum(-1), dim, -1) else: assert x.dim() == 2 num_features = x.size(-1) // self.num_groups out = (x.view(-1, self.num_groups, num_features).transpose(1, - 1) * self.normalized_weight).sum(-1) return out def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [1]
LearnedUpsampling1d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/re/creqngcvb5kb3etzv7gfeos5lcvx4h7voywyqesrse4fjvq7qpsd.py # Topologically Sorted Source Nodes: [add], Original ATen: [aten.add] # Source node to ATen node mapping: # add => add # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution, %view), kwargs = {}) triton_poi_fused_add_0 = async_compile.triton('triton_poi_fused_add_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x1 = (xindex // 16) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + ((4*x1) + (x0 % 4)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x3), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv_transpose1d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_1, primals_3, stride=(4,), padding=(0,), dilation=(1,), transposed=True, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 16), (64, 16, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [add], Original ATen: [aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_0.run(buf1, primals_2, 256, grid=grid(256), stream=stream0) del primals_2 return (buf1, primals_1, primals_3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn class LearnedUpsampling1d(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, bias=True): super().__init__() self.conv_t = nn.ConvTranspose1d(in_channels=in_channels, out_channels=out_channels, kernel_size=kernel_size, stride= kernel_size, bias=False) if bias: self.bias = nn.Parameter(torch.FloatTensor(out_channels, kernel_size)) else: self.register_parameter('bias', None) self.reset_parameters() def reset_parameters(self): self.conv_t.reset_parameters() nn.init.constant(self.bias, 0) def forward(self, input): batch_size, _, length = input.size() kernel_size, = self.conv_t.kernel_size bias = self.bias.unsqueeze(0).unsqueeze(2).expand(batch_size, self. conv_t.out_channels, length, kernel_size).contiguous().view( batch_size, self.conv_t.out_channels, length * kernel_size) return self.conv_t(input) + bias def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride @triton.jit def triton_poi_fused_add_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x1 = xindex // 16 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (4 * x1 + x0 % 4), xmask, eviction_policy= 'evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x3, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_1, primals_3, stride=(4,), padding=(0,), dilation=(1,), transposed=True, output_padding=(0 ,), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 16), (64, 16, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_add_0[grid(256)](buf1, primals_2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 return buf1, primals_1, primals_3 class LearnedUpsampling1dNew(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, bias=True): super().__init__() self.conv_t = nn.ConvTranspose1d(in_channels=in_channels, out_channels=out_channels, kernel_size=kernel_size, stride= kernel_size, bias=False) if bias: self.bias = nn.Parameter(torch.FloatTensor(out_channels, kernel_size)) else: self.register_parameter('bias', None) self.reset_parameters() def reset_parameters(self): self.conv_t.reset_parameters() nn.init.constant(self.bias, 0) def forward(self, input_0): primals_2 = self.bias primals_1 = self.conv_t.weight primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	Barbany/Multi-speaker-Neural-Vocoder	LearnedUpsampling1d	false	7,764	[ "MIT" ]	13	a3f5c266603b17bcbe264e750947140f302272c8	https://github.com/Barbany/Multi-speaker-Neural-Vocoder/tree/a3f5c266603b17bcbe264e750947140f302272c8	import torch from torch import nn class Model(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, bias=True): super().__init__() self.conv_t = nn.ConvTranspose1d(in_channels=in_channels, out_channels=out_channels, kernel_size=kernel_size, stride= kernel_size, bias=False) if bias: self.bias = nn.Parameter(torch.FloatTensor(out_channels, kernel_size)) else: self.register_parameter('bias', None) self.reset_parameters() def reset_parameters(self): self.conv_t.reset_parameters() nn.init.constant(self.bias, 0) def forward(self, input): batch_size, _, length = input.size() kernel_size, = self.conv_t.kernel_size bias = self.bias.unsqueeze(0).unsqueeze(2).expand(batch_size, self. conv_t.out_channels, length, kernel_size).contiguous().view( batch_size, self.conv_t.out_channels, length * kernel_size) return self.conv_t(input) + bias def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [4, 4, 4]
InnerProductLayer	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/ue/cuedlv3irp64gygxqqymynv5dqyir3oef7esvak4cwr4v35w26tv.py # Topologically Sorted Source Nodes: [p, q, inner_product, sum_1], Original ATen: [aten.index, aten.mul, aten.sum] # Source node to ATen node mapping: # inner_product => mul # p => index # q => index_1 # sum_1 => sum_1 # Graph fragment: # %index : [num_users=1] = call_function[target=torch.ops.aten.index.Tensor](args = (%arg0_1, [None, %lift_fresh_copy]), kwargs = {}) # %index_1 : [num_users=1] = call_function[target=torch.ops.aten.index.Tensor](args = (%arg0_1, [None, %lift_fresh_copy_1]), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%index, %index_1), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [-1]), kwargs = {}) triton_poi_fused_index_mul_sum_0 = async_compile.triton('triton_poi_fused_index_mul_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_index_mul_sum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 0, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_index_mul_sum_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 96 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 4) % 6 x0 = xindex % 4 x2 = (xindex // 24) x3 = xindex tmp0 = x1 tmp1 = tl.full([1], 3, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.full([1], 2, tl.int64) tmp6 = tmp0 < tmp5 tmp7 = tl.full([1], 0, tl.int64) tmp8 = tl.where(tmp6, tmp7, tmp7) tmp9 = tl.where(tmp4, tmp7, tmp8) tmp10 = tl.full([1], 4, tl.int64) tmp11 = tmp0 < tmp10 tmp12 = tl.full([1], 5, tl.int64) tmp13 = tmp0 < tmp12 tmp14 = tl.where(tmp13, tmp3, tmp5) tmp15 = tl.where(tmp11, tmp3, tmp14) tmp16 = tl.where(tmp2, tmp9, tmp15) tmp17 = tl.load(in_ptr0 + ((4x0) + (16tmp16) + (64x2)), xmask, eviction_policy='evict_last') tmp18 = tl.where(tmp6, tmp5, tmp1) tmp19 = tl.where(tmp4, tmp3, tmp18) tmp20 = tl.where(tmp13, tmp1, tmp1) tmp21 = tl.where(tmp11, tmp5, tmp20) tmp22 = tl.where(tmp2, tmp19, tmp21) tmp23 = tl.load(in_ptr0 + ((4x0) + (16tmp22) + (64x2)), xmask, eviction_policy='evict_last') tmp24 = tmp17 * tmp23 tmp25 = tl.load(in_ptr0 + (1 + (4x0) + (16tmp16) + (64x2)), xmask, eviction_policy='evict_last') tmp26 = tl.load(in_ptr0 + (1 + (4x0) + (16tmp22) + (64x2)), xmask, eviction_policy='evict_last') tmp27 = tmp25 * tmp26 tmp28 = tmp24 + tmp27 tmp29 = tl.load(in_ptr0 + (2 + (4x0) + (16tmp16) + (64x2)), xmask, eviction_policy='evict_last') tmp30 = tl.load(in_ptr0 + (2 + (4x0) + (16tmp22) + (64x2)), xmask, eviction_policy='evict_last') tmp31 = tmp29 * tmp30 tmp32 = tmp28 + tmp31 tmp33 = tl.load(in_ptr0 + (3 + (4x0) + (16tmp16) + (64x2)), xmask, eviction_policy='evict_last') tmp34 = tl.load(in_ptr0 + (3 + (4x0) + (16tmp22) + (64x2)), xmask, eviction_policy='evict_last') tmp35 = tmp33 * tmp34 tmp36 = tmp32 + tmp35 tl.store(out_ptr0 + (x3), tmp36, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 6, 4), (24, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [p, q, inner_product, sum_1], Original ATen: [aten.index, aten.mul, aten.sum] stream0 = get_raw_stream(0) triton_poi_fused_index_mul_sum_0.run(arg0_1, buf0, 96, grid=grid(96), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class InnerProductLayer(nn.Module): """InnerProduct Layer used in PNN that compute the element-wise product or inner product between feature vectors. """ def __init__(self, num_feature_field, device): """ Args: num_feature_field(int) :number of feature fields. device(torch.device) : device object of the model. """ super(InnerProductLayer, self).__init__() self.num_feature_field = num_feature_field self def forward(self, feat_emb): """ Args: feat_emb(torch.FloatTensor) :3D tensor with shape: [batch_size,num_pairs,embedding_size]. Returns: inner_product(torch.FloatTensor): The inner product of input tensor. shape of [batch_size, num_pairs] """ row = [] col = [] for i in range(self.num_feature_field - 1): for j in range(i + 1, self.num_feature_field): row.append(i) col.append(j) p = feat_emb[:, row] q = feat_emb[:, col] inner_product = p * q return inner_product.sum(dim=-1) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'num_feature_field': 4, 'device': 0}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_index_mul_sum_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 96 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 4 % 6 x0 = xindex % 4 x2 = xindex // 24 x3 = xindex tmp0 = x1 tmp1 = tl.full([1], 3, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.full([1], 2, tl.int64) tmp6 = tmp0 < tmp5 tmp7 = tl.full([1], 0, tl.int64) tmp8 = tl.where(tmp6, tmp7, tmp7) tmp9 = tl.where(tmp4, tmp7, tmp8) tmp10 = tl.full([1], 4, tl.int64) tmp11 = tmp0 < tmp10 tmp12 = tl.full([1], 5, tl.int64) tmp13 = tmp0 < tmp12 tmp14 = tl.where(tmp13, tmp3, tmp5) tmp15 = tl.where(tmp11, tmp3, tmp14) tmp16 = tl.where(tmp2, tmp9, tmp15) tmp17 = tl.load(in_ptr0 + (4 * x0 + 16 * tmp16 + 64 * x2), xmask, eviction_policy='evict_last') tmp18 = tl.where(tmp6, tmp5, tmp1) tmp19 = tl.where(tmp4, tmp3, tmp18) tmp20 = tl.where(tmp13, tmp1, tmp1) tmp21 = tl.where(tmp11, tmp5, tmp20) tmp22 = tl.where(tmp2, tmp19, tmp21) tmp23 = tl.load(in_ptr0 + (4 * x0 + 16 * tmp22 + 64 * x2), xmask, eviction_policy='evict_last') tmp24 = tmp17 * tmp23 tmp25 = tl.load(in_ptr0 + (1 + 4 * x0 + 16 * tmp16 + 64 * x2), xmask, eviction_policy='evict_last') tmp26 = tl.load(in_ptr0 + (1 + 4 * x0 + 16 * tmp22 + 64 * x2), xmask, eviction_policy='evict_last') tmp27 = tmp25 * tmp26 tmp28 = tmp24 + tmp27 tmp29 = tl.load(in_ptr0 + (2 + 4 * x0 + 16 * tmp16 + 64 * x2), xmask, eviction_policy='evict_last') tmp30 = tl.load(in_ptr0 + (2 + 4 * x0 + 16 * tmp22 + 64 * x2), xmask, eviction_policy='evict_last') tmp31 = tmp29 * tmp30 tmp32 = tmp28 + tmp31 tmp33 = tl.load(in_ptr0 + (3 + 4 * x0 + 16 * tmp16 + 64 * x2), xmask, eviction_policy='evict_last') tmp34 = tl.load(in_ptr0 + (3 + 4 * x0 + 16 * tmp22 + 64 * x2), xmask, eviction_policy='evict_last') tmp35 = tmp33 * tmp34 tmp36 = tmp32 + tmp35 tl.store(out_ptr0 + x3, tmp36, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 6, 4), (24, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_index_mul_sum_0[grid(96)](arg0_1, buf0, 96, XBLOCK =128, num_warps=4, num_stages=1) del arg0_1 return buf0, class InnerProductLayerNew(nn.Module): """InnerProduct Layer used in PNN that compute the element-wise product or inner product between feature vectors. """ def __init__(self, num_feature_field, device): """ Args: num_feature_field(int) :number of feature fields. device(torch.device) : device object of the model. """ super(InnerProductLayerNew, self).__init__() self.num_feature_field = num_feature_field self def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	BELIEVEfxy/LightSANs	InnerProductLayer	false	7,765	[ "MIT" ]	17	94ce7e59d144dbc787153b8c486cad334790ec6e	https://github.com/BELIEVEfxy/LightSANs/tree/94ce7e59d144dbc787153b8c486cad334790ec6e	import torch import torch.nn as nn class Model(nn.Module): """InnerProduct Layer used in PNN that compute the element-wise product or inner product between feature vectors. """ def __init__(self, num_feature_field, device): """ Args: num_feature_field(int) :number of feature fields. device(torch.device) : device object of the model. """ super().__init__() self.num_feature_field = num_feature_field self def forward(self, feat_emb): """ Args: feat_emb(torch.FloatTensor) :3D tensor with shape: [batch_size,num_pairs,embedding_size]. Returns: inner_product(torch.FloatTensor): The inner product of input tensor. shape of [batch_size, num_pairs] """ row = [] col = [] for i in range(self.num_feature_field - 1): for j in range(i + 1, self.num_feature_field): row.append(i) col.append(j) p = feat_emb[:, row] q = feat_emb[:, col] inner_product = p * q return inner_product.sum(dim=-1) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 0]
ConvLSTMCell	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/hh/chhyjiz5lbcafmexef23hsyfqgr7k4jea5qsudb5jrcrbticzmnh.py # Topologically Sorted Source Nodes: [conv2d, i_t, conv2d_1, f_t, conv2d_2, o_t, mul, conv2d_3, tanh, mul_1, c_t, tanh_1, h_t], Original ATen: [aten.convolution, aten.sigmoid, aten.mul, aten.tanh, aten.add] # Source node to ATen node mapping: # c_t => add # conv2d => convolution # conv2d_1 => convolution_1 # conv2d_2 => convolution_2 # conv2d_3 => convolution_3 # f_t => sigmoid_1 # h_t => mul_2 # i_t => sigmoid # mul => mul # mul_1 => mul_1 # o_t => sigmoid_2 # tanh => tanh # tanh_1 => tanh_1 # Graph fragment: # %convolution : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%convolution,), kwargs = {}) # %convolution_1 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_4, %primals_5, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %sigmoid_1 : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%convolution_1,), kwargs = {}) # %convolution_2 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_6, %primals_7, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %sigmoid_2 : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%convolution_2,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid_1, %primals_8), kwargs = {}) # %convolution_3 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_9, %primals_10, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%convolution_3,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %tanh), kwargs = {}) # %add : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %mul_1), kwargs = {}) # %tanh_1 : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%add,), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid_2, %tanh_1), kwargs = {}) triton_poi_fused_add_convolution_mul_sigmoid_tanh_0 = async_compile.triton('triton_poi_fused_add_convolution_mul_sigmoid_tanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'fp32', 8: 'fp32', 9: 'fp32', 10: 'fp32', 11: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_convolution_mul_sigmoid_tanh_0', 'mutated_arg_names': ['in_out_ptr0', 'in_out_ptr1', 'in_out_ptr2', 'in_out_ptr3'], 'no_x_dim': False, 'num_load': 9, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_convolution_mul_sigmoid_tanh_0(in_out_ptr0, in_out_ptr1, in_out_ptr2, in_out_ptr3, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 4) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_out_ptr1 + (x3), xmask) tmp4 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_out_ptr2 + (x3), xmask) tmp7 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_out_ptr3 + (x3), xmask) tmp10 = tl.load(in_ptr3 + (x1), xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr4 + (x3), xmask) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp8 = tmp6 + tmp7 tmp11 = tmp9 + tmp10 tmp12 = tl.sigmoid(tmp5) tmp14 = tmp12 * tmp13 tmp15 = tl.sigmoid(tmp2) tmp16 = libdevice.tanh(tmp11) tmp17 = tmp15 * tmp16 tmp18 = tmp14 + tmp17 tmp19 = tl.sigmoid(tmp8) tmp20 = libdevice.tanh(tmp18) tmp21 = tmp19 * tmp20 tl.store(in_out_ptr0 + (x3), tmp2, xmask) tl.store(in_out_ptr1 + (x3), tmp5, xmask) tl.store(in_out_ptr2 + (x3), tmp8, xmask) tl.store(in_out_ptr3 + (x3), tmp11, xmask) tl.store(out_ptr0 + (x3), tmp18, xmask) tl.store(out_ptr1 + (x3), tmp21, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, 4, 2, 2), (16, 4, 2, 1)) assert_size_stride(primals_9, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_10, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 2, 2), (16, 4, 2, 1)) # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(primals_3, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 4, 2, 2), (16, 4, 2, 1)) # Topologically Sorted Source Nodes: [conv2d_2], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(primals_3, primals_6, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 4, 2, 2), (16, 4, 2, 1)) # Topologically Sorted Source Nodes: [conv2d_3], Original ATen: [aten.convolution] buf6 = extern_kernels.convolution(primals_3, primals_9, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 4, 2, 2), (16, 4, 2, 1)) buf1 = buf0; del buf0 # reuse buf3 = buf2; del buf2 # reuse buf5 = buf4; del buf4 # reuse buf7 = buf6; del buf6 # reuse buf8 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) buf9 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [conv2d, i_t, conv2d_1, f_t, conv2d_2, o_t, mul, conv2d_3, tanh, mul_1, c_t, tanh_1, h_t], Original ATen: [aten.convolution, aten.sigmoid, aten.mul, aten.tanh, aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_convolution_mul_sigmoid_tanh_0.run(buf1, buf3, buf5, buf7, primals_2, primals_5, primals_7, primals_10, primals_8, buf8, buf9, 64, grid=grid(64), stream=stream0) del primals_10 del primals_2 del primals_5 del primals_7 return (buf9, buf8, primals_1, primals_3, primals_4, primals_6, primals_8, primals_9, buf1, buf3, buf5, buf7, buf8, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 4, 2, 2), (16, 4, 2, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class ConvLSTMCell(nn.Module): """ Implementation of the Basic ConvLSTM. No peephole connection, no forget gate. ConvLSTM: x - input h - hidden representation c - memory cell f - forget gate o - output gate Reference:Convolutional LSTM Network: A Machine Learning Approach for Precipitation Nowcasting """ def __init__(self, input_channels, hidden_channels, kernel_size): super(ConvLSTMCell, self).__init__() self.input_channels = input_channels self.hidden_channels = hidden_channels self.kernel_size = kernel_size self.num_features = 4 self.padding = int((kernel_size - 1) / 2) self.W_i = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.W_f = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.W_o = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.W_c = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.reset_parameters() def forward(self, inputs, c): i_t = torch.sigmoid(self.W_i(inputs)) f_t = torch.sigmoid(self.W_f(inputs)) o_t = torch.sigmoid(self.W_o(inputs)) c_t = f_t * c + i_t * torch.tanh(self.W_c(inputs)) h_t = o_t * torch.tanh(c_t) return h_t, c_t def reset_parameters(self): self.W_i.reset_parameters() self.W_f.reset_parameters() self.W_o.reset_parameters() self.W_c.reset_parameters() def get_inputs(): return [torch.rand([4, 4, 3, 3]), torch.rand([4, 4, 2, 2])] def get_init_inputs(): return [[], {'input_channels': 4, 'hidden_channels': 4, 'kernel_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_convolution_mul_sigmoid_tanh_0(in_out_ptr0, in_out_ptr1, in_out_ptr2, in_out_ptr3, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 4 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_out_ptr1 + x3, xmask) tmp4 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_out_ptr2 + x3, xmask) tmp7 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp9 = tl.load(in_out_ptr3 + x3, xmask) tmp10 = tl.load(in_ptr3 + x1, xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr4 + x3, xmask) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp8 = tmp6 + tmp7 tmp11 = tmp9 + tmp10 tmp12 = tl.sigmoid(tmp5) tmp14 = tmp12 * tmp13 tmp15 = tl.sigmoid(tmp2) tmp16 = libdevice.tanh(tmp11) tmp17 = tmp15 * tmp16 tmp18 = tmp14 + tmp17 tmp19 = tl.sigmoid(tmp8) tmp20 = libdevice.tanh(tmp18) tmp21 = tmp19 * tmp20 tl.store(in_out_ptr0 + x3, tmp2, xmask) tl.store(in_out_ptr1 + x3, tmp5, xmask) tl.store(in_out_ptr2 + x3, tmp8, xmask) tl.store(in_out_ptr3 + x3, tmp11, xmask) tl.store(out_ptr0 + x3, tmp18, xmask) tl.store(out_ptr1 + x3, tmp21, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10) = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4, 4, 2, 2), (16, 4, 2, 1)) assert_size_stride(primals_9, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_10, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 2, 2), (16, 4, 2, 1)) buf2 = extern_kernels.convolution(primals_3, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 4, 2, 2), (16, 4, 2, 1)) buf4 = extern_kernels.convolution(primals_3, primals_6, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 4, 2, 2), (16, 4, 2, 1)) buf6 = extern_kernels.convolution(primals_3, primals_9, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 4, 2, 2), (16, 4, 2, 1)) buf1 = buf0 del buf0 buf3 = buf2 del buf2 buf5 = buf4 del buf4 buf7 = buf6 del buf6 buf8 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) buf9 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_convolution_mul_sigmoid_tanh_0[grid(64)](buf1, buf3, buf5, buf7, primals_2, primals_5, primals_7, primals_10, primals_8, buf8, buf9, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_10 del primals_2 del primals_5 del primals_7 return (buf9, buf8, primals_1, primals_3, primals_4, primals_6, primals_8, primals_9, buf1, buf3, buf5, buf7, buf8) class ConvLSTMCellNew(nn.Module): """ Implementation of the Basic ConvLSTM. No peephole connection, no forget gate. ConvLSTM: x - input h - hidden representation c - memory cell f - forget gate o - output gate Reference:Convolutional LSTM Network: A Machine Learning Approach for Precipitation Nowcasting """ def __init__(self, input_channels, hidden_channels, kernel_size): super(ConvLSTMCellNew, self).__init__() self.input_channels = input_channels self.hidden_channels = hidden_channels self.kernel_size = kernel_size self.num_features = 4 self.padding = int((kernel_size - 1) / 2) self.W_i = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.W_f = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.W_o = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.W_c = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.reset_parameters() def reset_parameters(self): self.W_i.reset_parameters() self.W_f.reset_parameters() self.W_o.reset_parameters() self.W_c.reset_parameters() def forward(self, input_0, input_1): primals_1 = self.W_i.weight primals_2 = self.W_i.bias primals_4 = self.W_f.weight primals_5 = self.W_f.bias primals_6 = self.W_o.weight primals_7 = self.W_o.bias primals_9 = self.W_c.weight primals_10 = self.W_c.bias primals_3 = input_0 primals_8 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10]) return output[0], output[1]	BenQLange/AttentionAugmentedConvLSTM	ConvLSTMCell	false	7,766	[ "MIT" ]	30	d8419b7a628b02ac49e8450deb3d60450c7b2d6b	https://github.com/BenQLange/AttentionAugmentedConvLSTM/tree/d8419b7a628b02ac49e8450deb3d60450c7b2d6b	import torch import torch.nn as nn class Model(nn.Module): """ Implementation of the Basic ConvLSTM. No peephole connection, no forget gate. ConvLSTM: x - input h - hidden representation c - memory cell f - forget gate o - output gate Reference:Convolutional LSTM Network: A Machine Learning Approach for Precipitation Nowcasting """ def __init__(self, input_channels, hidden_channels, kernel_size): super().__init__() self.input_channels = input_channels self.hidden_channels = hidden_channels self.kernel_size = kernel_size self.num_features = 4 self.padding = int((kernel_size - 1) / 2) self.W_i = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.W_f = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.W_o = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.W_c = nn.Conv2d(self.input_channels, self.hidden_channels, self.kernel_size, 1, self.padding, bias=True) self.reset_parameters() def forward(self, inputs, c): i_t = torch.sigmoid(self.W_i(inputs)) f_t = torch.sigmoid(self.W_f(inputs)) o_t = torch.sigmoid(self.W_o(inputs)) c_t = f_t * c + i_t * torch.tanh(self.W_c(inputs)) h_t = o_t * torch.tanh(c_t) return h_t, c_t def reset_parameters(self): self.W_i.reset_parameters() self.W_f.reset_parameters() self.W_o.reset_parameters() self.W_c.reset_parameters() def get_inputs(): return [torch.rand([4, 4, 3, 3]), torch.rand([4, 4, 2, 2])] def get_init_inputs(): return [4, 4, 4]
BPRLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/jn/cjnxxd6yqfu2dsohk7bi7ecl3kptealputmhrzqav7f575ek5tn2.py # Topologically Sorted Source Nodes: [sub, sigmoid, add, log, mean, loss], Original ATen: [aten.sub, aten.sigmoid, aten.add, aten.log, aten.mean, aten.neg] # Source node to ATen node mapping: # add => add # log => log # loss => neg # mean => mean # sigmoid => sigmoid # sub => sub # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%sub,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sigmoid, 1e-10), kwargs = {}) # %log : [num_users=1] = call_function[target=torch.ops.aten.log.default](args = (%add,), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%log,), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%mean,), kwargs = {}) triton_per_fused_add_log_mean_neg_sigmoid_sub_0 = async_compile.triton('triton_per_fused_add_log_mean_neg_sigmoid_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_log_mean_neg_sigmoid_sub_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_log_mean_neg_sigmoid_sub_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp2 = tmp0 - tmp1 tmp3 = tl.sigmoid(tmp2) tmp4 = 1e-10 tmp5 = tmp3 + tmp4 tmp6 = tl_math.log(tmp5) tmp7 = tl.broadcast_to(tmp6, [RBLOCK]) tmp9 = triton_helpers.promote_to_tensor(tl.sum(tmp7, 0)) tmp10 = 256.0 tmp11 = tmp9 / tmp10 tmp12 = -tmp11 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp12, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [sub, sigmoid, add, log, mean, loss], Original ATen: [aten.sub, aten.sigmoid, aten.add, aten.log, aten.mean, aten.neg] stream0 = get_raw_stream(0) triton_per_fused_add_log_mean_neg_sigmoid_sub_0.run(buf1, arg0_1, arg1_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class BPRLoss(nn.Module): """ BPRLoss, based on Bayesian Personalized Ranking Args: - gamma(float): Small value to avoid division by zero Shape: - Pos_score: (N) - Neg_score: (N), same shape as the Pos_score - Output: scalar. Examples:: >>> loss = BPRLoss() >>> pos_score = torch.randn(3, requires_grad=True) >>> neg_score = torch.randn(3, requires_grad=True) >>> output = loss(pos_score, neg_score) >>> output.backward() """ def __init__(self, gamma=1e-10): super(BPRLoss, self).__init__() self.gamma = gamma def forward(self, pos_score, neg_score): loss = -torch.log(self.gamma + torch.sigmoid(pos_score - neg_score) ).mean() return loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_log_mean_neg_sigmoid_sub_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp2 = tmp0 - tmp1 tmp3 = tl.sigmoid(tmp2) tmp4 = 1e-10 tmp5 = tmp3 + tmp4 tmp6 = tl_math.log(tmp5) tmp7 = tl.broadcast_to(tmp6, [RBLOCK]) tmp9 = triton_helpers.promote_to_tensor(tl.sum(tmp7, 0)) tmp10 = 256.0 tmp11 = tmp9 / tmp10 tmp12 = -tmp11 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp12, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_log_mean_neg_sigmoid_sub_0[grid(1)](buf1, arg0_1, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf1, class BPRLossNew(nn.Module): """ BPRLoss, based on Bayesian Personalized Ranking Args: - gamma(float): Small value to avoid division by zero Shape: - Pos_score: (N) - Neg_score: (N), same shape as the Pos_score - Output: scalar. Examples:: >>> loss = BPRLoss() >>> pos_score = torch.randn(3, requires_grad=True) >>> neg_score = torch.randn(3, requires_grad=True) >>> output = loss(pos_score, neg_score) >>> output.backward() """ def __init__(self, gamma=1e-10): super(BPRLossNew, self).__init__() self.gamma = gamma def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	BELIEVEfxy/LightSANs	BPRLoss	false	7,767	[ "MIT" ]	17	94ce7e59d144dbc787153b8c486cad334790ec6e	https://github.com/BELIEVEfxy/LightSANs/tree/94ce7e59d144dbc787153b8c486cad334790ec6e	import torch import torch.nn as nn class Model(nn.Module): """ BPRLoss, based on Bayesian Personalized Ranking Args: - gamma(float): Small value to avoid division by zero Shape: - Pos_score: (N) - Neg_score: (N), same shape as the Pos_score - Output: scalar. Examples:: >>> loss = BPRLoss() >>> pos_score = torch.randn(3, requires_grad=True) >>> neg_score = torch.randn(3, requires_grad=True) >>> output = loss(pos_score, neg_score) >>> output.backward() """ def __init__(self, gamma=1e-10): super().__init__() self.gamma = gamma def forward(self, pos_score, neg_score): loss = -torch.log(self.gamma + torch.sigmoid(pos_score - neg_score) ).mean() return loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
Policy	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/ng/cngjwaj32ulse46l45qzlmxoqdt4xu62eznv6tfk7uhocabugjkd.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[8192], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 8192 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 128 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, None) tl.store(out_ptr0 + (x2), tmp6, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/gr/cgrekmp3vmfaskaxgm7wq3mhpcpisrqek37fdagqcpd5rqlnxvep.py # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] # Source node to ATen node mapping: # softmax => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_3, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_3, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = (xindex // 32) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (32x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (8 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (16 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (24 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x3), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/vv/cvvhapfmnf3saoxluehcmlbqma5latd76fq263yvdkloxowagavl.py # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] # Source node to ATen node mapping: # softmax => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_2 = async_compile.triton('triton_poi_fused__softmax_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = (xindex // 32) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (32x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (8 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (16 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (24 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (128, 4), (4, 1)) assert_size_stride(primals_2, (128, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (2, 128), (128, 1)) assert_size_stride(primals_5, (2, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 128), (128, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 128), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 128), (2048, 512, 128, 1), 0); del buf0 # reuse buf5 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_2, buf5, 8192, grid=grid(8192), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [action_scores], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 128), (128, 1), 0), reinterpret_tensor(primals_4, (128, 2), (1, 128), 0), alpha=1, beta=1, out=buf2) del primals_5 buf3 = empty_strided_cuda((4, 4, 4, 2), (32, 8, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf2, buf3, 128, grid=grid(128), stream=stream0) buf4 = reinterpret_tensor(buf2, (4, 4, 4, 2), (32, 8, 2, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf3, buf4, 128, grid=grid(128), stream=stream0) del buf3 return (buf4, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 128), (128, 1), 0), buf4, primals_4, buf5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((128, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((2, 128), (128, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F import torch.nn.parallel import torch.utils.data import torch.optim import torch.autograd class Policy(nn.Module): def __init__(self): super(Policy, self).__init__() self.affine1 = nn.Linear(4, 128) self.affine2 = nn.Linear(128, 2) self.saved_actions = [] self.rewards = [] def forward(self, x): x = F.relu(self.affine1(x)) action_scores = self.affine2(x) return F.softmax(action_scores) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn import torch.nn.parallel import torch.utils.data import torch.optim import torch.autograd assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 128 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, None) tl.store(out_ptr0 + x2, tmp6, None) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = xindex // 32 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (8 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (16 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (24 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x3, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = xindex // 32 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (8 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (16 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (24 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x3, tmp8, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (128, 4), (4, 1)) assert_size_stride(primals_2, (128,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (2, 128), (128, 1)) assert_size_stride(primals_5, (2,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 128), (128, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 128), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 128), (2048, 512, 128, 1), 0) del buf0 buf5 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(8192)](buf1, primals_2, buf5, 8192, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 2), (2, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 128), (128, 1), 0), reinterpret_tensor(primals_4, (128, 2), (1, 128), 0), alpha=1, beta=1, out=buf2) del primals_5 buf3 = empty_strided_cuda((4, 4, 4, 2), (32, 8, 2, 1), torch.float32) triton_poi_fused__softmax_1[grid(128)](buf2, buf3, 128, XBLOCK=128, num_warps=4, num_stages=1) buf4 = reinterpret_tensor(buf2, (4, 4, 4, 2), (32, 8, 2, 1), 0) del buf2 triton_poi_fused__softmax_2[grid(128)](buf3, buf4, 128, XBLOCK=128, num_warps=4, num_stages=1) del buf3 return buf4, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 128), (128, 1), 0 ), buf4, primals_4, buf5 class PolicyNew(nn.Module): def __init__(self): super(PolicyNew, self).__init__() self.affine1 = nn.Linear(4, 128) self.affine2 = nn.Linear(128, 2) self.saved_actions = [] self.rewards = [] def forward(self, input_0): primals_1 = self.affine1.weight primals_2 = self.affine1.bias primals_4 = self.affine2.weight primals_5 = self.affine2.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	BestSonny/examples	Policy	false	7,768	[ "BSD-3-Clause" ]	13	4b7365c0db22133d1793e53bb3674c2d0ebaeac1	https://github.com/BestSonny/examples/tree/4b7365c0db22133d1793e53bb3674c2d0ebaeac1	import torch import torch.nn as nn import torch.nn.functional as F import torch.nn.parallel import torch.utils.data import torch.optim import torch.autograd class Model(nn.Module): def __init__(self): super().__init__() self.affine1 = nn.Linear(4, 128) self.affine2 = nn.Linear(128, 2) self.saved_actions = [] self.rewards = [] def forward(self, x): x = F.relu(self.affine1(x)) action_scores = self.affine2(x) return F.softmax(action_scores) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
ConvNCFBPRLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/i7/ci7pdr67jf2ugmxb2bnfjbm5ni7hu43ecf6627txz6b3bjmn7wh4.py # Topologically Sorted Source Nodes: [distance, neg, exp, add, log, loss], Original ATen: [aten.sub, aten.neg, aten.exp, aten.add, aten.log, aten.sum] # Source node to ATen node mapping: # add => add # distance => sub # exp => exp # log => log # loss => sum_1 # neg => neg # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%sub,), kwargs = {}) # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%neg,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%exp, 1), kwargs = {}) # %log : [num_users=1] = call_function[target=torch.ops.aten.log.default](args = (%add,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%log,), kwargs = {}) triton_per_fused_add_exp_log_neg_sub_sum_0 = async_compile.triton('triton_per_fused_add_exp_log_neg_sub_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_exp_log_neg_sub_sum_0', 'mutated_arg_names': [], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_exp_log_neg_sub_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp2 = tmp0 - tmp1 tmp3 = -tmp2 tmp4 = tl_math.exp(tmp3) tmp5 = 1.0 tmp6 = tmp4 + tmp5 tmp7 = tl_math.log(tmp6) tmp8 = tl.broadcast_to(tmp7, [RBLOCK]) tmp10 = triton_helpers.promote_to_tensor(tl.sum(tmp8, 0)) tl.store(out_ptr0 + (tl.full([1], 0, tl.int32)), tmp10, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) # Topologically Sorted Source Nodes: [distance, neg, exp, add, log, loss], Original ATen: [aten.sub, aten.neg, aten.exp, aten.add, aten.log, aten.sum] stream0 = get_raw_stream(0) triton_per_fused_add_exp_log_neg_sub_sum_0.run(arg0_1, arg1_1, buf0, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class ConvNCFBPRLoss(nn.Module): """ ConvNCFBPRLoss, based on Bayesian Personalized Ranking, Shape: - Pos_score: (N) - Neg_score: (N), same shape as the Pos_score - Output: scalar. Examples:: >>> loss = ConvNCFBPRLoss() >>> pos_score = torch.randn(3, requires_grad=True) >>> neg_score = torch.randn(3, requires_grad=True) >>> output = loss(pos_score, neg_score) >>> output.backward() """ def __init__(self): super(ConvNCFBPRLoss, self).__init__() def forward(self, pos_score, neg_score): distance = pos_score - neg_score loss = torch.sum(torch.log(1 + torch.exp(-distance))) return loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_exp_log_neg_sub_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp2 = tmp0 - tmp1 tmp3 = -tmp2 tmp4 = tl_math.exp(tmp3) tmp5 = 1.0 tmp6 = tmp4 + tmp5 tmp7 = tl_math.log(tmp6) tmp8 = tl.broadcast_to(tmp7, [RBLOCK]) tmp10 = triton_helpers.promote_to_tensor(tl.sum(tmp8, 0)) tl.store(out_ptr0 + tl.full([1], 0, tl.int32), tmp10, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) get_raw_stream(0) triton_per_fused_add_exp_log_neg_sub_sum_0[grid(1)](arg0_1, arg1_1, buf0, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf0, class ConvNCFBPRLossNew(nn.Module): """ ConvNCFBPRLoss, based on Bayesian Personalized Ranking, Shape: - Pos_score: (N) - Neg_score: (N), same shape as the Pos_score - Output: scalar. Examples:: >>> loss = ConvNCFBPRLoss() >>> pos_score = torch.randn(3, requires_grad=True) >>> neg_score = torch.randn(3, requires_grad=True) >>> output = loss(pos_score, neg_score) >>> output.backward() """ def __init__(self): super(ConvNCFBPRLossNew, self).__init__() def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	BELIEVEfxy/LightSANs	ConvNCFBPRLoss	false	7,769	[ "MIT" ]	17	94ce7e59d144dbc787153b8c486cad334790ec6e	https://github.com/BELIEVEfxy/LightSANs/tree/94ce7e59d144dbc787153b8c486cad334790ec6e	import torch import torch.nn as nn class Model(nn.Module): """ ConvNCFBPRLoss, based on Bayesian Personalized Ranking, Shape: - Pos_score: (N) - Neg_score: (N), same shape as the Pos_score - Output: scalar. Examples:: >>> loss = ConvNCFBPRLoss() >>> pos_score = torch.randn(3, requires_grad=True) >>> neg_score = torch.randn(3, requires_grad=True) >>> output = loss(pos_score, neg_score) >>> output.backward() """ def __init__(self): super().__init__() def forward(self, pos_score, neg_score): distance = pos_score - neg_score loss = torch.sum(torch.log(1 + torch.exp(-distance))) return loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
AttLayer	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/2c/c2ccnhz3fpzqtao3as6we4nx4iiosj7glcpmqnqczbxuyrghx5xt.py # Topologically Sorted Source Nodes: [att_singal_1, att_singal_2, att_singal_3], Original ATen: [aten.relu, aten.mul, aten.sum] # Source node to ATen node mapping: # att_singal_1 => relu # att_singal_2 => mul # att_singal_3 => sum_1 # Graph fragment: # %relu : [num_users=1] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%relu, %primals_3), kwargs = {}) # %sum_1 : [num_users=2] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [2]), kwargs = {}) triton_poi_fused_mul_relu_sum_0 = async_compile.triton('triton_poi_fused_mul_relu_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_relu_sum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_relu_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (16x1)), xmask) tmp3 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (4 + x0 + (16x1)), xmask) tmp9 = tl.load(in_ptr0 + (8 + x0 + (16x1)), xmask) tmp13 = tl.load(in_ptr0 + (12 + x0 + (16x1)), xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = tmp2 * tmp3 tmp6 = triton_helpers.maximum(tmp1, tmp5) tmp7 = tmp6 * tmp3 tmp8 = tmp4 + tmp7 tmp10 = triton_helpers.maximum(tmp1, tmp9) tmp11 = tmp10 * tmp3 tmp12 = tmp8 + tmp11 tmp14 = triton_helpers.maximum(tmp1, tmp13) tmp15 = tmp14 * tmp3 tmp16 = tmp12 + tmp15 tl.store(out_ptr0 + (x2), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/so/csof3x4y7lrn7on2ocdmxal3ggsfnqhrpinejjswa64wfco7qk6s.py # Topologically Sorted Source Nodes: [att_singal_4], Original ATen: [aten._softmax] # Source node to ATen node mapping: # att_singal_4 => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%sum_1, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%sum_1, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = (xindex // 16) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (16x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x3), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/n2/cn2d7m5uq6db3dfhz3ze6y5xji4hq7paw66kfee3iwqh6vc2tgis.py # Topologically Sorted Source Nodes: [att_singal_4], Original ATen: [aten._softmax] # Source node to ATen node mapping: # att_singal_4 => div, sum_2 # Graph fragment: # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_2), kwargs = {}) triton_poi_fused__softmax_2 = async_compile.triton('triton_poi_fused__softmax_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = (xindex // 16) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (16x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [att_singal], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [att_singal_1, att_singal_2, att_singal_3], Original ATen: [aten.relu, aten.mul, aten.sum] stream0 = get_raw_stream(0) triton_poi_fused_mul_relu_sum_0.run(buf0, primals_3, buf1, 64, grid=grid(64), stream=stream0) buf2 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [att_singal_4], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf1, buf2, 64, grid=grid(64), stream=stream0) buf3 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [att_singal_4], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf2, buf3, 64, grid=grid(64), stream=stream0) del buf2 return (buf3, primals_3, reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), buf0, buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as fn class AttLayer(nn.Module): """Calculate the attention signal(weight) according the input tensor. Args: infeatures (torch.FloatTensor): A 3D input tensor with shape of[batch_size, M, embed_dim]. Returns: torch.FloatTensor: Attention weight of input. shape of [batch_size, M]. """ def __init__(self, in_dim, att_dim): super(AttLayer, self).__init__() self.in_dim = in_dim self.att_dim = att_dim self.w = torch.nn.Linear(in_features=in_dim, out_features=att_dim, bias=False) self.h = nn.Parameter(torch.randn(att_dim), requires_grad=True) def forward(self, infeatures): att_singal = self.w(infeatures) att_singal = fn.relu(att_singal) att_singal = torch.mul(att_singal, self.h) att_singal = torch.sum(att_singal, dim=2) att_singal = fn.softmax(att_singal, dim=1) return att_singal def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_dim': 4, 'att_dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_mul_relu_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 16 * x1), xmask) tmp3 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (4 + x0 + 16 * x1), xmask) tmp9 = tl.load(in_ptr0 + (8 + x0 + 16 * x1), xmask) tmp13 = tl.load(in_ptr0 + (12 + x0 + 16 * x1), xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = tmp2 * tmp3 tmp6 = triton_helpers.maximum(tmp1, tmp5) tmp7 = tmp6 * tmp3 tmp8 = tmp4 + tmp7 tmp10 = triton_helpers.maximum(tmp1, tmp9) tmp11 = tmp10 * tmp3 tmp12 = tmp8 + tmp11 tmp14 = triton_helpers.maximum(tmp1, tmp13) tmp15 = tmp14 * tmp3 tmp16 = tmp12 + tmp15 tl.store(out_ptr0 + x2, tmp16, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = xindex // 16 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x3, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = xindex // 16 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (4 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (8 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (12 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x3, tmp8, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_relu_sum_0[grid(64)](buf0, primals_3, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) buf2 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused__softmax_1[grid(64)](buf1, buf2, 64, XBLOCK=64, num_warps=1, num_stages=1) buf3 = buf1 del buf1 triton_poi_fused__softmax_2[grid(64)](buf2, buf3, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf2 return buf3, primals_3, reinterpret_tensor(primals_2, (64, 4), (4, 1), 0 ), buf0, buf3 class AttLayerNew(nn.Module): """Calculate the attention signal(weight) according the input tensor. Args: infeatures (torch.FloatTensor): A 3D input tensor with shape of[batch_size, M, embed_dim]. Returns: torch.FloatTensor: Attention weight of input. shape of [batch_size, M]. """ def __init__(self, in_dim, att_dim): super(AttLayerNew, self).__init__() self.in_dim = in_dim self.att_dim = att_dim self.w = torch.nn.Linear(in_features=in_dim, out_features=att_dim, bias=False) self.h = nn.Parameter(torch.randn(att_dim), requires_grad=True) def forward(self, input_0): primals_3 = self.h primals_1 = self.w.weight primals_2 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	BELIEVEfxy/LightSANs	AttLayer	false	7,770	[ "MIT" ]	17	94ce7e59d144dbc787153b8c486cad334790ec6e	https://github.com/BELIEVEfxy/LightSANs/tree/94ce7e59d144dbc787153b8c486cad334790ec6e	import torch import torch.nn as nn import torch.nn.functional as fn class Model(nn.Module): """Calculate the attention signal(weight) according the input tensor. Args: infeatures (torch.FloatTensor): A 3D input tensor with shape of[batch_size, M, embed_dim]. Returns: torch.FloatTensor: Attention weight of input. shape of [batch_size, M]. """ def __init__(self, in_dim, att_dim): super().__init__() self.in_dim = in_dim self.att_dim = att_dim self.w = torch.nn.Linear(in_features=in_dim, out_features=att_dim, bias=False) self.h = nn.Parameter(torch.randn(att_dim), requires_grad=True) def forward(self, infeatures): att_singal = self.w(infeatures) att_singal = fn.relu(att_singal) att_singal = torch.mul(att_singal, self.h) att_singal = torch.sum(att_singal, dim=2) att_singal = fn.softmax(att_singal, dim=1) return att_singal def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
SpanClassifier	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/4b/c4bpho76vlcic5gjehgofej5wsbmocpg7mqjlqouz6mauxjghx2z.py # Topologically Sorted Source Nodes: [similarity], Original ATen: [aten.add] # Source node to ATen node mapping: # similarity => add # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_2, %primals_2), kwargs = {}) triton_poi_fused_add_0 = async_compile.triton('triton_poi_fused_add_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr0 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 + tmp2 tl.store(in_out_ptr0 + (x0), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (1, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (1, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [similarity], Original ATen: [aten._trilinear] buf0 = torch.ops.aten._trilinear.default(reinterpret_tensor(primals_4, (64, 4), (4, 1), 0), primals_1, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), [1, 3], [0], [1, 2], [2, 3]) del primals_1 buf1 = buf0 del buf0 buf2 = reinterpret_tensor(buf1, (4, 4, 4, 1), (16, 4, 1, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [similarity], Original ATen: [aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_0.run(buf2, primals_2, 64, grid=grid(64), stream=stream0) del primals_2 return (buf2, reinterpret_tensor(primals_4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((1, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn from torch.nn import BCELoss class SpanClassifier(nn.Module): """given the span embeddings, classify whether their relations""" def __init__(self, d_inp): super(SpanClassifier, self).__init__() self.d_inp = d_inp self.bilinear_layer = nn.Bilinear(d_inp, d_inp, 1) self.output = nn.Sigmoid() self.loss = BCELoss() def forward(self, span_emb_1, span_emb_2, label=None): """Calculate the similarity as bilinear product of span embeddings. Args: span_emb_1: [batch_size, hidden] (Tensor) hidden states for span_1 span_emb_2: [batch_size, hidden] (Tensor) hidden states for span_2 label: [batch_size] 0/1 Tensor, if none is supplied do prediction. """ similarity = self.bilinear_layer(span_emb_1, span_emb_2) probs = self.output(similarity) outputs = similarity, if label is not None: cur_loss = self.loss(probs, label) outputs = (cur_loss,) + outputs return outputs def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'d_inp': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn from torch.nn import BCELoss assert_size_stride = torch._C._dynamo.guards.assert_size_stride reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_add_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr0 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp0 + tmp2 tl.store(in_out_ptr0 + x0, tmp3, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (1, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (1,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = torch.ops.aten._trilinear.default(reinterpret_tensor( primals_4, (64, 4), (4, 1), 0), primals_1, reinterpret_tensor( primals_3, (64, 4), (4, 1), 0), [1, 3], [0], [1, 2], [2, 3]) del primals_1 buf1 = buf0 del buf0 buf2 = reinterpret_tensor(buf1, (4, 4, 4, 1), (16, 4, 1, 1), 0) del buf1 get_raw_stream(0) triton_poi_fused_add_0[grid(64)](buf2, primals_2, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_2 return buf2, reinterpret_tensor(primals_4, (64, 4), (4, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0) class SpanClassifierNew(nn.Module): """given the span embeddings, classify whether their relations""" def __init__(self, d_inp): super(SpanClassifierNew, self).__init__() self.d_inp = d_inp self.bilinear_layer = nn.Bilinear(d_inp, d_inp, 1) self.output = nn.Sigmoid() self.loss = BCELoss() def forward(self, input_0, input_1): primals_1 = self.bilinear_layer.weight primals_2 = self.bilinear_layer.bias primals_3 = input_0 primals_4 = input_1 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	Bhaskers-Blu-Org1/superglue-mtl	SpanClassifier	false	7,771	[ "Apache-2.0" ]	15	1eb3e581c0ef3b4c261e0256ec26116d2b657c40	https://github.com/Bhaskers-Blu-Org1/superglue-mtl/tree/1eb3e581c0ef3b4c261e0256ec26116d2b657c40	import torch import torch.nn as nn from torch.nn import BCELoss class Model(nn.Module): """given the span embeddings, classify whether their relations""" def __init__(self, d_inp): super().__init__() self.d_inp = d_inp self.bilinear_layer = nn.Bilinear(d_inp, d_inp, 1) self.output = nn.Sigmoid() self.loss = BCELoss() def forward(self, span_emb_1, span_emb_2, label=None): """Calculate the similarity as bilinear product of span embeddings. Args: span_emb_1: [batch_size, hidden] (Tensor) hidden states for span_1 span_emb_2: [batch_size, hidden] (Tensor) hidden states for span_2 label: [batch_size] 0/1 Tensor, if none is supplied do prediction. """ similarity = self.bilinear_layer(span_emb_1, span_emb_2) probs = self.output(similarity) outputs = similarity, if label is not None: cur_loss = self.loss(probs, label) outputs = (cur_loss,) + outputs return outputs def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4]
RegLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/mp/cmpsyxhoke4at32fv2junnk6odkjr6r34oabvgb5gjiaf26kbemj.py # Topologically Sorted Source Nodes: [reg_loss, norm_1, reg_loss_1, norm_2, reg_loss_2, norm_3, reg_loss_3], Original ATen: [aten.linalg_vector_norm, aten.add] # Source node to ATen node mapping: # norm_1 => pow_3, pow_4, sum_2 # norm_2 => pow_5, pow_6, sum_3 # norm_3 => pow_7, pow_8, sum_4 # reg_loss => pow_1, pow_2, sum_1 # reg_loss_1 => add # reg_loss_2 => add_1 # reg_loss_3 => add_2 # Graph fragment: # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%select, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, None), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_1, 0.5), kwargs = {}) # %pow_3 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%select_1, 2), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_3, None), kwargs = {}) # %pow_4 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_2, 0.5), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%pow_2, %pow_4), kwargs = {}) # %pow_5 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%select_2, 2), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_5, None), kwargs = {}) # %pow_6 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_3, 0.5), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, %pow_6), kwargs = {}) # %pow_7 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%select_3, 2), kwargs = {}) # %sum_4 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_7, None), kwargs = {}) # %pow_8 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_4, 0.5), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_1, %pow_8), kwargs = {}) triton_per_fused_add_linalg_vector_norm_0 = async_compile.triton('triton_per_fused_add_linalg_vector_norm_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 64], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {2: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 3), equal_to_1=(2,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_linalg_vector_norm_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 4, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_linalg_vector_norm_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 64 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp5 = tl.load(in_ptr0 + (64 + r0), None) tmp10 = tl.load(in_ptr0 + (128 + r0), None) tmp15 = tl.load(in_ptr0 + (192 + r0), None) tmp1 = tmp0 * tmp0 tmp2 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp4 = tl.sum(tmp2, 1)[:, None] tmp6 = tmp5 * tmp5 tmp7 = tl.broadcast_to(tmp6, [XBLOCK, RBLOCK]) tmp9 = tl.sum(tmp7, 1)[:, None] tmp11 = tmp10 * tmp10 tmp12 = tl.broadcast_to(tmp11, [XBLOCK, RBLOCK]) tmp14 = tl.sum(tmp12, 1)[:, None] tmp16 = tmp15 * tmp15 tmp17 = tl.broadcast_to(tmp16, [XBLOCK, RBLOCK]) tmp19 = tl.sum(tmp17, 1)[:, None] tmp20 = libdevice.sqrt(tmp4) tmp21 = libdevice.sqrt(tmp9) tmp22 = tmp20 + tmp21 tmp23 = libdevice.sqrt(tmp14) tmp24 = tmp22 + tmp23 tmp25 = libdevice.sqrt(tmp19) tmp26 = tmp24 + tmp25 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp26, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf4 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [reg_loss, norm_1, reg_loss_1, norm_2, reg_loss_2, norm_3, reg_loss_3], Original ATen: [aten.linalg_vector_norm, aten.add] stream0 = get_raw_stream(0) triton_per_fused_add_linalg_vector_norm_0.run(buf4, arg0_1, 1, 64, grid=grid(1), stream=stream0) del arg0_1 return (buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class RegLoss(nn.Module): """ RegLoss, L2 regularization on model parameters """ def __init__(self): super(RegLoss, self).__init__() def forward(self, parameters): reg_loss = None for W in parameters: if reg_loss is None: reg_loss = W.norm(2) else: reg_loss = reg_loss + W.norm(2) return reg_loss def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_linalg_vector_norm_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp5 = tl.load(in_ptr0 + (64 + r0), None) tmp10 = tl.load(in_ptr0 + (128 + r0), None) tmp15 = tl.load(in_ptr0 + (192 + r0), None) tmp1 = tmp0 * tmp0 tmp2 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp4 = tl.sum(tmp2, 1)[:, None] tmp6 = tmp5 * tmp5 tmp7 = tl.broadcast_to(tmp6, [XBLOCK, RBLOCK]) tmp9 = tl.sum(tmp7, 1)[:, None] tmp11 = tmp10 * tmp10 tmp12 = tl.broadcast_to(tmp11, [XBLOCK, RBLOCK]) tmp14 = tl.sum(tmp12, 1)[:, None] tmp16 = tmp15 * tmp15 tmp17 = tl.broadcast_to(tmp16, [XBLOCK, RBLOCK]) tmp19 = tl.sum(tmp17, 1)[:, None] tmp20 = libdevice.sqrt(tmp4) tmp21 = libdevice.sqrt(tmp9) tmp22 = tmp20 + tmp21 tmp23 = libdevice.sqrt(tmp14) tmp24 = tmp22 + tmp23 tmp25 = libdevice.sqrt(tmp19) tmp26 = tmp24 + tmp25 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp26, None) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf4 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_linalg_vector_norm_0[grid(1)](buf4, arg0_1, 1, 64, XBLOCK=1, num_warps=2, num_stages=1) del arg0_1 return buf4, class RegLossNew(nn.Module): """ RegLoss, L2 regularization on model parameters """ def __init__(self): super(RegLossNew, self).__init__() def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	BELIEVEfxy/LightSANs	RegLoss	false	7,772	[ "MIT" ]	17	94ce7e59d144dbc787153b8c486cad334790ec6e	https://github.com/BELIEVEfxy/LightSANs/tree/94ce7e59d144dbc787153b8c486cad334790ec6e	import torch import torch.nn as nn class Model(nn.Module): """ RegLoss, L2 regularization on model parameters """ def __init__(self): super().__init__() def forward(self, parameters): reg_loss = None for W in parameters: if reg_loss is None: reg_loss = W.norm(2) else: reg_loss = reg_loss + W.norm(2) return reg_loss def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
OuterProductLayer	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/ys/cysmpoovu7ymuvaaoio356tm6mogxnbmw2uz7mmr5af7irqs7m4j.py # Topologically Sorted Source Nodes: [p_1, p_2], Original ATen: [aten.mul, aten.sum] # Source node to ATen node mapping: # p_1 => mul # p_2 => sum_1 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%unsqueeze, %unsqueeze_1), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [-1]), kwargs = {}) triton_poi_fused_mul_sum_0 = async_compile.triton('triton_poi_fused_mul_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_sum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 96 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x2 = (xindex // 24) x3 = xindex % 24 x4 = xindex tmp18 = tl.load(in_ptr1 + (4x3), xmask, eviction_policy='evict_last') tmp21 = tl.load(in_ptr1 + (1 + (4x3)), xmask, eviction_policy='evict_last') tmp25 = tl.load(in_ptr1 + (2 + (4x3)), xmask, eviction_policy='evict_last') tmp29 = tl.load(in_ptr1 + (3 + (4x3)), xmask, eviction_policy='evict_last') tmp0 = x0 tmp1 = tl.full([1], 3, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.full([1], 2, tl.int64) tmp6 = tmp0 < tmp5 tmp7 = tl.full([1], 0, tl.int64) tmp8 = tl.where(tmp6, tmp7, tmp7) tmp9 = tl.where(tmp4, tmp7, tmp8) tmp10 = tl.full([1], 4, tl.int64) tmp11 = tmp0 < tmp10 tmp12 = tl.full([1], 5, tl.int64) tmp13 = tmp0 < tmp12 tmp14 = tl.where(tmp13, tmp3, tmp5) tmp15 = tl.where(tmp11, tmp3, tmp14) tmp16 = tl.where(tmp2, tmp9, tmp15) tmp17 = tl.load(in_ptr0 + ((4tmp16) + (16x2)), xmask, eviction_policy='evict_last') tmp19 = tmp17 * tmp18 tmp20 = tl.load(in_ptr0 + (1 + (4tmp16) + (16x2)), xmask, eviction_policy='evict_last') tmp22 = tmp20 * tmp21 tmp23 = tmp19 + tmp22 tmp24 = tl.load(in_ptr0 + (2 + (4tmp16) + (16x2)), xmask, eviction_policy='evict_last') tmp26 = tmp24 * tmp25 tmp27 = tmp23 + tmp26 tmp28 = tl.load(in_ptr0 + (3 + (4tmp16) + (16x2)), xmask, eviction_policy='evict_last') tmp30 = tmp28 * tmp29 tmp31 = tmp27 + tmp30 tl.store(out_ptr0 + (x4), tmp31, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/b3/cb3pluhky34w5fgwnwjqa7ntoyhfwi3hev346jlv6swkx5ozygp6.py # Topologically Sorted Source Nodes: [q, outer_product, sum_2], Original ATen: [aten.index, aten.mul, aten.sum] # Source node to ATen node mapping: # outer_product => mul_1 # q => index_1 # sum_2 => sum_2 # Graph fragment: # %index_1 : [num_users=1] = call_function[target=torch.ops.aten.index.Tensor](args = (%primals_1, [None, %lift_fresh_copy_1]), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%permute, %index_1), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul_1, [-1]), kwargs = {}) triton_poi_fused_index_mul_sum_1 = async_compile.triton('triton_poi_fused_index_mul_sum_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_index_mul_sum_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_index_mul_sum_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 24 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x1 = (xindex // 6) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (24x1)), xmask) tmp19 = tl.load(in_ptr0 + (6 + x0 + (24x1)), xmask) tmp23 = tl.load(in_ptr0 + (12 + x0 + (24x1)), xmask) tmp27 = tl.load(in_ptr0 + (18 + x0 + (24x1)), xmask) tmp1 = x0 tmp2 = tl.full([1], 3, tl.int64) tmp3 = tmp1 < tmp2 tmp4 = tl.full([1], 1, tl.int64) tmp5 = tmp1 < tmp4 tmp6 = tl.full([1], 2, tl.int64) tmp7 = tmp1 < tmp6 tmp8 = tl.where(tmp7, tmp6, tmp2) tmp9 = tl.where(tmp5, tmp4, tmp8) tmp10 = tl.full([1], 4, tl.int64) tmp11 = tmp1 < tmp10 tmp12 = tl.full([1], 5, tl.int64) tmp13 = tmp1 < tmp12 tmp14 = tl.where(tmp13, tmp2, tmp2) tmp15 = tl.where(tmp11, tmp6, tmp14) tmp16 = tl.where(tmp3, tmp9, tmp15) tmp17 = tl.load(in_ptr1 + ((4tmp16) + (16x1)), xmask, eviction_policy='evict_last') tmp18 = tmp0 * tmp17 tmp20 = tl.load(in_ptr1 + (1 + (4tmp16) + (16x1)), xmask, eviction_policy='evict_last') tmp21 = tmp19 * tmp20 tmp22 = tmp18 + tmp21 tmp24 = tl.load(in_ptr1 + (2 + (4tmp16) + (16x1)), xmask, eviction_policy='evict_last') tmp25 = tmp23 * tmp24 tmp26 = tmp22 + tmp25 tmp28 = tl.load(in_ptr1 + (3 + (4tmp16) + (16x1)), xmask, eviction_policy='evict_last') tmp29 = tmp27 * tmp28 tmp30 = tmp26 + tmp29 tl.store(out_ptr0 + (x2), tmp30, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 6, 4), (24, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 6), (24, 6, 1), torch.float32) # Topologically Sorted Source Nodes: [p_1, p_2], Original ATen: [aten.mul, aten.sum] stream0 = get_raw_stream(0) triton_poi_fused_mul_sum_0.run(primals_1, primals_2, buf0, 96, grid=grid(96), stream=stream0) del primals_2 buf1 = empty_strided_cuda((4, 6), (6, 1), torch.float32) # Topologically Sorted Source Nodes: [q, outer_product, sum_2], Original ATen: [aten.index, aten.mul, aten.sum] triton_poi_fused_index_mul_sum_1.run(buf0, primals_1, buf1, 24, grid=grid(24), stream=stream0) del buf0 return (buf1, primals_1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 6, 4), (24, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class OuterProductLayer(nn.Module): """OutterProduct Layer used in PNN. This implemention is adapted from code that the author of the paper published on https://github.com/Atomu2014/product-nets. """ def __init__(self, num_feature_field, embedding_size, device): """ Args: num_feature_field(int) :number of feature fields. embedding_size(int) :number of embedding size. device(torch.device) : device object of the model. """ super(OuterProductLayer, self).__init__() self.num_feature_field = num_feature_field num_pairs = int(num_feature_field * (num_feature_field - 1) / 2) embed_size = embedding_size self.kernel = nn.Parameter(torch.rand(embed_size, num_pairs, embed_size), requires_grad=True) nn.init.xavier_uniform_(self.kernel) self def forward(self, feat_emb): """ Args: feat_emb(torch.FloatTensor) :3D tensor with shape: [batch_size,num_pairs,embedding_size]. Returns: outer_product(torch.FloatTensor): The outer product of input tensor. shape of [batch_size, num_pairs] """ row = [] col = [] for i in range(self.num_feature_field - 1): for j in range(i + 1, self.num_feature_field): row.append(i) col.append(j) p = feat_emb[:, row] q = feat_emb[:, col] p.unsqueeze_(dim=1) p = torch.mul(p, self.kernel.unsqueeze(0)) p = torch.sum(p, dim=-1) p = torch.transpose(p, 2, 1) outer_product = p * q return outer_product.sum(dim=-1) def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'num_feature_field': 4, 'embedding_size': 4, 'device': 0}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_mul_sum_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 96 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x2 = xindex // 24 x3 = xindex % 24 x4 = xindex tmp18 = tl.load(in_ptr1 + 4 * x3, xmask, eviction_policy='evict_last') tmp21 = tl.load(in_ptr1 + (1 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp25 = tl.load(in_ptr1 + (2 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp29 = tl.load(in_ptr1 + (3 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp0 = x0 tmp1 = tl.full([1], 3, tl.int64) tmp2 = tmp0 < tmp1 tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.full([1], 2, tl.int64) tmp6 = tmp0 < tmp5 tmp7 = tl.full([1], 0, tl.int64) tmp8 = tl.where(tmp6, tmp7, tmp7) tmp9 = tl.where(tmp4, tmp7, tmp8) tmp10 = tl.full([1], 4, tl.int64) tmp11 = tmp0 < tmp10 tmp12 = tl.full([1], 5, tl.int64) tmp13 = tmp0 < tmp12 tmp14 = tl.where(tmp13, tmp3, tmp5) tmp15 = tl.where(tmp11, tmp3, tmp14) tmp16 = tl.where(tmp2, tmp9, tmp15) tmp17 = tl.load(in_ptr0 + (4 * tmp16 + 16 * x2), xmask, eviction_policy ='evict_last') tmp19 = tmp17 * tmp18 tmp20 = tl.load(in_ptr0 + (1 + 4 * tmp16 + 16 * x2), xmask, eviction_policy='evict_last') tmp22 = tmp20 * tmp21 tmp23 = tmp19 + tmp22 tmp24 = tl.load(in_ptr0 + (2 + 4 * tmp16 + 16 * x2), xmask, eviction_policy='evict_last') tmp26 = tmp24 * tmp25 tmp27 = tmp23 + tmp26 tmp28 = tl.load(in_ptr0 + (3 + 4 * tmp16 + 16 * x2), xmask, eviction_policy='evict_last') tmp30 = tmp28 * tmp29 tmp31 = tmp27 + tmp30 tl.store(out_ptr0 + x4, tmp31, xmask) @triton.jit def triton_poi_fused_index_mul_sum_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 24 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x1 = xindex // 6 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 24 * x1), xmask) tmp19 = tl.load(in_ptr0 + (6 + x0 + 24 * x1), xmask) tmp23 = tl.load(in_ptr0 + (12 + x0 + 24 * x1), xmask) tmp27 = tl.load(in_ptr0 + (18 + x0 + 24 * x1), xmask) tmp1 = x0 tmp2 = tl.full([1], 3, tl.int64) tmp3 = tmp1 < tmp2 tmp4 = tl.full([1], 1, tl.int64) tmp5 = tmp1 < tmp4 tmp6 = tl.full([1], 2, tl.int64) tmp7 = tmp1 < tmp6 tmp8 = tl.where(tmp7, tmp6, tmp2) tmp9 = tl.where(tmp5, tmp4, tmp8) tmp10 = tl.full([1], 4, tl.int64) tmp11 = tmp1 < tmp10 tmp12 = tl.full([1], 5, tl.int64) tmp13 = tmp1 < tmp12 tmp14 = tl.where(tmp13, tmp2, tmp2) tmp15 = tl.where(tmp11, tmp6, tmp14) tmp16 = tl.where(tmp3, tmp9, tmp15) tmp17 = tl.load(in_ptr1 + (4 * tmp16 + 16 * x1), xmask, eviction_policy ='evict_last') tmp18 = tmp0 * tmp17 tmp20 = tl.load(in_ptr1 + (1 + 4 * tmp16 + 16 * x1), xmask, eviction_policy='evict_last') tmp21 = tmp19 * tmp20 tmp22 = tmp18 + tmp21 tmp24 = tl.load(in_ptr1 + (2 + 4 * tmp16 + 16 * x1), xmask, eviction_policy='evict_last') tmp25 = tmp23 * tmp24 tmp26 = tmp22 + tmp25 tmp28 = tl.load(in_ptr1 + (3 + 4 * tmp16 + 16 * x1), xmask, eviction_policy='evict_last') tmp29 = tmp27 * tmp28 tmp30 = tmp26 + tmp29 tl.store(out_ptr0 + x2, tmp30, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 6, 4), (24, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 6), (24, 6, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_sum_0[grid(96)](primals_1, primals_2, buf0, 96, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf1 = empty_strided_cuda((4, 6), (6, 1), torch.float32) triton_poi_fused_index_mul_sum_1[grid(24)](buf0, primals_1, buf1, 24, XBLOCK=32, num_warps=1, num_stages=1) del buf0 return buf1, primals_1 class OuterProductLayerNew(nn.Module): """OutterProduct Layer used in PNN. This implemention is adapted from code that the author of the paper published on https://github.com/Atomu2014/product-nets. """ def __init__(self, num_feature_field, embedding_size, device): """ Args: num_feature_field(int) :number of feature fields. embedding_size(int) :number of embedding size. device(torch.device) : device object of the model. """ super(OuterProductLayerNew, self).__init__() self.num_feature_field = num_feature_field num_pairs = int(num_feature_field * (num_feature_field - 1) / 2) embed_size = embedding_size self.kernel = nn.Parameter(torch.rand(embed_size, num_pairs, embed_size), requires_grad=True) nn.init.xavier_uniform_(self.kernel) self def forward(self, input_0): primals_2 = self.kernel primals_1 = input_0 output = call([primals_1, primals_2]) return output[0]	BELIEVEfxy/LightSANs	OuterProductLayer	false	7,773	[ "MIT" ]	17	94ce7e59d144dbc787153b8c486cad334790ec6e	https://github.com/BELIEVEfxy/LightSANs/tree/94ce7e59d144dbc787153b8c486cad334790ec6e	import torch import torch.nn as nn class Model(nn.Module): """OutterProduct Layer used in PNN. This implemention is adapted from code that the author of the paper published on https://github.com/Atomu2014/product-nets. """ def __init__(self, num_feature_field, embedding_size, device): """ Args: num_feature_field(int) :number of feature fields. embedding_size(int) :number of embedding size. device(torch.device) : device object of the model. """ super().__init__() self.num_feature_field = num_feature_field num_pairs = int(num_feature_field * (num_feature_field - 1) / 2) embed_size = embedding_size self.kernel = nn.Parameter(torch.rand(embed_size, num_pairs, embed_size), requires_grad=True) nn.init.xavier_uniform_(self.kernel) self def forward(self, feat_emb): """ Args: feat_emb(torch.FloatTensor) :3D tensor with shape: [batch_size,num_pairs,embedding_size]. Returns: outer_product(torch.FloatTensor): The outer product of input tensor. shape of [batch_size, num_pairs] """ row = [] col = [] for i in range(self.num_feature_field - 1): for j in range(i + 1, self.num_feature_field): row.append(i) col.append(j) p = feat_emb[:, row] q = feat_emb[:, col] p.unsqueeze_(dim=1) p = torch.mul(p, self.kernel.unsqueeze(0)) p = torch.sum(p, dim=-1) p = torch.transpose(p, 2, 1) outer_product = p * q return outer_product.sum(dim=-1) def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [4, 4, 0]
Sign	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/ee/ceeya43xyaz4ca4rm5gl6qhm5dwcsidpmhp725raez2qydbyo6le.py # Topologically Sorted Source Nodes: [sign], Original ATen: [aten.sign] # Source node to ATen node mapping: # sign => sign # Graph fragment: # %sign : [num_users=1] = call_function[target=torch.ops.aten.sign.default](args = (%arg0_1,), kwargs = {}) triton_poi_fused_sign_0 = async_compile.triton('triton_poi_fused_sign_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_sign_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_sign_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp1 < tmp0 tmp3 = tmp2.to(tl.int8) tmp4 = tmp0 < tmp1 tmp5 = tmp4.to(tl.int8) tmp6 = tmp3 - tmp5 tmp7 = tmp6.to(tmp0.dtype) tl.store(out_ptr0 + (x0), tmp7, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sign], Original ATen: [aten.sign] stream0 = get_raw_stream(0) triton_poi_fused_sign_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	from torch.autograd import Function import torch import torch.nn as nn class SignFunction(Function): def __init__(self): super(SignFunction, self).__init__() @staticmethod def forward(ctx, input, is_training=True): if is_training: prob = input.new(input.size()).uniform_() x = input.clone() x[(1 - input) / 2 <= prob] = 1 x[(1 - input) / 2 > prob] = -1 return x else: return input.sign() @staticmethod def backward(ctx, grad_output): return grad_output, None class Sign(nn.Module): def __init__(self): super(Sign, self).__init__() def forward(self, x): return SignFunction.apply(x, self.training) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch.autograd import Function import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_sign_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = tmp1 < tmp0 tmp3 = tmp2.to(tl.int8) tmp4 = tmp0 < tmp1 tmp5 = tmp4.to(tl.int8) tmp6 = tmp3 - tmp5 tmp7 = tmp6.to(tmp0.dtype) tl.store(out_ptr0 + x0, tmp7, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_sign_0[grid(256)](arg0_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del arg0_1 return buf0, class SignFunction(Function): def __init__(self): super(SignFunction, self).__init__() @staticmethod def forward(ctx, input, is_training=True): if is_training: prob = input.new(input.size()).uniform_() x = input.clone() x[(1 - input) / 2 <= prob] = 1 x[(1 - input) / 2 > prob] = -1 return x else: return input.sign() @staticmethod def backward(ctx, grad_output): return grad_output, None class SignNew(nn.Module): def __init__(self): super(SignNew, self).__init__() def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Biaze7/lossy-image-compression	Sign	false	7,774	[ "MIT" ]	16	88ca2022a306fea52d6671593b314f0de3bf6010	https://github.com/Biaze7/lossy-image-compression/tree/88ca2022a306fea52d6671593b314f0de3bf6010	from torch.autograd import Function import torch import torch.nn as nn class SignFunction(Function): def __init__(self): super().__init__() @staticmethod def forward(ctx, input, is_training=True): if is_training: prob = input.new(input.size()).uniform_() x = input.clone() x[(1 - input) / 2 <= prob] = 1 x[(1 - input) / 2 > prob] = -1 return x else: return input.sign() @staticmethod def backward(ctx, grad_output): return grad_output, None class Model(nn.Module): def __init__(self): super().__init__() def forward(self, x): return SignFunction.apply(x, self.training) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
D_phiVpsi	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/xu/cxuz6jfjowuh4p2kufdvngput53c42pcs4vsj5fyr2rnezepy7to.py # Topologically Sorted Source Nodes: [input_2], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # input_2 => gt, mul, where # Graph fragment: # %add_tensor_4 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default_4, %primals_4), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%add_tensor_4, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_tensor_4, 0.2), kwargs = {}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt, %add_tensor_4, %mul), kwargs = {}) triton_poi_fused_leaky_relu_0 = async_compile.triton('triton_poi_fused_leaky_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 32 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.2 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(in_out_ptr0 + (x2), tmp7, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/fj/cfjp34vlnurpiazt2zvfffie6nhcxuv3ao3qqi3o4aclizl77w22.py # Topologically Sorted Source Nodes: [input_6], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # input_6 => gt_2, mul_2, where_2 # Graph fragment: # %add_tensor_2 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default_2, %primals_8), kwargs = {}) # %gt_2 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%add_tensor_2, 0), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_tensor_2, 0.2), kwargs = {}) # %where_2 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_2, %add_tensor_2, %mul_2), kwargs = {}) triton_poi_fused_leaky_relu_1 = async_compile.triton('triton_poi_fused_leaky_relu_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 16 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.2 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(in_out_ptr0 + (x2), tmp7, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/6t/c6thf6sub62m63skohfqdmz2npjqndfvodwhjcgnkmehgmx6kylx.py # Topologically Sorted Source Nodes: [input_12, mul, out], Original ATen: [aten.leaky_relu, aten.mul, aten.sum] # Source node to ATen node mapping: # input_12 => gt_5, mul_5, where_5 # mul => mul_6 # out => sum_1 # Graph fragment: # %gt_5 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%addmm_5, 0), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%addmm_5, 0.2), kwargs = {}) # %where_5 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_5, %addmm_5, %mul_5), kwargs = {}) # %mul_6 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mm, %where_5), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul_6, [1], True), kwargs = {}) triton_per_fused_leaky_relu_mul_sum_2 = async_compile.triton('triton_per_fused_leaky_relu_mul_sum_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[4, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_leaky_relu_mul_sum_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_leaky_relu_mul_sum_2(in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 4 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (16x0)), xmask, other=0.0) tmp1 = tl.load(in_ptr1 + (r1 + (16x0)), xmask, other=0.0) tmp2 = 0.0 tmp3 = tmp1 > tmp2 tmp4 = 0.2 tmp5 = tmp1 * tmp4 tmp6 = tl.where(tmp3, tmp1, tmp5) tmp7 = tmp0 * tmp6 tmp8 = tl.broadcast_to(tmp7, [XBLOCK, RBLOCK]) tmp10 = tl.where(xmask, tmp8, 0) tmp11 = tl.sum(tmp10, 1)[:, None] tl.store(out_ptr0 + (x0), tmp11, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15 = args args.clear() assert_size_stride(primals_1, (4, 1), (1, 1)) assert_size_stride(primals_2, (4, 1), (1, 1)) assert_size_stride(primals_3, (32, 1), (1, 1)) assert_size_stride(primals_4, (32, ), (1, )) assert_size_stride(primals_5, (32, 32), (32, 1)) assert_size_stride(primals_6, (32, ), (1, )) assert_size_stride(primals_7, (16, 32), (32, 1)) assert_size_stride(primals_8, (16, ), (1, )) assert_size_stride(primals_9, (32, 1), (1, 1)) assert_size_stride(primals_10, (32, ), (1, )) assert_size_stride(primals_11, (32, 32), (32, 1)) assert_size_stride(primals_12, (32, ), (1, )) assert_size_stride(primals_13, (16, 32), (32, 1)) assert_size_stride(primals_14, (16, ), (1, )) assert_size_stride(primals_15, (16, 16), (16, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 32), (32, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(primals_1, reinterpret_tensor(primals_3, (1, 32), (1, 1), 0), out=buf0) del primals_3 buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [input_2], Original ATen: [aten.leaky_relu] stream0 = get_raw_stream(0) triton_poi_fused_leaky_relu_0.run(buf1, primals_4, 128, grid=grid(128), stream=stream0) del primals_4 buf2 = empty_strided_cuda((4, 32), (32, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf1, reinterpret_tensor(primals_5, (32, 32), (1, 32), 0), out=buf2) buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [input_4], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_0.run(buf3, primals_6, 128, grid=grid(128), stream=stream0) del primals_6 buf4 = empty_strided_cuda((4, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf3, reinterpret_tensor(primals_7, (32, 16), (1, 32), 0), out=buf4) buf5 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [input_6], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_1.run(buf5, primals_8, 64, grid=grid(64), stream=stream0) del primals_8 buf6 = empty_strided_cuda((4, 32), (32, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(primals_2, reinterpret_tensor(primals_9, (1, 32), (1, 1), 0), out=buf6) del primals_9 buf7 = buf6; del buf6 # reuse # Topologically Sorted Source Nodes: [input_8], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_0.run(buf7, primals_10, 128, grid=grid(128), stream=stream0) del primals_10 buf8 = empty_strided_cuda((4, 32), (32, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf7, reinterpret_tensor(primals_11, (32, 32), (1, 32), 0), out=buf8) buf9 = buf8; del buf8 # reuse # Topologically Sorted Source Nodes: [input_10], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_0.run(buf9, primals_12, 128, grid=grid(128), stream=stream0) del primals_12 buf10 = empty_strided_cuda((4, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [input_11], Original ATen: [aten.addmm] extern_kernels.addmm(primals_14, buf9, reinterpret_tensor(primals_13, (32, 16), (1, 32), 0), alpha=1, beta=1, out=buf10) del primals_14 buf11 = empty_strided_cuda((4, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [mm], Original ATen: [aten.mm] extern_kernels.mm(buf5, primals_15, out=buf11) buf12 = empty_strided_cuda((4, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [input_12, mul, out], Original ATen: [aten.leaky_relu, aten.mul, aten.sum] triton_per_fused_leaky_relu_mul_sum_2.run(buf11, buf10, buf12, 4, 16, grid=grid(4), stream=stream0) return (buf12, primals_2, primals_1, buf1, buf3, buf5, buf7, buf9, buf10, buf11, reinterpret_tensor(primals_15, (16, 16), (1, 16), 0), primals_13, primals_11, primals_7, primals_5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((32, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((32, 32), (32, 1), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((16, 32), (32, 1), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((32, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((32, 32), (32, 1), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((16, 32), (32, 1), device='cuda:0', dtype=torch.float32) primals_14 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_15 = rand_strided((16, 16), (16, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data import torch.nn as nn def add_layer(seq, ix, n_inputs, n_outputs, nonlin, normalization): seq.add_module('L' + str(ix), nn.Linear(n_inputs, n_outputs)) if ix > 0 and normalization: if normalization == 'LN': seq.main.add_module('A' + str(ix), nn.LayerNorm(n_outputs)) else: raise ValueError('Unknown normalization: {}'.format(normalization)) if nonlin == 'LeakyReLU': seq.add_module('N' + str(ix), nn.LeakyReLU(0.2, inplace=True)) elif nonlin == 'ReLU': seq.add_module('N' + str(ix), nn.ReLU(inplace=True)) elif nonlin == 'Sigmoid': seq.add_module('N' + str(ix), nn.Sigmoid()) class D_phiVpsi(nn.Module): def __init__(self, insizes=[1, 1], layerSizes=[[32, 32, 16]] * 2, nonlin='LeakyReLU', normalization=None): super(D_phiVpsi, self).__init__() self.phi_x, self.psi_y = nn.Sequential(), nn.Sequential() for seq, insize, layerSize in [(self.phi_x, insizes[0], layerSizes[ 0]), (self.psi_y, insizes[1], layerSizes[1])]: for ix, n_inputs, n_outputs in zip(range(len(layerSize)), [ insize] + layerSize[:-1], layerSize): add_layer(seq, ix, n_inputs, n_outputs, nonlin, normalization) self.phiD, self.psiD = layerSizes[0][-1], layerSizes[1][-1] self.W = nn.Parameter(torch.randn(self.phiD, self.psiD)) def forward(self, x, y): x = x.view(x.size(0), -1) y = y.view(x.size(0), 1) phi_x = self.phi_x(x) psi_y = self.psi_y(y) out = (torch.mm(phi_x, self.W) * psi_y).sum(1, keepdim=True) return out def get_inputs(): return [torch.rand([4, 1]), torch.rand([4, 1])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.utils.data import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_leaky_relu_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 32 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.2 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(in_out_ptr0 + x2, tmp7, xmask) @triton.jit def triton_poi_fused_leaky_relu_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 16 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.2 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(in_out_ptr0 + x2, tmp7, xmask) @triton.jit def triton_per_fused_leaky_relu_mul_sum_2(in_ptr0, in_ptr1, out_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 4 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp1 = tl.load(in_ptr1 + (r1 + 16 * x0), xmask, other=0.0) tmp2 = 0.0 tmp3 = tmp1 > tmp2 tmp4 = 0.2 tmp5 = tmp1 * tmp4 tmp6 = tl.where(tmp3, tmp1, tmp5) tmp7 = tmp0 * tmp6 tmp8 = tl.broadcast_to(tmp7, [XBLOCK, RBLOCK]) tmp10 = tl.where(xmask, tmp8, 0) tmp11 = tl.sum(tmp10, 1)[:, None] tl.store(out_ptr0 + x0, tmp11, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15) = args args.clear() assert_size_stride(primals_1, (4, 1), (1, 1)) assert_size_stride(primals_2, (4, 1), (1, 1)) assert_size_stride(primals_3, (32, 1), (1, 1)) assert_size_stride(primals_4, (32,), (1,)) assert_size_stride(primals_5, (32, 32), (32, 1)) assert_size_stride(primals_6, (32,), (1,)) assert_size_stride(primals_7, (16, 32), (32, 1)) assert_size_stride(primals_8, (16,), (1,)) assert_size_stride(primals_9, (32, 1), (1, 1)) assert_size_stride(primals_10, (32,), (1,)) assert_size_stride(primals_11, (32, 32), (32, 1)) assert_size_stride(primals_12, (32,), (1,)) assert_size_stride(primals_13, (16, 32), (32, 1)) assert_size_stride(primals_14, (16,), (1,)) assert_size_stride(primals_15, (16, 16), (16, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 32), (32, 1), torch.float32) extern_kernels.mm(primals_1, reinterpret_tensor(primals_3, (1, 32), (1, 1), 0), out=buf0) del primals_3 buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_leaky_relu_0[grid(128)](buf1, primals_4, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_4 buf2 = empty_strided_cuda((4, 32), (32, 1), torch.float32) extern_kernels.mm(buf1, reinterpret_tensor(primals_5, (32, 32), (1, 32), 0), out=buf2) buf3 = buf2 del buf2 triton_poi_fused_leaky_relu_0[grid(128)](buf3, primals_6, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_6 buf4 = empty_strided_cuda((4, 16), (16, 1), torch.float32) extern_kernels.mm(buf3, reinterpret_tensor(primals_7, (32, 16), (1, 32), 0), out=buf4) buf5 = buf4 del buf4 triton_poi_fused_leaky_relu_1[grid(64)](buf5, primals_8, 64, XBLOCK =64, num_warps=1, num_stages=1) del primals_8 buf6 = empty_strided_cuda((4, 32), (32, 1), torch.float32) extern_kernels.mm(primals_2, reinterpret_tensor(primals_9, (1, 32), (1, 1), 0), out=buf6) del primals_9 buf7 = buf6 del buf6 triton_poi_fused_leaky_relu_0[grid(128)](buf7, primals_10, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_10 buf8 = empty_strided_cuda((4, 32), (32, 1), torch.float32) extern_kernels.mm(buf7, reinterpret_tensor(primals_11, (32, 32), (1, 32), 0), out=buf8) buf9 = buf8 del buf8 triton_poi_fused_leaky_relu_0[grid(128)](buf9, primals_12, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_12 buf10 = empty_strided_cuda((4, 16), (16, 1), torch.float32) extern_kernels.addmm(primals_14, buf9, reinterpret_tensor( primals_13, (32, 16), (1, 32), 0), alpha=1, beta=1, out=buf10) del primals_14 buf11 = empty_strided_cuda((4, 16), (16, 1), torch.float32) extern_kernels.mm(buf5, primals_15, out=buf11) buf12 = empty_strided_cuda((4, 1), (1, 1), torch.float32) triton_per_fused_leaky_relu_mul_sum_2[grid(4)](buf11, buf10, buf12, 4, 16, XBLOCK=1, num_warps=2, num_stages=1) return (buf12, primals_2, primals_1, buf1, buf3, buf5, buf7, buf9, buf10, buf11, reinterpret_tensor(primals_15, (16, 16), (1, 16), 0), primals_13, primals_11, primals_7, primals_5) def add_layer(seq, ix, n_inputs, n_outputs, nonlin, normalization): seq.add_module('L' + str(ix), nn.Linear(n_inputs, n_outputs)) if ix > 0 and normalization: if normalization == 'LN': seq.main.add_module('A' + str(ix), nn.LayerNorm(n_outputs)) else: raise ValueError('Unknown normalization: {}'.format(normalization)) if nonlin == 'LeakyReLU': seq.add_module('N' + str(ix), nn.LeakyReLU(0.2, inplace=True)) elif nonlin == 'ReLU': seq.add_module('N' + str(ix), nn.ReLU(inplace=True)) elif nonlin == 'Sigmoid': seq.add_module('N' + str(ix), nn.Sigmoid()) class D_phiVpsiNew(nn.Module): def __init__(self, insizes=[1, 1], layerSizes=[[32, 32, 16]] * 2, nonlin='LeakyReLU', normalization=None): super(D_phiVpsiNew, self).__init__() self.phi_x, self.psi_y = nn.Sequential(), nn.Sequential() for seq, insize, layerSize in [(self.phi_x, insizes[0], layerSizes[ 0]), (self.psi_y, insizes[1], layerSizes[1])]: for ix, n_inputs, n_outputs in zip(range(len(layerSize)), [ insize] + layerSize[:-1], layerSize): add_layer(seq, ix, n_inputs, n_outputs, nonlin, normalization) self.phiD, self.psiD = layerSizes[0][-1], layerSizes[1][-1] self.W = nn.Parameter(torch.randn(self.phiD, self.psiD)) def forward(self, input_0, input_1): primals_15 = self.W primals_3 = self.phi_x.L0.weight primals_4 = self.phi_x.L0.bias primals_5 = self.phi_x.L1.weight primals_6 = self.phi_x.L1.bias primals_7 = self.phi_x.L2.weight primals_8 = self.phi_x.L2.bias primals_9 = self.psi_y.L0.weight primals_10 = self.psi_y.L0.bias primals_11 = self.psi_y.L1.weight primals_12 = self.psi_y.L1.bias primals_13 = self.psi_y.L2.weight primals_14 = self.psi_y.L2.bias primals_1 = input_0 primals_2 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15]) return output[0]	Bhaskers-Blu-Org1/SIC	D_phiVpsi	false	7,775	[ "Apache-2.0" ]	12	c4e45d7736da6e6faabdc56bfc1336445df99204	https://github.com/Bhaskers-Blu-Org1/SIC/tree/c4e45d7736da6e6faabdc56bfc1336445df99204	import torch import torch.utils.data import torch.nn as nn def add_layer(seq, ix, n_inputs, n_outputs, nonlin, normalization): seq.add_module('L' + str(ix), nn.Linear(n_inputs, n_outputs)) if ix > 0 and normalization: if normalization == 'LN': seq.main.add_module('A' + str(ix), nn.LayerNorm(n_outputs)) else: raise ValueError('Unknown normalization: {}'.format(normalization)) if nonlin == 'LeakyReLU': seq.add_module('N' + str(ix), nn.LeakyReLU(0.2, inplace=True)) elif nonlin == 'ReLU': seq.add_module('N' + str(ix), nn.ReLU(inplace=True)) elif nonlin == 'Sigmoid': seq.add_module('N' + str(ix), nn.Sigmoid()) class Model(nn.Module): def __init__(self, insizes=[1, 1], layerSizes=[[32, 32, 16]] * 2, nonlin='LeakyReLU', normalization=None): super().__init__() self.phi_x, self.psi_y = nn.Sequential(), nn.Sequential() for seq, insize, layerSize in [(self.phi_x, insizes[0], layerSizes[ 0]), (self.psi_y, insizes[1], layerSizes[1])]: for ix, n_inputs, n_outputs in zip(range(len(layerSize)), [ insize] + layerSize[:-1], layerSize): add_layer(seq, ix, n_inputs, n_outputs, nonlin, normalization) self.phiD, self.psiD = layerSizes[0][-1], layerSizes[1][-1] self.W = nn.Parameter(torch.randn(self.phiD, self.psiD)) def forward(self, x, y): x = x.view(x.size(0), -1) y = y.view(x.size(0), 1) phi_x = self.phi_x(x) psi_y = self.psi_y(y) out = (torch.mm(phi_x, self.W) * psi_y).sum(1, keepdim=True) return out def get_inputs(): return [torch.rand([4, 1]), torch.rand([4, 1])] def get_init_inputs(): return []
Vgg16	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/xq/cxqxvwhuevcb5oe7gsgfej3rmce7mdc6vqg3mkviccgugis2c7ro.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_0 = async_compile.triton('triton_poi_fused_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 192 xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 3 y1 = (yindex // 3) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (3x2) + (27y1)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/az/cazvf33aclbntgyixs3zlm6bdzs672xtry2xl6pc3l3sjzwrnks5.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_1 = async_compile.triton('triton_poi_fused_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4096], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 12 xnumel = 4096 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, YBLOCK], True, tl.int1) x2 = xindex y3 = yindex y0 = yindex % 3 y1 = (yindex // 3) tmp0 = tl.load(in_ptr0 + (x2 + (4096y3)), ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (3x2) + (12288y1)), tmp0, ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/5o/c5obv3n3z3nigs3ufrll6zerfbkjuaxny47v7qwuboce4vc6t226.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_2 = async_compile.triton('triton_poi_fused_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_2(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 4096 xnumel = 9 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 64 y1 = (yindex // 64) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (64x2) + (576y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/z6/cz6baxmxj4vnpfhcx7vlebdugozcmmuhwadqps4sypq4ddnvvvvh.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_3 = async_compile.triton('triton_poi_fused_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[8192, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_3(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 8192 xnumel = 9 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 64 y1 = (yindex // 64) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (64x2) + (576y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/db/cdb2sjzbytfspypoa6pp2oxhbkctfipulwxnhjr5sqo5qqjfizvu.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_4 = async_compile.triton('triton_poi_fused_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_4(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16384 xnumel = 9 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 128 y1 = (yindex // 128) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (128x2) + (1152y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/gd/cgdnlfwbslhdmfriewbfv2omlx6rnligyuanv24xvvvpftjpu6rp.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_5 = async_compile.triton('triton_poi_fused_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32768, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_5(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 32768 xnumel = 9 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 128 y1 = (yindex // 128) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (128x2) + (1152y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/z4/cz4wj3gfuvykrcxztkqxjno5cjlbaxcfmlbyfebxkzznk7viznxb.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_6 = async_compile.triton('triton_poi_fused_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[65536, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_6', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_6(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 65536 xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) tl.num_programs(1)) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = (yindex // 256) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (256x2) + (2304y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/i6/ci6263jjpb6aa6asa26vhonj4fac7oamux3ss2n4bs2h2mrc3dzu.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_7 = async_compile.triton('triton_poi_fused_7', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[131072, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_7', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_7(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 131072 xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) tl.num_programs(1)) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = (yindex // 256) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (256x2) + (2304y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/dm/cdm3usnxijp2eimatmjyjzygbcn4zxnk7cbq66kqjwpny2xcv5ml.py # Unsorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: triton_poi_fused_8 = async_compile.triton('triton_poi_fused_8', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[262144, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_8', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_8(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 262144 xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) tl.num_programs(1)) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 512 y1 = (yindex // 512) tmp0 = tl.load(in_ptr0 + (x2 + (9y3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (512x2) + (4608y1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/iu/ciuggwowhszeapkrr374n444gg5w3j2pbayfbz23rjhqwlcdlzxy.py # Topologically Sorted Source Nodes: [conv2d, h], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d => convolution # h => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) triton_poi_fused_convolution_relu_9 = async_compile.triton('triton_poi_fused_convolution_relu_9', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1048576], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_9', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_9(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1048576 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/f6/cf6yuts2xpeny3sdcvxdwzh54ogvo3okxkd277zdnc332tnnnug6.py # Topologically Sorted Source Nodes: [h_2], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # h_2 => getitem, getitem_1 # Graph fragment: # %getitem : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 0), kwargs = {}) # %getitem_1 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_10 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_10', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[262144], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_10', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_10(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 262144 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x0 = xindex % 64 x1 = (xindex // 64) % 32 x2 = (xindex // 2048) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (128x1) + (8192x2)), None) tmp1 = tl.load(in_ptr0 + (64 + x0 + (128x1) + (8192x2)), None) tmp3 = tl.load(in_ptr0 + (4096 + x0 + (128x1) + (8192x2)), None) tmp5 = tl.load(in_ptr0 + (4160 + x0 + (128x1) + (8192x2)), None) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x3), tmp6, None) tl.store(out_ptr1 + (x3), tmp16, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/bf/cbftrujbjljzbbrtgihty6r2zkzoksu44tc2r7cgnsuhrto2zfgn.py # Topologically Sorted Source Nodes: [conv2d_2, h_3], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_2 => convolution_2 # h_3 => relu_2 # Graph fragment: # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem, %primals_6, %primals_7, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_2 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_2,), kwargs = {}) triton_poi_fused_convolution_relu_11 = async_compile.triton('triton_poi_fused_convolution_relu_11', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[524288], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_11', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_11(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 524288 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 128 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/t4/ct4javsni4kssy4jxau5iuazbi4hhuwhghbil42d6powel6awa6i.py # Topologically Sorted Source Nodes: [h_5], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # h_5 => getitem_2, getitem_3 # Graph fragment: # %getitem_2 : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_1, 0), kwargs = {}) # %getitem_3 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_1, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_12 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_12', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[131072], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_12', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_12(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 131072 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x0 = xindex % 128 x1 = (xindex // 128) % 16 x2 = (xindex // 2048) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (256x1) + (8192x2)), None) tmp1 = tl.load(in_ptr0 + (128 + x0 + (256x1) + (8192x2)), None) tmp3 = tl.load(in_ptr0 + (4096 + x0 + (256x1) + (8192x2)), None) tmp5 = tl.load(in_ptr0 + (4224 + x0 + (256x1) + (8192x2)), None) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x3), tmp6, None) tl.store(out_ptr1 + (x3), tmp16, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/uv/cuv7up5cmdteul6mmws7brrmq46a72ailw3kt7jkbjo67mhgxnrs.py # Topologically Sorted Source Nodes: [conv2d_4, h_6], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_4 => convolution_4 # h_6 => relu_4 # Graph fragment: # %convolution_4 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem_2, %primals_10, %primals_11, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_4 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_4,), kwargs = {}) triton_poi_fused_convolution_relu_13 = async_compile.triton('triton_poi_fused_convolution_relu_13', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[262144], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_13', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_13(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 262144 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 256 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/z3/cz3joiuzocjcwjdxi4w3kl7g4bmzrfy4n2u3vrqzq5txkuzj2qem.py # Topologically Sorted Source Nodes: [h_9], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # h_9 => getitem_4, getitem_5 # Graph fragment: # %getitem_4 : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_2, 0), kwargs = {}) # %getitem_5 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_2, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_14 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_14', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[65536], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_14', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_14(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 65536 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x0 = xindex % 256 x1 = (xindex // 256) % 8 x2 = (xindex // 2048) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (512x1) + (8192x2)), None) tmp1 = tl.load(in_ptr0 + (256 + x0 + (512x1) + (8192x2)), None) tmp3 = tl.load(in_ptr0 + (4096 + x0 + (512x1) + (8192x2)), None) tmp5 = tl.load(in_ptr0 + (4352 + x0 + (512x1) + (8192x2)), None) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x3), tmp6, None) tl.store(out_ptr1 + (x3), tmp16, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/lu/clupabyhtajgfkjqy3epptdrqh4fchjjboygodtltwxqaoeo5fqx.py # Topologically Sorted Source Nodes: [conv2d_7, h_10], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_7 => convolution_7 # h_10 => relu_7 # Graph fragment: # %convolution_7 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem_4, %primals_16, %primals_17, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_7 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_7,), kwargs = {}) triton_poi_fused_convolution_relu_15 = async_compile.triton('triton_poi_fused_convolution_relu_15', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[131072], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_15', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_15(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 131072 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 512 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/yq/cyqkvgkhgli4gttiujmpaegbgldoryfocguvcbn2kxt2jfmdn3xs.py # Topologically Sorted Source Nodes: [conv2d_12, h_15], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # conv2d_12 => convolution_12 # h_15 => relu_12 # Graph fragment: # %convolution_12 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_11, %primals_26, %primals_27, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_12 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_12,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_12, 0), kwargs = {}) triton_poi_fused_convolution_relu_threshold_backward_16 = async_compile.triton('triton_poi_fused_convolution_relu_threshold_backward_16', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[2048, 64], tile_hint=TileHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i1', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_threshold_backward_16', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_threshold_backward_16(in_ptr0, in_ptr1, out_ptr0, out_ptr1, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 2048 xnumel = 64 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 512 y1 = (yindex // 512) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (512x2) + (32768y1)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (y0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1, 1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(out_ptr0 + (x2 + (64y3)), tmp4, xmask) tl.store(out_ptr1 + (y0 + (512x2) + (32768*y1)), tmp6, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19, primals_20, primals_21, primals_22, primals_23, primals_24, primals_25, primals_26, primals_27 = args args.clear() assert_size_stride(primals_1, (64, 3, 3, 3), (27, 9, 3, 1)) assert_size_stride(primals_2, (64, ), (1, )) assert_size_stride(primals_3, (4, 3, 64, 64), (12288, 4096, 64, 1)) assert_size_stride(primals_4, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64, ), (1, )) assert_size_stride(primals_6, (128, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_7, (128, ), (1, )) assert_size_stride(primals_8, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_9, (128, ), (1, )) assert_size_stride(primals_10, (256, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_11, (256, ), (1, )) assert_size_stride(primals_12, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_13, (256, ), (1, )) assert_size_stride(primals_14, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_15, (256, ), (1, )) assert_size_stride(primals_16, (512, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_17, (512, ), (1, )) assert_size_stride(primals_18, (512, 512, 3, 3), (4608, 9, 3, 1)) assert_size_stride(primals_19, (512, ), (1, )) assert_size_stride(primals_20, (512, 512, 3, 3), (4608, 9, 3, 1)) assert_size_stride(primals_21, (512, ), (1, )) assert_size_stride(primals_22, (512, 512, 3, 3), (4608, 9, 3, 1)) assert_size_stride(primals_23, (512, ), (1, )) assert_size_stride(primals_24, (512, 512, 3, 3), (4608, 9, 3, 1)) assert_size_stride(primals_25, (512, ), (1, )) assert_size_stride(primals_26, (512, 512, 3, 3), (4608, 9, 3, 1)) assert_size_stride(primals_27, (512, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 3, 3, 3), (27, 1, 9, 3), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] stream0 = get_raw_stream(0) triton_poi_fused_0.run(primals_1, buf0, 192, 9, grid=grid(192, 9), stream=stream0) del primals_1 buf1 = empty_strided_cuda((4, 3, 64, 64), (12288, 1, 192, 3), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_1.run(primals_3, buf1, 12, 4096, grid=grid(12, 4096), stream=stream0) del primals_3 buf2 = empty_strided_cuda((64, 64, 3, 3), (576, 1, 192, 64), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(primals_4, buf2, 4096, 9, grid=grid(4096, 9), stream=stream0) del primals_4 buf3 = empty_strided_cuda((128, 64, 3, 3), (576, 1, 192, 64), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_3.run(primals_6, buf3, 8192, 9, grid=grid(8192, 9), stream=stream0) del primals_6 buf4 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_4.run(primals_8, buf4, 16384, 9, grid=grid(16384, 9), stream=stream0) del primals_8 buf5 = empty_strided_cuda((256, 128, 3, 3), (1152, 1, 384, 128), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_5.run(primals_10, buf5, 32768, 9, grid=grid(32768, 9), stream=stream0) del primals_10 buf6 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_6.run(primals_12, buf6, 65536, 9, grid=grid(65536, 9), stream=stream0) del primals_12 buf7 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_6.run(primals_14, buf7, 65536, 9, grid=grid(65536, 9), stream=stream0) del primals_14 buf8 = empty_strided_cuda((512, 256, 3, 3), (2304, 1, 768, 256), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_7.run(primals_16, buf8, 131072, 9, grid=grid(131072, 9), stream=stream0) del primals_16 buf9 = empty_strided_cuda((512, 512, 3, 3), (4608, 1, 1536, 512), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_8.run(primals_18, buf9, 262144, 9, grid=grid(262144, 9), stream=stream0) del primals_18 buf10 = empty_strided_cuda((512, 512, 3, 3), (4608, 1, 1536, 512), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_8.run(primals_20, buf10, 262144, 9, grid=grid(262144, 9), stream=stream0) del primals_20 buf11 = empty_strided_cuda((512, 512, 3, 3), (4608, 1, 1536, 512), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_8.run(primals_22, buf11, 262144, 9, grid=grid(262144, 9), stream=stream0) del primals_22 buf12 = empty_strided_cuda((512, 512, 3, 3), (4608, 1, 1536, 512), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_8.run(primals_24, buf12, 262144, 9, grid=grid(262144, 9), stream=stream0) del primals_24 buf13 = empty_strided_cuda((512, 512, 3, 3), (4608, 1, 1536, 512), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_8.run(primals_26, buf13, 262144, 9, grid=grid(262144, 9), stream=stream0) del primals_26 # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf14 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf14, (4, 64, 64, 64), (262144, 1, 4096, 64)) buf15 = buf14; del buf14 # reuse # Topologically Sorted Source Nodes: [conv2d, h], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_9.run(buf15, primals_2, 1048576, grid=grid(1048576), stream=stream0) del primals_2 # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf16 = extern_kernels.convolution(buf15, buf2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf16, (4, 64, 64, 64), (262144, 1, 4096, 64)) buf17 = buf16; del buf16 # reuse # Topologically Sorted Source Nodes: [conv2d_1, h_1], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_9.run(buf17, primals_5, 1048576, grid=grid(1048576), stream=stream0) del primals_5 buf18 = empty_strided_cuda((4, 64, 32, 32), (65536, 1, 2048, 64), torch.float32) buf19 = empty_strided_cuda((4, 64, 32, 32), (65536, 1, 2048, 64), torch.int8) # Topologically Sorted Source Nodes: [h_2], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_10.run(buf17, buf18, buf19, 262144, grid=grid(262144), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_2], Original ATen: [aten.convolution] buf20 = extern_kernels.convolution(buf18, buf3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf20, (4, 128, 32, 32), (131072, 1, 4096, 128)) buf21 = buf20; del buf20 # reuse # Topologically Sorted Source Nodes: [conv2d_2, h_3], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_11.run(buf21, primals_7, 524288, grid=grid(524288), stream=stream0) del primals_7 # Topologically Sorted Source Nodes: [conv2d_3], Original ATen: [aten.convolution] buf22 = extern_kernels.convolution(buf21, buf4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf22, (4, 128, 32, 32), (131072, 1, 4096, 128)) buf23 = buf22; del buf22 # reuse # Topologically Sorted Source Nodes: [conv2d_3, h_4], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_11.run(buf23, primals_9, 524288, grid=grid(524288), stream=stream0) del primals_9 buf24 = empty_strided_cuda((4, 128, 16, 16), (32768, 1, 2048, 128), torch.float32) buf25 = empty_strided_cuda((4, 128, 16, 16), (32768, 1, 2048, 128), torch.int8) # Topologically Sorted Source Nodes: [h_5], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_12.run(buf23, buf24, buf25, 131072, grid=grid(131072), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_4], Original ATen: [aten.convolution] buf26 = extern_kernels.convolution(buf24, buf5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf26, (4, 256, 16, 16), (65536, 1, 4096, 256)) buf27 = buf26; del buf26 # reuse # Topologically Sorted Source Nodes: [conv2d_4, h_6], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_13.run(buf27, primals_11, 262144, grid=grid(262144), stream=stream0) del primals_11 # Topologically Sorted Source Nodes: [conv2d_5], Original ATen: [aten.convolution] buf28 = extern_kernels.convolution(buf27, buf6, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf28, (4, 256, 16, 16), (65536, 1, 4096, 256)) buf29 = buf28; del buf28 # reuse # Topologically Sorted Source Nodes: [conv2d_5, h_7], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_13.run(buf29, primals_13, 262144, grid=grid(262144), stream=stream0) del primals_13 # Topologically Sorted Source Nodes: [conv2d_6], Original ATen: [aten.convolution] buf30 = extern_kernels.convolution(buf29, buf7, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf30, (4, 256, 16, 16), (65536, 1, 4096, 256)) buf31 = buf30; del buf30 # reuse # Topologically Sorted Source Nodes: [conv2d_6, h_8], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_13.run(buf31, primals_15, 262144, grid=grid(262144), stream=stream0) del primals_15 buf32 = empty_strided_cuda((4, 256, 8, 8), (16384, 1, 2048, 256), torch.float32) buf33 = empty_strided_cuda((4, 256, 8, 8), (16384, 1, 2048, 256), torch.int8) # Topologically Sorted Source Nodes: [h_9], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_14.run(buf31, buf32, buf33, 65536, grid=grid(65536), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_7], Original ATen: [aten.convolution] buf34 = extern_kernels.convolution(buf32, buf8, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf34, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf35 = buf34; del buf34 # reuse # Topologically Sorted Source Nodes: [conv2d_7, h_10], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_15.run(buf35, primals_17, 131072, grid=grid(131072), stream=stream0) del primals_17 # Topologically Sorted Source Nodes: [conv2d_8], Original ATen: [aten.convolution] buf36 = extern_kernels.convolution(buf35, buf9, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf36, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf37 = buf36; del buf36 # reuse # Topologically Sorted Source Nodes: [conv2d_8, h_11], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_15.run(buf37, primals_19, 131072, grid=grid(131072), stream=stream0) del primals_19 # Topologically Sorted Source Nodes: [conv2d_9], Original ATen: [aten.convolution] buf38 = extern_kernels.convolution(buf37, buf10, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf38, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf39 = buf38; del buf38 # reuse # Topologically Sorted Source Nodes: [conv2d_9, h_12], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_15.run(buf39, primals_21, 131072, grid=grid(131072), stream=stream0) del primals_21 # Topologically Sorted Source Nodes: [conv2d_10], Original ATen: [aten.convolution] buf40 = extern_kernels.convolution(buf39, buf11, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf40, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf41 = buf40; del buf40 # reuse # Topologically Sorted Source Nodes: [conv2d_10, h_13], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_15.run(buf41, primals_23, 131072, grid=grid(131072), stream=stream0) del primals_23 # Topologically Sorted Source Nodes: [conv2d_11], Original ATen: [aten.convolution] buf42 = extern_kernels.convolution(buf41, buf12, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf42, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf43 = buf42; del buf42 # reuse # Topologically Sorted Source Nodes: [conv2d_11, h_14], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_15.run(buf43, primals_25, 131072, grid=grid(131072), stream=stream0) del primals_25 # Topologically Sorted Source Nodes: [conv2d_12], Original ATen: [aten.convolution] buf44 = extern_kernels.convolution(buf43, buf13, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf44, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf45 = empty_strided_cuda((4, 512, 8, 8), (32768, 64, 8, 1), torch.float32) buf46 = empty_strided_cuda((4, 512, 8, 8), (32768, 1, 4096, 512), torch.bool) # Topologically Sorted Source Nodes: [conv2d_12, h_15], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] triton_poi_fused_convolution_relu_threshold_backward_16.run(buf44, primals_27, buf45, buf46, 2048, 64, grid=grid(2048, 64), stream=stream0) del buf44 del primals_27 return (buf45, buf0, buf1, buf2, buf3, buf4, buf5, buf6, buf7, buf8, buf9, buf10, buf11, buf12, buf13, buf15, buf17, buf18, buf19, buf21, buf23, buf24, buf25, buf27, buf29, buf31, buf32, buf33, buf35, buf37, buf39, buf41, buf43, buf46, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((64, 3, 3, 3), (27, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 3, 64, 64), (12288, 4096, 64, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((64, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((128, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((128, 128, 3, 3), (1152, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((256, 128, 3, 3), (1152, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((256, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_14 = rand_strided((256, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_15 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_16 = rand_strided((512, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_17 = rand_strided((512, ), (1, ), device='cuda:0', dtype=torch.float32) primals_18 = rand_strided((512, 512, 3, 3), (4608, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_19 = rand_strided((512, ), (1, ), device='cuda:0', dtype=torch.float32) primals_20 = rand_strided((512, 512, 3, 3), (4608, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_21 = rand_strided((512, ), (1, ), device='cuda:0', dtype=torch.float32) primals_22 = rand_strided((512, 512, 3, 3), (4608, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_23 = rand_strided((512, ), (1, ), device='cuda:0', dtype=torch.float32) primals_24 = rand_strided((512, 512, 3, 3), (4608, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_25 = rand_strided((512, ), (1, ), device='cuda:0', dtype=torch.float32) primals_26 = rand_strided((512, 512, 3, 3), (4608, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_27 = rand_strided((512, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19, primals_20, primals_21, primals_22, primals_23, primals_24, primals_25, primals_26, primals_27]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F import torch.utils.data class Vgg16(nn.Module): def __init__(self): super(Vgg16, self).__init__() self.conv1_1 = nn.Conv2d(3, 64, kernel_size=3, stride=1, padding=1) self.conv1_2 = nn.Conv2d(64, 64, kernel_size=3, stride=1, padding=1) self.conv2_1 = nn.Conv2d(64, 128, kernel_size=3, stride=1, padding=1) self.conv2_2 = nn.Conv2d(128, 128, kernel_size=3, stride=1, padding=1) self.conv3_1 = nn.Conv2d(128, 256, kernel_size=3, stride=1, padding=1) self.conv3_2 = nn.Conv2d(256, 256, kernel_size=3, stride=1, padding=1) self.conv3_3 = nn.Conv2d(256, 256, kernel_size=3, stride=1, padding=1) self.conv4_1 = nn.Conv2d(256, 512, kernel_size=3, stride=1, padding=1) self.conv4_2 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv4_3 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv5_1 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv5_2 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv5_3 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) def forward(self, X): h = F.relu(self.conv1_1(X), inplace=True) h = F.relu(self.conv1_2(h), inplace=True) h = F.max_pool2d(h, kernel_size=2, stride=2) h = F.relu(self.conv2_1(h), inplace=True) h = F.relu(self.conv2_2(h), inplace=True) h = F.max_pool2d(h, kernel_size=2, stride=2) h = F.relu(self.conv3_1(h), inplace=True) h = F.relu(self.conv3_2(h), inplace=True) h = F.relu(self.conv3_3(h), inplace=True) h = F.max_pool2d(h, kernel_size=2, stride=2) h = F.relu(self.conv4_1(h), inplace=True) h = F.relu(self.conv4_2(h), inplace=True) h = F.relu(self.conv4_3(h), inplace=True) h = F.relu(self.conv5_1(h), inplace=True) h = F.relu(self.conv5_2(h), inplace=True) h = F.relu(self.conv5_3(h), inplace=True) relu5_3 = h return relu5_3 def get_inputs(): return [torch.rand([4, 3, 64, 64])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 192 xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 3 y1 = yindex // 3 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask & ymask, eviction_policy= 'evict_last') tl.store(out_ptr0 + (y0 + 3 * x2 + 27 * y1), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 12 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, YBLOCK], True, tl.int1) x2 = xindex y3 = yindex y0 = yindex % 3 y1 = yindex // 3 tmp0 = tl.load(in_ptr0 + (x2 + 4096 * y3), ymask, eviction_policy= 'evict_last') tl.store(out_ptr0 + (y0 + 3 * x2 + 12288 * y1), tmp0, ymask) @triton.jit def triton_poi_fused_2(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 64 y1 = yindex // 64 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 64 * x2 + 576 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_3(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 64 y1 = yindex // 64 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 64 * x2 + 576 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_4(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 128 y1 = yindex // 128 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 128 * x2 + 1152 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_5(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 128 y1 = yindex // 128 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 128 * x2 + 1152 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_6(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) * tl.num_programs(1) ) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = yindex // 256 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 256 * x2 + 2304 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_7(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) * tl.num_programs(1) ) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 256 y1 = yindex // 256 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 256 * x2 + 2304 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_8(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): xnumel = 9 yoffset = (tl.program_id(1) + tl.program_id(2) * tl.num_programs(1) ) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y3 = yindex y0 = yindex % 512 y1 = yindex // 512 tmp0 = tl.load(in_ptr0 + (x2 + 9 * y3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + (y0 + 512 * x2 + 4608 * y1), tmp0, xmask) @triton.jit def triton_poi_fused_convolution_relu_9(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, None) @triton.jit def triton_poi_fused_max_pool2d_with_indices_10(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x0 = xindex % 64 x1 = xindex // 64 % 32 x2 = xindex // 2048 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 128 * x1 + 8192 * x2), None) tmp1 = tl.load(in_ptr0 + (64 + x0 + 128 * x1 + 8192 * x2), None) tmp3 = tl.load(in_ptr0 + (4096 + x0 + 128 * x1 + 8192 * x2), None) tmp5 = tl.load(in_ptr0 + (4160 + x0 + 128 * x1 + 8192 * x2), None) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + x3, tmp6, None) tl.store(out_ptr1 + x3, tmp16, None) @triton.jit def triton_poi_fused_convolution_relu_11(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 128 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, None) @triton.jit def triton_poi_fused_max_pool2d_with_indices_12(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x0 = xindex % 128 x1 = xindex // 128 % 16 x2 = xindex // 2048 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 256 * x1 + 8192 * x2), None) tmp1 = tl.load(in_ptr0 + (128 + x0 + 256 * x1 + 8192 * x2), None) tmp3 = tl.load(in_ptr0 + (4096 + x0 + 256 * x1 + 8192 * x2), None) tmp5 = tl.load(in_ptr0 + (4224 + x0 + 256 * x1 + 8192 * x2), None) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + x3, tmp6, None) tl.store(out_ptr1 + x3, tmp16, None) @triton.jit def triton_poi_fused_convolution_relu_13(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 256 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, None) @triton.jit def triton_poi_fused_max_pool2d_with_indices_14(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x0 = xindex % 256 x1 = xindex // 256 % 8 x2 = xindex // 2048 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 512 * x1 + 8192 * x2), None) tmp1 = tl.load(in_ptr0 + (256 + x0 + 512 * x1 + 8192 * x2), None) tmp3 = tl.load(in_ptr0 + (4096 + x0 + 512 * x1 + 8192 * x2), None) tmp5 = tl.load(in_ptr0 + (4352 + x0 + 512 * x1 + 8192 * x2), None) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + x3, tmp6, None) tl.store(out_ptr1 + x3, tmp16, None) @triton.jit def triton_poi_fused_convolution_relu_15(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 512 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, None) @triton.jit def triton_poi_fused_convolution_relu_threshold_backward_16(in_ptr0, in_ptr1, out_ptr0, out_ptr1, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): xnumel = 64 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] tl.full([XBLOCK, YBLOCK], True, tl.int1) xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 512 y1 = yindex // 512 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 512 * x2 + 32768 * y1), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + y0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1, 1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(out_ptr0 + (x2 + 64 * y3), tmp4, xmask) tl.store(out_ptr1 + (y0 + 512 * x2 + 32768 * y1), tmp6, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19, primals_20, primals_21, primals_22, primals_23, primals_24, primals_25, primals_26, primals_27) = args args.clear() assert_size_stride(primals_1, (64, 3, 3, 3), (27, 9, 3, 1)) assert_size_stride(primals_2, (64,), (1,)) assert_size_stride(primals_3, (4, 3, 64, 64), (12288, 4096, 64, 1)) assert_size_stride(primals_4, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64,), (1,)) assert_size_stride(primals_6, (128, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_7, (128,), (1,)) assert_size_stride(primals_8, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_9, (128,), (1,)) assert_size_stride(primals_10, (256, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_11, (256,), (1,)) assert_size_stride(primals_12, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_13, (256,), (1,)) assert_size_stride(primals_14, (256, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_15, (256,), (1,)) assert_size_stride(primals_16, (512, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_17, (512,), (1,)) assert_size_stride(primals_18, (512, 512, 3, 3), (4608, 9, 3, 1)) assert_size_stride(primals_19, (512,), (1,)) assert_size_stride(primals_20, (512, 512, 3, 3), (4608, 9, 3, 1)) assert_size_stride(primals_21, (512,), (1,)) assert_size_stride(primals_22, (512, 512, 3, 3), (4608, 9, 3, 1)) assert_size_stride(primals_23, (512,), (1,)) assert_size_stride(primals_24, (512, 512, 3, 3), (4608, 9, 3, 1)) assert_size_stride(primals_25, (512,), (1,)) assert_size_stride(primals_26, (512, 512, 3, 3), (4608, 9, 3, 1)) assert_size_stride(primals_27, (512,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 3, 3, 3), (27, 1, 9, 3), torch.float32) get_raw_stream(0) triton_poi_fused_0[grid(192, 9)](primals_1, buf0, 192, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_1 buf1 = empty_strided_cuda((4, 3, 64, 64), (12288, 1, 192, 3), torch .float32) triton_poi_fused_1[grid(12, 4096)](primals_3, buf1, 12, 4096, XBLOCK=64, YBLOCK=16, num_warps=4, num_stages=1) del primals_3 buf2 = empty_strided_cuda((64, 64, 3, 3), (576, 1, 192, 64), torch. float32) triton_poi_fused_2[grid(4096, 9)](primals_4, buf2, 4096, 9, XBLOCK= 16, YBLOCK=64, num_warps=4, num_stages=1) del primals_4 buf3 = empty_strided_cuda((128, 64, 3, 3), (576, 1, 192, 64), torch .float32) triton_poi_fused_3[grid(8192, 9)](primals_6, buf3, 8192, 9, XBLOCK= 16, YBLOCK=64, num_warps=4, num_stages=1) del primals_6 buf4 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) triton_poi_fused_4[grid(16384, 9)](primals_8, buf4, 16384, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_8 buf5 = empty_strided_cuda((256, 128, 3, 3), (1152, 1, 384, 128), torch.float32) triton_poi_fused_5[grid(32768, 9)](primals_10, buf5, 32768, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_10 buf6 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) triton_poi_fused_6[grid(65536, 9)](primals_12, buf6, 65536, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_12 buf7 = empty_strided_cuda((256, 256, 3, 3), (2304, 1, 768, 256), torch.float32) triton_poi_fused_6[grid(65536, 9)](primals_14, buf7, 65536, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_14 buf8 = empty_strided_cuda((512, 256, 3, 3), (2304, 1, 768, 256), torch.float32) triton_poi_fused_7[grid(131072, 9)](primals_16, buf8, 131072, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_16 buf9 = empty_strided_cuda((512, 512, 3, 3), (4608, 1, 1536, 512), torch.float32) triton_poi_fused_8[grid(262144, 9)](primals_18, buf9, 262144, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_18 buf10 = empty_strided_cuda((512, 512, 3, 3), (4608, 1, 1536, 512), torch.float32) triton_poi_fused_8[grid(262144, 9)](primals_20, buf10, 262144, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_20 buf11 = empty_strided_cuda((512, 512, 3, 3), (4608, 1, 1536, 512), torch.float32) triton_poi_fused_8[grid(262144, 9)](primals_22, buf11, 262144, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_22 buf12 = empty_strided_cuda((512, 512, 3, 3), (4608, 1, 1536, 512), torch.float32) triton_poi_fused_8[grid(262144, 9)](primals_24, buf12, 262144, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_24 buf13 = empty_strided_cuda((512, 512, 3, 3), (4608, 1, 1536, 512), torch.float32) triton_poi_fused_8[grid(262144, 9)](primals_26, buf13, 262144, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_26 buf14 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf14, (4, 64, 64, 64), (262144, 1, 4096, 64)) buf15 = buf14 del buf14 triton_poi_fused_convolution_relu_9[grid(1048576)](buf15, primals_2, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_2 buf16 = extern_kernels.convolution(buf15, buf2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf16, (4, 64, 64, 64), (262144, 1, 4096, 64)) buf17 = buf16 del buf16 triton_poi_fused_convolution_relu_9[grid(1048576)](buf17, primals_5, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_5 buf18 = empty_strided_cuda((4, 64, 32, 32), (65536, 1, 2048, 64), torch.float32) buf19 = empty_strided_cuda((4, 64, 32, 32), (65536, 1, 2048, 64), torch.int8) triton_poi_fused_max_pool2d_with_indices_10[grid(262144)](buf17, buf18, buf19, 262144, XBLOCK=512, num_warps=8, num_stages=1) buf20 = extern_kernels.convolution(buf18, buf3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf20, (4, 128, 32, 32), (131072, 1, 4096, 128)) buf21 = buf20 del buf20 triton_poi_fused_convolution_relu_11[grid(524288)](buf21, primals_7, 524288, XBLOCK=1024, num_warps=4, num_stages=1) del primals_7 buf22 = extern_kernels.convolution(buf21, buf4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf22, (4, 128, 32, 32), (131072, 1, 4096, 128)) buf23 = buf22 del buf22 triton_poi_fused_convolution_relu_11[grid(524288)](buf23, primals_9, 524288, XBLOCK=1024, num_warps=4, num_stages=1) del primals_9 buf24 = empty_strided_cuda((4, 128, 16, 16), (32768, 1, 2048, 128), torch.float32) buf25 = empty_strided_cuda((4, 128, 16, 16), (32768, 1, 2048, 128), torch.int8) triton_poi_fused_max_pool2d_with_indices_12[grid(131072)](buf23, buf24, buf25, 131072, XBLOCK=512, num_warps=8, num_stages=1) buf26 = extern_kernels.convolution(buf24, buf5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf26, (4, 256, 16, 16), (65536, 1, 4096, 256)) buf27 = buf26 del buf26 triton_poi_fused_convolution_relu_13[grid(262144)](buf27, primals_11, 262144, XBLOCK=1024, num_warps=4, num_stages=1) del primals_11 buf28 = extern_kernels.convolution(buf27, buf6, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf28, (4, 256, 16, 16), (65536, 1, 4096, 256)) buf29 = buf28 del buf28 triton_poi_fused_convolution_relu_13[grid(262144)](buf29, primals_13, 262144, XBLOCK=1024, num_warps=4, num_stages=1) del primals_13 buf30 = extern_kernels.convolution(buf29, buf7, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf30, (4, 256, 16, 16), (65536, 1, 4096, 256)) buf31 = buf30 del buf30 triton_poi_fused_convolution_relu_13[grid(262144)](buf31, primals_15, 262144, XBLOCK=1024, num_warps=4, num_stages=1) del primals_15 buf32 = empty_strided_cuda((4, 256, 8, 8), (16384, 1, 2048, 256), torch.float32) buf33 = empty_strided_cuda((4, 256, 8, 8), (16384, 1, 2048, 256), torch.int8) triton_poi_fused_max_pool2d_with_indices_14[grid(65536)](buf31, buf32, buf33, 65536, XBLOCK=512, num_warps=4, num_stages=1) buf34 = extern_kernels.convolution(buf32, buf8, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf34, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf35 = buf34 del buf34 triton_poi_fused_convolution_relu_15[grid(131072)](buf35, primals_17, 131072, XBLOCK=512, num_warps=8, num_stages=1) del primals_17 buf36 = extern_kernels.convolution(buf35, buf9, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf36, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf37 = buf36 del buf36 triton_poi_fused_convolution_relu_15[grid(131072)](buf37, primals_19, 131072, XBLOCK=512, num_warps=8, num_stages=1) del primals_19 buf38 = extern_kernels.convolution(buf37, buf10, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf38, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf39 = buf38 del buf38 triton_poi_fused_convolution_relu_15[grid(131072)](buf39, primals_21, 131072, XBLOCK=512, num_warps=8, num_stages=1) del primals_21 buf40 = extern_kernels.convolution(buf39, buf11, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf40, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf41 = buf40 del buf40 triton_poi_fused_convolution_relu_15[grid(131072)](buf41, primals_23, 131072, XBLOCK=512, num_warps=8, num_stages=1) del primals_23 buf42 = extern_kernels.convolution(buf41, buf12, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf42, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf43 = buf42 del buf42 triton_poi_fused_convolution_relu_15[grid(131072)](buf43, primals_25, 131072, XBLOCK=512, num_warps=8, num_stages=1) del primals_25 buf44 = extern_kernels.convolution(buf43, buf13, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf44, (4, 512, 8, 8), (32768, 1, 4096, 512)) buf45 = empty_strided_cuda((4, 512, 8, 8), (32768, 64, 8, 1), torch .float32) buf46 = empty_strided_cuda((4, 512, 8, 8), (32768, 1, 4096, 512), torch.bool) triton_poi_fused_convolution_relu_threshold_backward_16[grid(2048, 64) ](buf44, primals_27, buf45, buf46, 2048, 64, XBLOCK=32, YBLOCK= 32, num_warps=4, num_stages=1) del buf44 del primals_27 return (buf45, buf0, buf1, buf2, buf3, buf4, buf5, buf6, buf7, buf8, buf9, buf10, buf11, buf12, buf13, buf15, buf17, buf18, buf19, buf21, buf23, buf24, buf25, buf27, buf29, buf31, buf32, buf33, buf35, buf37, buf39, buf41, buf43, buf46) class Vgg16New(nn.Module): def __init__(self): super(Vgg16New, self).__init__() self.conv1_1 = nn.Conv2d(3, 64, kernel_size=3, stride=1, padding=1) self.conv1_2 = nn.Conv2d(64, 64, kernel_size=3, stride=1, padding=1) self.conv2_1 = nn.Conv2d(64, 128, kernel_size=3, stride=1, padding=1) self.conv2_2 = nn.Conv2d(128, 128, kernel_size=3, stride=1, padding=1) self.conv3_1 = nn.Conv2d(128, 256, kernel_size=3, stride=1, padding=1) self.conv3_2 = nn.Conv2d(256, 256, kernel_size=3, stride=1, padding=1) self.conv3_3 = nn.Conv2d(256, 256, kernel_size=3, stride=1, padding=1) self.conv4_1 = nn.Conv2d(256, 512, kernel_size=3, stride=1, padding=1) self.conv4_2 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv4_3 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv5_1 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv5_2 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv5_3 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) def forward(self, input_0): primals_1 = self.conv1_1.weight primals_2 = self.conv1_1.bias primals_4 = self.conv1_2.weight primals_5 = self.conv1_2.bias primals_6 = self.conv2_1.weight primals_7 = self.conv2_1.bias primals_8 = self.conv2_2.weight primals_9 = self.conv2_2.bias primals_10 = self.conv3_1.weight primals_11 = self.conv3_1.bias primals_12 = self.conv3_2.weight primals_13 = self.conv3_2.bias primals_14 = self.conv3_3.weight primals_15 = self.conv3_3.bias primals_16 = self.conv4_1.weight primals_17 = self.conv4_1.bias primals_18 = self.conv4_2.weight primals_19 = self.conv4_2.bias primals_20 = self.conv4_3.weight primals_21 = self.conv4_3.bias primals_22 = self.conv5_1.weight primals_23 = self.conv5_1.bias primals_24 = self.conv5_2.weight primals_25 = self.conv5_2.bias primals_26 = self.conv5_3.weight primals_27 = self.conv5_3.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13, primals_14, primals_15, primals_16, primals_17, primals_18, primals_19, primals_20, primals_21, primals_22, primals_23, primals_24, primals_25, primals_26, primals_27]) return output[0]	AllenPu/mbdg	Vgg16	false	7,776	[ "MIT" ]	27	243f53a57dcf4bfb6e717c0c9f64a839cff8d548	https://github.com/AllenPu/mbdg/tree/243f53a57dcf4bfb6e717c0c9f64a839cff8d548	import torch import torch.nn as nn import torch.nn.functional as F import torch.utils.data class Model(nn.Module): def __init__(self): super().__init__() self.conv1_1 = nn.Conv2d(3, 64, kernel_size=3, stride=1, padding=1) self.conv1_2 = nn.Conv2d(64, 64, kernel_size=3, stride=1, padding=1) self.conv2_1 = nn.Conv2d(64, 128, kernel_size=3, stride=1, padding=1) self.conv2_2 = nn.Conv2d(128, 128, kernel_size=3, stride=1, padding=1) self.conv3_1 = nn.Conv2d(128, 256, kernel_size=3, stride=1, padding=1) self.conv3_2 = nn.Conv2d(256, 256, kernel_size=3, stride=1, padding=1) self.conv3_3 = nn.Conv2d(256, 256, kernel_size=3, stride=1, padding=1) self.conv4_1 = nn.Conv2d(256, 512, kernel_size=3, stride=1, padding=1) self.conv4_2 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv4_3 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv5_1 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv5_2 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) self.conv5_3 = nn.Conv2d(512, 512, kernel_size=3, stride=1, padding=1) def forward(self, X): h = F.relu(self.conv1_1(X), inplace=True) h = F.relu(self.conv1_2(h), inplace=True) h = F.max_pool2d(h, kernel_size=2, stride=2) h = F.relu(self.conv2_1(h), inplace=True) h = F.relu(self.conv2_2(h), inplace=True) h = F.max_pool2d(h, kernel_size=2, stride=2) h = F.relu(self.conv3_1(h), inplace=True) h = F.relu(self.conv3_2(h), inplace=True) h = F.relu(self.conv3_3(h), inplace=True) h = F.max_pool2d(h, kernel_size=2, stride=2) h = F.relu(self.conv4_1(h), inplace=True) h = F.relu(self.conv4_2(h), inplace=True) h = F.relu(self.conv4_3(h), inplace=True) h = F.relu(self.conv5_1(h), inplace=True) h = F.relu(self.conv5_2(h), inplace=True) h = F.relu(self.conv5_3(h), inplace=True) relu5_3 = h return relu5_3 def get_inputs(): return [torch.rand([4, 3, 64, 64])] def get_init_inputs(): return []
BaseFactorizationMachine	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/mm/cmmvfatsrnrovb6umwedndqz5fzv4tcjzm2dl4jwwih3ae3nitvt.py # Topologically Sorted Source Nodes: [sum_1, square_of_sum, pow_2, sum_of_square, output, output_1, output_2], Original ATen: [aten.sum, aten.pow, aten.sub, aten.mul] # Source node to ATen node mapping: # output => sub # output_1 => sum_3 # output_2 => mul # pow_2 => pow_2 # square_of_sum => pow_1 # sum_1 => sum_1 # sum_of_square => sum_2 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%arg0_1, [1]), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_1, 2), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%arg0_1, 2), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_2, [1]), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%pow_1, %sum_2), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%sub, [1], True), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sum_3, 0.5), kwargs = {}) triton_poi_fused_mul_pow_sub_sum_0 = async_compile.triton('triton_poi_fused_mul_pow_sub_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_pow_sub_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 16, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_pow_sub_sum_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (64x1)), xmask) tmp1 = tl.load(in_ptr0 + (16 + x0 + (64x1)), xmask) tmp3 = tl.load(in_ptr0 + (32 + x0 + (64x1)), xmask) tmp5 = tl.load(in_ptr0 + (48 + x0 + (64x1)), xmask) tmp16 = tl.load(in_ptr0 + (4 + x0 + (64x1)), xmask) tmp17 = tl.load(in_ptr0 + (20 + x0 + (64x1)), xmask) tmp19 = tl.load(in_ptr0 + (36 + x0 + (64x1)), xmask) tmp21 = tl.load(in_ptr0 + (52 + x0 + (64x1)), xmask) tmp33 = tl.load(in_ptr0 + (8 + x0 + (64x1)), xmask) tmp34 = tl.load(in_ptr0 + (24 + x0 + (64x1)), xmask) tmp36 = tl.load(in_ptr0 + (40 + x0 + (64x1)), xmask) tmp38 = tl.load(in_ptr0 + (56 + x0 + (64x1)), xmask) tmp50 = tl.load(in_ptr0 + (12 + x0 + (64x1)), xmask) tmp51 = tl.load(in_ptr0 + (28 + x0 + (64x1)), xmask) tmp53 = tl.load(in_ptr0 + (44 + x0 + (64x1)), xmask) tmp55 = tl.load(in_ptr0 + (60 + x0 + (64x1)), xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = tmp6 * tmp6 tmp8 = tmp0 * tmp0 tmp9 = tmp1 * tmp1 tmp10 = tmp8 + tmp9 tmp11 = tmp3 * tmp3 tmp12 = tmp10 + tmp11 tmp13 = tmp5 * tmp5 tmp14 = tmp12 + tmp13 tmp15 = tmp7 - tmp14 tmp18 = tmp16 + tmp17 tmp20 = tmp18 + tmp19 tmp22 = tmp20 + tmp21 tmp23 = tmp22 * tmp22 tmp24 = tmp16 * tmp16 tmp25 = tmp17 * tmp17 tmp26 = tmp24 + tmp25 tmp27 = tmp19 * tmp19 tmp28 = tmp26 + tmp27 tmp29 = tmp21 * tmp21 tmp30 = tmp28 + tmp29 tmp31 = tmp23 - tmp30 tmp32 = tmp15 + tmp31 tmp35 = tmp33 + tmp34 tmp37 = tmp35 + tmp36 tmp39 = tmp37 + tmp38 tmp40 = tmp39 * tmp39 tmp41 = tmp33 * tmp33 tmp42 = tmp34 * tmp34 tmp43 = tmp41 + tmp42 tmp44 = tmp36 * tmp36 tmp45 = tmp43 + tmp44 tmp46 = tmp38 * tmp38 tmp47 = tmp45 + tmp46 tmp48 = tmp40 - tmp47 tmp49 = tmp32 + tmp48 tmp52 = tmp50 + tmp51 tmp54 = tmp52 + tmp53 tmp56 = tmp54 + tmp55 tmp57 = tmp56 * tmp56 tmp58 = tmp50 * tmp50 tmp59 = tmp51 * tmp51 tmp60 = tmp58 + tmp59 tmp61 = tmp53 * tmp53 tmp62 = tmp60 + tmp61 tmp63 = tmp55 * tmp55 tmp64 = tmp62 + tmp63 tmp65 = tmp57 - tmp64 tmp66 = tmp49 + tmp65 tmp67 = 0.5 tmp68 = tmp66 * tmp67 tl.store(in_out_ptr0 + (x2), tmp68, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 1, 4), (4, 16, 1), torch.float32) buf1 = reinterpret_tensor(buf0, (4, 1, 4), (4, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [sum_1, square_of_sum, pow_2, sum_of_square, output, output_1, output_2], Original ATen: [aten.sum, aten.pow, aten.sub, aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_pow_sub_sum_0.run(buf1, arg0_1, 16, grid=grid(16), stream=stream0) del arg0_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class BaseFactorizationMachine(nn.Module): """Calculate FM result over the embeddings Args: reduce_sum: bool, whether to sum the result, default is True. Input: input_x: tensor, A 3D tensor with shape:``(batch_size,field_size,embed_dim)``. Output output: tensor, A 3D tensor with shape: ``(batch_size,1)`` or ``(batch_size, embed_dim)``. """ def __init__(self, reduce_sum=True): super(BaseFactorizationMachine, self).__init__() self.reduce_sum = reduce_sum def forward(self, input_x): square_of_sum = torch.sum(input_x, dim=1) 2 sum_of_square = torch.sum(input_x 2, dim=1) output = square_of_sum - sum_of_square if self.reduce_sum: output = torch.sum(output, dim=1, keepdim=True) output = 0.5 * output return output def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_mul_pow_sub_sum_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 64 * x1), xmask) tmp1 = tl.load(in_ptr0 + (16 + x0 + 64 * x1), xmask) tmp3 = tl.load(in_ptr0 + (32 + x0 + 64 * x1), xmask) tmp5 = tl.load(in_ptr0 + (48 + x0 + 64 * x1), xmask) tmp16 = tl.load(in_ptr0 + (4 + x0 + 64 * x1), xmask) tmp17 = tl.load(in_ptr0 + (20 + x0 + 64 * x1), xmask) tmp19 = tl.load(in_ptr0 + (36 + x0 + 64 * x1), xmask) tmp21 = tl.load(in_ptr0 + (52 + x0 + 64 * x1), xmask) tmp33 = tl.load(in_ptr0 + (8 + x0 + 64 * x1), xmask) tmp34 = tl.load(in_ptr0 + (24 + x0 + 64 * x1), xmask) tmp36 = tl.load(in_ptr0 + (40 + x0 + 64 * x1), xmask) tmp38 = tl.load(in_ptr0 + (56 + x0 + 64 * x1), xmask) tmp50 = tl.load(in_ptr0 + (12 + x0 + 64 * x1), xmask) tmp51 = tl.load(in_ptr0 + (28 + x0 + 64 * x1), xmask) tmp53 = tl.load(in_ptr0 + (44 + x0 + 64 * x1), xmask) tmp55 = tl.load(in_ptr0 + (60 + x0 + 64 * x1), xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = tmp6 * tmp6 tmp8 = tmp0 * tmp0 tmp9 = tmp1 * tmp1 tmp10 = tmp8 + tmp9 tmp11 = tmp3 * tmp3 tmp12 = tmp10 + tmp11 tmp13 = tmp5 * tmp5 tmp14 = tmp12 + tmp13 tmp15 = tmp7 - tmp14 tmp18 = tmp16 + tmp17 tmp20 = tmp18 + tmp19 tmp22 = tmp20 + tmp21 tmp23 = tmp22 * tmp22 tmp24 = tmp16 * tmp16 tmp25 = tmp17 * tmp17 tmp26 = tmp24 + tmp25 tmp27 = tmp19 * tmp19 tmp28 = tmp26 + tmp27 tmp29 = tmp21 * tmp21 tmp30 = tmp28 + tmp29 tmp31 = tmp23 - tmp30 tmp32 = tmp15 + tmp31 tmp35 = tmp33 + tmp34 tmp37 = tmp35 + tmp36 tmp39 = tmp37 + tmp38 tmp40 = tmp39 * tmp39 tmp41 = tmp33 * tmp33 tmp42 = tmp34 * tmp34 tmp43 = tmp41 + tmp42 tmp44 = tmp36 * tmp36 tmp45 = tmp43 + tmp44 tmp46 = tmp38 * tmp38 tmp47 = tmp45 + tmp46 tmp48 = tmp40 - tmp47 tmp49 = tmp32 + tmp48 tmp52 = tmp50 + tmp51 tmp54 = tmp52 + tmp53 tmp56 = tmp54 + tmp55 tmp57 = tmp56 * tmp56 tmp58 = tmp50 * tmp50 tmp59 = tmp51 * tmp51 tmp60 = tmp58 + tmp59 tmp61 = tmp53 * tmp53 tmp62 = tmp60 + tmp61 tmp63 = tmp55 * tmp55 tmp64 = tmp62 + tmp63 tmp65 = tmp57 - tmp64 tmp66 = tmp49 + tmp65 tmp67 = 0.5 tmp68 = tmp66 * tmp67 tl.store(in_out_ptr0 + x2, tmp68, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 1, 4), (4, 16, 1), torch.float32) buf1 = reinterpret_tensor(buf0, (4, 1, 4), (4, 4, 1), 0) del buf0 get_raw_stream(0) triton_poi_fused_mul_pow_sub_sum_0[grid(16)](buf1, arg0_1, 16, XBLOCK=16, num_warps=1, num_stages=1) del arg0_1 return buf1, class BaseFactorizationMachineNew(nn.Module): """Calculate FM result over the embeddings Args: reduce_sum: bool, whether to sum the result, default is True. Input: input_x: tensor, A 3D tensor with shape:``(batch_size,field_size,embed_dim)``. Output output: tensor, A 3D tensor with shape: ``(batch_size,1)`` or ``(batch_size, embed_dim)``. """ def __init__(self, reduce_sum=True): super(BaseFactorizationMachineNew, self).__init__() self.reduce_sum = reduce_sum def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	BELIEVEfxy/LightSANs	BaseFactorizationMachine	false	7,777	[ "MIT" ]	17	94ce7e59d144dbc787153b8c486cad334790ec6e	https://github.com/BELIEVEfxy/LightSANs/tree/94ce7e59d144dbc787153b8c486cad334790ec6e	import torch import torch.nn as nn class Model(nn.Module): """Calculate FM result over the embeddings Args: reduce_sum: bool, whether to sum the result, default is True. Input: input_x: tensor, A 3D tensor with shape:``(batch_size,field_size,embed_dim)``. Output output: tensor, A 3D tensor with shape: ``(batch_size,1)`` or ``(batch_size, embed_dim)``. """ def __init__(self, reduce_sum=True): super().__init__() self.reduce_sum = reduce_sum def forward(self, input_x): square_of_sum = torch.sum(input_x, dim=1) 2 sum_of_square = torch.sum(input_x 2, dim=1) output = square_of_sum - sum_of_square if self.reduce_sum: output = torch.sum(output, dim=1, keepdim=True) output = 0.5 * output return output def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
AdjEncoder	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/76/c76pcypjh2bqsgbzg3qhatn5fnx5a4au4f3xyqvydkicqpj3t73d.py # Topologically Sorted Source Nodes: [out_2], Original ATen: [aten.tanh] # Source node to ATen node mapping: # out_2 => tanh # Graph fragment: # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%view_5,), kwargs = {}) triton_poi_fused_tanh_0 = async_compile.triton('triton_poi_fused_tanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (x3), xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp5 = libdevice.tanh(tmp4) tl.store(in_out_ptr0 + (x3), tmp5, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/7m/c7mvqxmsbygbhwwz3nonbbvjqbbvum3cmwg6hr3pmkhq3cffqzsx.py # Topologically Sorted Source Nodes: [out_4], Original ATen: [aten.tanh] # Source node to ATen node mapping: # out_4 => tanh_1 # Graph fragment: # %tanh_1 : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%view_8,), kwargs = {}) triton_poi_fused_tanh_1 = async_compile.triton('triton_poi_fused_tanh_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, 4), (4, 1)) assert_size_stride(primals_9, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_5, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) del primals_4 buf2 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [out_2], Original ATen: [aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_tanh_0.run(buf2, primals_2, buf1, 256, grid=grid(256), stream=stream0) del primals_2 buf3 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf3) buf4 = reinterpret_tensor(buf3, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [out_4], Original ATen: [aten.tanh] triton_poi_fused_tanh_1.run(buf4, primals_7, 256, grid=grid(256), stream=stream0) del primals_7 buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), out=buf5) buf6 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf5 # reuse # Topologically Sorted Source Nodes: [out_6], Original ATen: [aten.tanh] triton_poi_fused_tanh_1.run(buf6, primals_9, 256, grid=grid(256), stream=stream0) del primals_9 return (buf6, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_5, (64, 4), (4, 1), 0), buf2, buf4, buf6, primals_8, primals_6, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn import torch.utils.data class AdjEncoder(nn.Module): def __init__(self, featureSize, hiddenSize): super(AdjEncoder, self).__init__() self.left = nn.Linear(featureSize, hiddenSize) self.right = nn.Linear(featureSize, hiddenSize, bias=False) self.second = nn.Linear(hiddenSize, hiddenSize) self.third = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, left_in, right_in): out = self.left(left_in) out += self.right(right_in) out = self.tanh(out) out = self.second(out) out = self.tanh(out) out = self.third(out) out = self.tanh(out) return out def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'featureSize': 4, 'hiddenSize': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice from torch import nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + x3, xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp5 = libdevice.tanh(tmp4) tl.store(in_out_ptr0 + x3, tmp5, xmask) @triton.jit def triton_poi_fused_tanh_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4, 4), (4, 1)) assert_size_stride(primals_9, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_5, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) del primals_4 buf2 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 get_raw_stream(0) triton_poi_fused_tanh_0[grid(256)](buf2, primals_2, buf1, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf3 = buf1 del buf1 extern_kernels.mm(reinterpret_tensor(buf2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf3) buf4 = reinterpret_tensor(buf3, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf3 triton_poi_fused_tanh_1[grid(256)](buf4, primals_7, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_7 buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), out=buf5) buf6 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf5 triton_poi_fused_tanh_1[grid(256)](buf6, primals_9, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_9 return buf6, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(primals_5, (64, 4), (4, 1), 0 ), buf2, buf4, buf6, primals_8, primals_6 class AdjEncoderNew(nn.Module): def __init__(self, featureSize, hiddenSize): super(AdjEncoderNew, self).__init__() self.left = nn.Linear(featureSize, hiddenSize) self.right = nn.Linear(featureSize, hiddenSize, bias=False) self.second = nn.Linear(hiddenSize, hiddenSize) self.third = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, input_0, input_1): primals_1 = self.left.weight primals_2 = self.left.bias primals_4 = self.right.weight primals_6 = self.second.weight primals_7 = self.second.bias primals_8 = self.third.weight primals_9 = self.third.bias primals_3 = input_0 primals_5 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0]	BigkoalaZhu/SCORES	AdjEncoder	false	7,778	[ "MIT" ]	16	8332733c375ee85c02bd34c2adce6a3213aad3c4	https://github.com/BigkoalaZhu/SCORES/tree/8332733c375ee85c02bd34c2adce6a3213aad3c4	import torch from torch import nn import torch.utils.data class Model(nn.Module): def __init__(self, featureSize, hiddenSize): super().__init__() self.left = nn.Linear(featureSize, hiddenSize) self.right = nn.Linear(featureSize, hiddenSize, bias=False) self.second = nn.Linear(hiddenSize, hiddenSize) self.third = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, left_in, right_in): out = self.left(left_in) out += self.right(right_in) out = self.tanh(out) out = self.second(out) out = self.tanh(out) out = self.third(out) out = self.tanh(out) return out def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
Binarizer	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/kn/ckn3ag3gvjv5hkrxqghy5jmrzijxgfivvj5njf7ofldyr3dehic3.py # Topologically Sorted Source Nodes: [x_1, autograd_function_apply], Original ATen: [aten.tanh, aten.sign] # Source node to ATen node mapping: # autograd_function_apply => sign # x_1 => tanh # Graph fragment: # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%convolution,), kwargs = {}) # %sign : [num_users=1] = call_function[target=torch.ops.aten.sign.default](args = (%tanh,), kwargs = {}) triton_poi_fused_sign_tanh_0 = async_compile.triton('triton_poi_fused_sign_tanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_sign_tanh_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_sign_tanh_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = libdevice.tanh(tmp0) tmp2 = tl.full([1], 0, tl.int32) tmp3 = tmp2 < tmp1 tmp4 = tmp3.to(tl.int8) tmp5 = tmp1 < tmp2 tmp6 = tmp5.to(tl.int8) tmp7 = tmp4 - tmp6 tmp8 = tmp7.to(tmp1.dtype) tl.store(out_ptr0 + (x0), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_2, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1, autograd_function_apply], Original ATen: [aten.tanh, aten.sign] stream0 = get_raw_stream(0) triton_poi_fused_sign_tanh_0.run(buf0, buf1, 256, grid=grid(256), stream=stream0) return (buf1, primals_1, primals_2, buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	from torch.autograd import Function import torch import torch.nn as nn import torch.nn.functional as F class SignFunction(Function): def __init__(self): super(SignFunction, self).__init__() @staticmethod def forward(ctx, input, is_training=True): if is_training: prob = input.new(input.size()).uniform_() x = input.clone() x[(1 - input) / 2 <= prob] = 1 x[(1 - input) / 2 > prob] = -1 return x else: return input.sign() @staticmethod def backward(ctx, grad_output): return grad_output, None class Sign(nn.Module): def __init__(self): super(Sign, self).__init__() def forward(self, x): return SignFunction.apply(x, self.training) class Binarizer(nn.Module): def __init__(self, in_channels, out_channels): super(Binarizer, self).__init__() self.sign = Sign() self.conv1 = nn.Conv2d(in_channels, out_channels, kernel_size=1, bias=False) def forward(self, x): x = self.conv1(x) x = F.tanh(x) return self.sign(x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice from torch.autograd import Function import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_sign_tanh_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = libdevice.tanh(tmp0) tmp2 = tl.full([1], 0, tl.int32) tmp3 = tmp2 < tmp1 tmp4 = tmp3.to(tl.int8) tmp5 = tmp1 < tmp2 tmp6 = tmp5.to(tl.int8) tmp7 = tmp4 - tmp6 tmp8 = tmp7.to(tmp1.dtype) tl.store(out_ptr0 + x0, tmp8, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_2, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_sign_tanh_0[grid(256)](buf0, buf1, 256, XBLOCK=128, num_warps=4, num_stages=1) return buf1, primals_1, primals_2, buf0 class SignFunction(Function): def __init__(self): super(SignFunction, self).__init__() @staticmethod def forward(ctx, input, is_training=True): if is_training: prob = input.new(input.size()).uniform_() x = input.clone() x[(1 - input) / 2 <= prob] = 1 x[(1 - input) / 2 > prob] = -1 return x else: return input.sign() @staticmethod def backward(ctx, grad_output): return grad_output, None class Sign(nn.Module): def __init__(self): super(Sign, self).__init__() def forward(self, x): return SignFunction.apply(x, self.training) class BinarizerNew(nn.Module): def __init__(self, in_channels, out_channels): super(BinarizerNew, self).__init__() self.sign = Sign() self.conv1 = nn.Conv2d(in_channels, out_channels, kernel_size=1, bias=False) def forward(self, input_0): primals_1 = self.conv1.weight primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	Biaze7/lossy-image-compression	Binarizer	false	7,779	[ "MIT" ]	16	88ca2022a306fea52d6671593b314f0de3bf6010	https://github.com/Biaze7/lossy-image-compression/tree/88ca2022a306fea52d6671593b314f0de3bf6010	from torch.autograd import Function import torch import torch.nn as nn import torch.nn.functional as F class SignFunction(Function): def __init__(self): super().__init__() @staticmethod def forward(ctx, input, is_training=True): if is_training: prob = input.new(input.size()).uniform_() x = input.clone() x[(1 - input) / 2 <= prob] = 1 x[(1 - input) / 2 > prob] = -1 return x else: return input.sign() @staticmethod def backward(ctx, grad_output): return grad_output, None class Sign(nn.Module): def __init__(self): super().__init__() def forward(self, x): return SignFunction.apply(x, self.training) class Model(nn.Module): def __init__(self, in_channels, out_channels): super().__init__() self.sign = Sign() self.conv1 = nn.Conv2d(in_channels, out_channels, kernel_size=1, bias=False) def forward(self, x): x = self.conv1(x) x = F.tanh(x) return self.sign(x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
Perceptron	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/4g/c4guhk7x6skkidedvs2gxz2kcu6gb76l3ig5crjjvjtzvnjlhlte.py # Topologically Sorted Source Nodes: [relu], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # relu => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/tq/ctqgpeqlmut2p35xesb5nyby5zlm2b5bya6skwp2sxvhkvlofwk5.py # Topologically Sorted Source Nodes: [sigmoid], Original ATen: [aten.sigmoid] # Source node to ATen node mapping: # sigmoid => sigmoid # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%view_3,), kwargs = {}) triton_poi_fused_sigmoid_1 = async_compile.triton('triton_poi_fused_sigmoid_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_sigmoid_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_sigmoid_1(in_out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = tl.sigmoid(tmp0) tl.store(in_out_ptr0 + (x0), tmp1, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [relu], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_2, buf4, 256, grid=grid(256), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [sigmoid], Original ATen: [aten.sigmoid] triton_poi_fused_sigmoid_1.run(buf3, 256, grid=grid(256), stream=stream0) return (buf3, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), buf3, primals_4, buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class Perceptron(nn.Module): """Implements a 1-layer perceptron.""" def __init__(self, input_dimension, hidden_dimension, output_dimension): super(Perceptron, self).__init__() self._layer1 = nn.Linear(input_dimension, hidden_dimension) self._layer2 = nn.Linear(hidden_dimension, output_dimension, bias=False ) def forward(self, inp): return F.sigmoid(self._layer2(F.relu(self._layer1(inp)))) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dimension': 4, 'hidden_dimension': 4, 'output_dimension': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_sigmoid_1(in_out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = tl.sigmoid(tmp0) tl.store(in_out_ptr0 + x0, tmp1, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(256)](buf1, primals_2, buf4, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf2 triton_poi_fused_sigmoid_1[grid(256)](buf3, 256, XBLOCK=128, num_warps=4, num_stages=1) return buf3, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), buf3, primals_4, buf4 class PerceptronNew(nn.Module): """Implements a 1-layer perceptron.""" def __init__(self, input_dimension, hidden_dimension, output_dimension): super(PerceptronNew, self).__init__() self._layer1 = nn.Linear(input_dimension, hidden_dimension) self._layer2 = nn.Linear(hidden_dimension, output_dimension, bias=False ) def forward(self, input_0): primals_1 = self._layer1.weight primals_2 = self._layer1.bias primals_4 = self._layer2.weight primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	Bhaskers-Blu-Org2/PDP-Solver	Perceptron	false	7,780	[ "MIT" ]	28	1fca34d81f36268288f46416fb6956e5b36df69e	https://github.com/Bhaskers-Blu-Org2/PDP-Solver/tree/1fca34d81f36268288f46416fb6956e5b36df69e	import torch import torch.nn as nn import torch.nn.functional as F class Model(nn.Module): """Implements a 1-layer perceptron.""" def __init__(self, input_dimension, hidden_dimension, output_dimension): super().__init__() self._layer1 = nn.Linear(input_dimension, hidden_dimension) self._layer2 = nn.Linear(hidden_dimension, output_dimension, bias=False ) def forward(self, inp): return F.sigmoid(self._layer2(F.relu(self._layer1(inp)))) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dimension': 4, 'hidden_dimension': 4, 'output_dimension': 4}]
BoxEncoder	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/qs/cqsgbydauqwdluexymrszxq7nqjh3tcbqqiq5ccrsj74pb354tqf.py # Topologically Sorted Source Nodes: [boxes_1], Original ATen: [aten.tanh] # Source node to ATen node mapping: # boxes_1 => tanh # Graph fragment: # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%view_1,), kwargs = {}) triton_poi_fused_tanh_0 = async_compile.triton('triton_poi_fused_tanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [boxes_1], Original ATen: [aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_tanh_0.run(buf1, primals_2, 256, grid=grid(256), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [boxes_3], Original ATen: [aten.tanh] triton_poi_fused_tanh_0.run(buf3, primals_5, 256, grid=grid(256), stream=stream0) del primals_5 buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf4 # reuse # Topologically Sorted Source Nodes: [boxes_5], Original ATen: [aten.tanh] triton_poi_fused_tanh_0.run(buf5, primals_7, 256, grid=grid(256), stream=stream0) del primals_7 return (buf5, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf1, buf3, buf5, primals_6, primals_4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn import torch.utils.data class BoxEncoder(nn.Module): def __init__(self, boxSize, featureSize, hiddenSize): super(BoxEncoder, self).__init__() self.encoder = nn.Linear(boxSize, featureSize) self.middlein = nn.Linear(featureSize, hiddenSize) self.middleout = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, boxes_in): boxes = self.encoder(boxes_in) boxes = self.tanh(boxes) boxes = self.middlein(boxes) boxes = self.tanh(boxes) boxes = self.middleout(boxes) boxes = self.tanh(boxes) return boxes def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'boxSize': 4, 'featureSize': 4, 'hiddenSize': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice from torch import nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 get_raw_stream(0) triton_poi_fused_tanh_0[grid(256)](buf1, primals_2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf2 triton_poi_fused_tanh_0[grid(256)](buf3, primals_5, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf4 triton_poi_fused_tanh_0[grid(256)](buf5, primals_7, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_7 return buf5, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), buf1, buf3, buf5, primals_6, primals_4 class BoxEncoderNew(nn.Module): def __init__(self, boxSize, featureSize, hiddenSize): super(BoxEncoderNew, self).__init__() self.encoder = nn.Linear(boxSize, featureSize) self.middlein = nn.Linear(featureSize, hiddenSize) self.middleout = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, input_0): primals_1 = self.encoder.weight primals_2 = self.encoder.bias primals_4 = self.middlein.weight primals_5 = self.middlein.bias primals_6 = self.middleout.weight primals_7 = self.middleout.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	BigkoalaZhu/SCORES	BoxEncoder	false	7,781	[ "MIT" ]	16	8332733c375ee85c02bd34c2adce6a3213aad3c4	https://github.com/BigkoalaZhu/SCORES/tree/8332733c375ee85c02bd34c2adce6a3213aad3c4	import torch from torch import nn import torch.utils.data class Model(nn.Module): def __init__(self, boxSize, featureSize, hiddenSize): super().__init__() self.encoder = nn.Linear(boxSize, featureSize) self.middlein = nn.Linear(featureSize, hiddenSize) self.middleout = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, boxes_in): boxes = self.encoder(boxes_in) boxes = self.tanh(boxes) boxes = self.middlein(boxes) boxes = self.tanh(boxes) boxes = self.middleout(boxes) boxes = self.tanh(boxes) return boxes def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4, 4]
kAttentionPooling	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/th/cth4iy6f76lbxkunlz2dskh7ncebk26hr4zj65pepew4c444gjrz.py # Topologically Sorted Source Nodes: [attention_matrix_1], Original ATen: [aten._softmax] # Source node to ATen node mapping: # attention_matrix_1 => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_1, [-2], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_1, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_0 = async_compile.triton('triton_poi_fused__softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 80 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 5 x2 = (xindex // 20) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (20x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (5 + x0 + (20x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (10 + x0 + (20x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (15 + x0 + (20x2)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x3), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/fi/cfi5c6kgujqndapnak5rkwcdqwfs2luvpr45ew4yzr4b5ru35y43.py # Topologically Sorted Source Nodes: [attention_matrix_1], Original ATen: [aten._softmax] # Source node to ATen node mapping: # attention_matrix_1 => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-2], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 80 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 5 x2 = (xindex // 20) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (20x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (5 + x0 + (20x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (10 + x0 + (20x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (15 + x0 + (20x2)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 5), (5, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 5), (5, 1), torch.float32) # Topologically Sorted Source Nodes: [attention_matrix], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_2, (16, 4), (4, 1), 0), primals_1, out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [attention_matrix_1], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(buf0, buf1, 80, grid=grid(80), stream=stream0) buf2 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [attention_matrix_1], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf1, buf2, 80, grid=grid(80), stream=stream0) buf3 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [pooling_result], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(primals_2, (4, 4, 4), (16, 1, 4), 0), buf2, out=buf3) del buf2 return (reinterpret_tensor(buf3, (4, 5, 4), (20, 1, 5), 0), primals_2, buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 5), (5, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class kAttentionPooling(nn.Module): def __init__(self, seq_len, hidden_size, k_heads=5): super().__init__() self.k_heads = k_heads self.theta_k = nn.Parameter(torch.randn([hidden_size, k_heads])) def forward(self, input_tensor): attention_matrix = torch.matmul(input_tensor, self.theta_k) attention_matrix = nn.Softmax(dim=-2)(attention_matrix) pooling_result = torch.einsum('nij, nik -> nkj', input_tensor, attention_matrix) return pooling_result def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'seq_len': 4, 'hidden_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 80 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 5 x2 = xindex // 20 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 20 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (5 + x0 + 20 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (10 + x0 + 20 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (15 + x0 + 20 * x2), xmask, eviction_policy= 'evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x3, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 80 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 5 x2 = xindex // 20 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 20 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (5 + x0 + 20 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (10 + x0 + 20 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (15 + x0 + 20 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x3, tmp8, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 5), (5, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 5), (5, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_2, (16, 4), (4, 1), 0), primals_1, out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(80)](buf0, buf1, 80, XBLOCK=128, num_warps=4, num_stages=1) buf2 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) triton_poi_fused__softmax_1[grid(80)](buf1, buf2, 80, XBLOCK=128, num_warps=4, num_stages=1) buf3 = buf1 del buf1 extern_kernels.bmm(reinterpret_tensor(primals_2, (4, 4, 4), (16, 1, 4), 0), buf2, out=buf3) del buf2 return reinterpret_tensor(buf3, (4, 5, 4), (20, 1, 5), 0), primals_2, buf0 class kAttentionPoolingNew(nn.Module): def __init__(self, seq_len, hidden_size, k_heads=5): super().__init__() self.k_heads = k_heads self.theta_k = nn.Parameter(torch.randn([hidden_size, k_heads])) def forward(self, input_0): primals_1 = self.theta_k primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	BELIEVEfxy/LightSANs	kAttentionPooling	false	7,782	[ "MIT" ]	17	94ce7e59d144dbc787153b8c486cad334790ec6e	https://github.com/BELIEVEfxy/LightSANs/tree/94ce7e59d144dbc787153b8c486cad334790ec6e	import torch import torch.nn as nn class Model(nn.Module): def __init__(self, seq_len, hidden_size, k_heads=5): super().__init__() self.k_heads = k_heads self.theta_k = nn.Parameter(torch.randn([hidden_size, k_heads])) def forward(self, input_tensor): attention_matrix = torch.matmul(input_tensor, self.theta_k) attention_matrix = nn.Softmax(dim=-2)(attention_matrix) pooling_result = torch.einsum('nij, nik -> nkj', input_tensor, attention_matrix) return pooling_result def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [4, 4]
ThreeLayerCNN	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/5q/c5qzas2nsvk2zno4s5leinexteup3nynu7nffm5kd7rytg7nduym.py # Topologically Sorted Source Nodes: [conv2d, relu], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d => convolution # relu => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) triton_poi_fused_convolution_relu_0 = async_compile.triton('triton_poi_fused_convolution_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[131072], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 86400 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 3600) % 6 x0 = xindex % 3600 x4 = (xindex // 3600) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(out_ptr0 + (x0 + (3616x4)), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ui/cuiwpzoeg6qqhxkythyewn7xyvmtuiisvfxlvtmel7berqob25gp.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x => getitem, getitem_1 # Graph fragment: # %getitem : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 0), kwargs = {}) # %getitem_1 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_1 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[32768], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 21600 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 30 x1 = (xindex // 30) % 30 x4 = (xindex // 900) x3 = (xindex // 5400) x5 = xindex % 5400 tmp0 = tl.load(in_ptr0 + ((2x0) + (120x1) + (3616x4)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (120x1) + (3616x4)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (60 + (2x0) + (120x1) + (3616x4)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (61 + (2x0) + (120x1) + (3616x4)), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x5 + (5408x3)), tmp6, xmask) tl.store(out_ptr1 + (x5 + (5504x3)), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/es/cesi6th676biqluejwjzua2kbrizfgrqdtoeypv7ijx6rsqqhc3n.py # Topologically Sorted Source Nodes: [conv2d_1, relu_1], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_1 => convolution_1 # relu_1 => relu_1 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem, %primals_4, %primals_5, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_1,), kwargs = {}) triton_poi_fused_convolution_relu_2 = async_compile.triton('triton_poi_fused_convolution_relu_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[65536], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 43264 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 676) % 16 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x3), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/fe/cfehtktrivwe6eqfs563cqx4efxb43d7z7xe4iektg5dlswei4pl.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x_1 => getitem_2, getitem_3 # Graph fragment: # %getitem_2 : [num_users=2] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_1, 0), kwargs = {}) # %getitem_3 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_1, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_3 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16384], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_3(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 10816 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 13 x3 = (xindex // 13) x2 = (xindex // 2704) x4 = xindex % 2704 tmp0 = tl.load(in_ptr0 + ((2x0) + (52x3)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (52x3)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (26 + (2x0) + (52x3)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (27 + (2x0) + (52x3)), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x4 + (2720x2)), tmp6, xmask) tl.store(out_ptr1 + (x4 + (2816x2)), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/gi/cgiuwfax5e3imdzrjvwl6xl4zrc3pzznludfsph5h7fpyuwl2jzs.py # Topologically Sorted Source Nodes: [conv2d_2, relu_2], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_2 => convolution_2 # relu_2 => relu_2 # Graph fragment: # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem_2, %primals_6, %primals_7, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_2 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_2,), kwargs = {}) triton_poi_fused_convolution_relu_4 = async_compile.triton('triton_poi_fused_convolution_relu_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_4', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4096 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = (xindex // 64) % 16 tmp0 = tl.load(in_out_ptr0 + (x3), None) tmp1 = tl.load(in_ptr0 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x3), tmp4, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/qq/cqqnllgqdiq3ttonjgrs3fsyn36dlioyfzn4yvjuupqnx6fk5wbh.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x_2 => _low_memory_max_pool2d_with_offsets_2, getitem_5 # Graph fragment: # %_low_memory_max_pool2d_with_offsets_2 : [num_users=2] = call_function[target=torch.ops.prims._low_memory_max_pool2d_with_offsets.default](args = (%relu_2, [2, 2], [2, 2], [0, 0], [1, 1], False), kwargs = {}) # %getitem_5 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_2, 1), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_5 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i8', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_max_pool2d_with_indices_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_max_pool2d_with_indices_5(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (16x1)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (16x1)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (8 + (2x0) + (16x1)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (9 + (2x0) + (16x1)), xmask, eviction_policy='evict_last') tmp2 = tmp1 > tmp0 tmp3 = tl.full([1], 1, tl.int8) tmp4 = tl.full([1], 0, tl.int8) tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = triton_helpers.maximum(tmp1, tmp0) tmp8 = tmp7 > tmp6 tmp9 = tl.full([1], 2, tl.int8) tmp10 = tl.where(tmp8, tmp9, tmp5) tmp11 = triton_helpers.maximum(tmp7, tmp6) tmp13 = tmp12 > tmp11 tmp14 = tl.full([1], 3, tl.int8) tmp15 = tl.where(tmp13, tmp14, tmp10) tmp16 = triton_helpers.maximum(tmp12, tmp11) tl.store(out_ptr0 + (x2), tmp15, xmask) tl.store(out_ptr1 + (x2), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/tp/ctpsfodlpxbtuhycwjwud3swwadbxrlaluihuu6dwtkkfq3ys77t.py # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.relu] # Source node to ATen node mapping: # x_4 => relu_3 # Graph fragment: # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_9), kwargs = {}) # %relu_3 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_tensor,), kwargs = {}) triton_poi_fused_relu_6 = async_compile.triton('triton_poi_fused_relu_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_6', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_6(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 480 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 120 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11 = args args.clear() assert_size_stride(primals_1, (6, 3, 5, 5), (75, 25, 5, 1)) assert_size_stride(primals_2, (6, ), (1, )) assert_size_stride(primals_3, (4, 3, 64, 64), (12288, 4096, 64, 1)) assert_size_stride(primals_4, (16, 6, 5, 5), (150, 25, 5, 1)) assert_size_stride(primals_5, (16, ), (1, )) assert_size_stride(primals_6, (16, 16, 6, 6), (576, 36, 6, 1)) assert_size_stride(primals_7, (16, ), (1, )) assert_size_stride(primals_8, (120, 256), (256, 1)) assert_size_stride(primals_9, (120, ), (1, )) assert_size_stride(primals_10, (2, 120), (120, 1)) assert_size_stride(primals_11, (2, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 6, 60, 60), (21600, 3600, 60, 1)) buf1 = empty_strided_cuda((4, 6, 60, 60), (21696, 3616, 60, 1), torch.float32) # Topologically Sorted Source Nodes: [conv2d, relu], Original ATen: [aten.convolution, aten.relu] stream0 = get_raw_stream(0) triton_poi_fused_convolution_relu_0.run(buf0, primals_2, buf1, 86400, grid=grid(86400), stream=stream0) del buf0 del primals_2 buf2 = empty_strided_cuda((4, 6, 30, 30), (5408, 900, 30, 1), torch.float32) buf3 = empty_strided_cuda((4, 6, 30, 30), (5504, 900, 30, 1), torch.int8) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_1.run(buf1, buf2, buf3, 21600, grid=grid(21600), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 16, 26, 26), (10816, 676, 26, 1)) buf5 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [conv2d_1, relu_1], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_2.run(buf5, primals_5, 43264, grid=grid(43264), stream=stream0) del primals_5 buf6 = empty_strided_cuda((4, 16, 13, 13), (2720, 169, 13, 1), torch.float32) buf7 = empty_strided_cuda((4, 16, 13, 13), (2816, 169, 13, 1), torch.int8) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_3.run(buf5, buf6, buf7, 10816, grid=grid(10816), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_2], Original ATen: [aten.convolution] buf8 = extern_kernels.convolution(buf6, primals_6, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 16, 8, 8), (1024, 64, 8, 1)) buf9 = buf8; del buf8 # reuse # Topologically Sorted Source Nodes: [conv2d_2, relu_2], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf9, primals_7, 4096, grid=grid(4096), stream=stream0) del primals_7 buf10 = empty_strided_cuda((4, 16, 4, 4), (256, 16, 4, 1), torch.int8) buf11 = empty_strided_cuda((4, 16, 4, 4), (256, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_5.run(buf9, buf10, buf11, 1024, grid=grid(1024), stream=stream0) buf12 = empty_strided_cuda((4, 120), (120, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf11, (4, 256), (256, 1), 0), reinterpret_tensor(primals_8, (256, 120), (1, 256), 0), out=buf12) buf13 = buf12; del buf12 # reuse # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.relu] triton_poi_fused_relu_6.run(buf13, primals_9, 480, grid=grid(480), stream=stream0) del primals_9 buf14 = empty_strided_cuda((4, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.addmm] extern_kernels.addmm(primals_11, buf13, reinterpret_tensor(primals_10, (120, 2), (1, 120), 0), alpha=1, beta=1, out=buf14) del primals_11 return (buf14, primals_1, primals_3, primals_4, primals_6, buf1, buf2, buf3, buf5, buf6, buf7, buf9, buf10, reinterpret_tensor(buf11, (4, 256), (256, 1), 0), buf13, primals_10, primals_8, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((6, 3, 5, 5), (75, 25, 5, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((6, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 3, 64, 64), (12288, 4096, 64, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((16, 6, 5, 5), (150, 25, 5, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((16, 16, 6, 6), (576, 36, 6, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((120, 256), (256, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((120, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((2, 120), (120, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data class ThreeLayerCNN(torch.nn.Module): """ Input: 128x128 face image (eye aligned). Output: 1-D tensor with 2 elements. Used for binary classification. Parameters: Number of conv layers: 3 Number of fully connected layers: 2 """ def __init__(self): super(ThreeLayerCNN, self).__init__() self.conv1 = torch.nn.Conv2d(3, 6, 5) self.pool = torch.nn.MaxPool2d(2, 2) self.conv2 = torch.nn.Conv2d(6, 16, 5) self.conv3 = torch.nn.Conv2d(16, 16, 6) self.fc1 = torch.nn.Linear(16 * 4 * 4, 120) self.fc2 = torch.nn.Linear(120, 2) def forward(self, x): x = self.pool(torch.nn.functional.relu(self.conv1(x))) x = self.pool(torch.nn.functional.relu(self.conv2(x))) x = self.pool(torch.nn.functional.relu(self.conv3(x))) x = x.view(-1, 16 * 4 * 4) x = torch.nn.functional.relu(self.fc1(x)) x = self.fc2(x) return x def get_inputs(): return [torch.rand([4, 3, 64, 64])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_convolution_relu_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 86400 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 3600 % 6 x0 = xindex % 3600 x4 = xindex // 3600 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(out_ptr0 + (x0 + 3616 * x4), tmp4, xmask) @triton.jit def triton_poi_fused_max_pool2d_with_indices_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 21600 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 30 x1 = xindex // 30 % 30 x4 = xindex // 900 x3 = xindex // 5400 x5 = xindex % 5400 tmp0 = tl.load(in_ptr0 + (2 * x0 + 120 * x1 + 3616 * x4), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 120 * x1 + 3616 * x4), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (60 + 2 * x0 + 120 * x1 + 3616 * x4), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (61 + 2 * x0 + 120 * x1 + 3616 * x4), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x5 + 5408 * x3), tmp6, xmask) tl.store(out_ptr1 + (x5 + 5504 * x3), tmp16, xmask) @triton.jit def triton_poi_fused_convolution_relu_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 43264 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 676 % 16 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x3, tmp4, xmask) @triton.jit def triton_poi_fused_max_pool2d_with_indices_3(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 10816 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 13 x3 = xindex // 13 x2 = xindex // 2704 x4 = xindex % 2704 tmp0 = tl.load(in_ptr0 + (2 * x0 + 52 * x3), xmask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 52 * x3), xmask, eviction_policy ='evict_last') tmp3 = tl.load(in_ptr0 + (26 + 2 * x0 + 52 * x3), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (27 + 2 * x0 + 52 * x3), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp6 = triton_helpers.maximum(tmp5, tmp4) tmp7 = tmp1 > tmp0 tmp8 = tl.full([1], 1, tl.int8) tmp9 = tl.full([1], 0, tl.int8) tmp10 = tl.where(tmp7, tmp8, tmp9) tmp11 = tmp3 > tmp2 tmp12 = tl.full([1], 2, tl.int8) tmp13 = tl.where(tmp11, tmp12, tmp10) tmp14 = tmp5 > tmp4 tmp15 = tl.full([1], 3, tl.int8) tmp16 = tl.where(tmp14, tmp15, tmp13) tl.store(out_ptr0 + (x4 + 2720 * x2), tmp6, xmask) tl.store(out_ptr1 + (x4 + 2816 * x2), tmp16, xmask) @triton.jit def triton_poi_fused_convolution_relu_4(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x3 = xindex x1 = xindex // 64 % 16 tmp0 = tl.load(in_out_ptr0 + x3, None) tmp1 = tl.load(in_ptr0 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x3, tmp4, None) @triton.jit def triton_poi_fused_max_pool2d_with_indices_5(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 16 * x1), xmask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 16 * x1), xmask, eviction_policy ='evict_last') tmp7 = tl.load(in_ptr0 + (8 + 2 * x0 + 16 * x1), xmask, eviction_policy ='evict_last') tmp12 = tl.load(in_ptr0 + (9 + 2 * x0 + 16 * x1), xmask, eviction_policy='evict_last') tmp2 = tmp1 > tmp0 tmp3 = tl.full([1], 1, tl.int8) tmp4 = tl.full([1], 0, tl.int8) tmp5 = tl.where(tmp2, tmp3, tmp4) tmp6 = triton_helpers.maximum(tmp1, tmp0) tmp8 = tmp7 > tmp6 tmp9 = tl.full([1], 2, tl.int8) tmp10 = tl.where(tmp8, tmp9, tmp5) tmp11 = triton_helpers.maximum(tmp7, tmp6) tmp13 = tmp12 > tmp11 tmp14 = tl.full([1], 3, tl.int8) tmp15 = tl.where(tmp13, tmp14, tmp10) tmp16 = triton_helpers.maximum(tmp12, tmp11) tl.store(out_ptr0 + x2, tmp15, xmask) tl.store(out_ptr1 + x2, tmp16, xmask) @triton.jit def triton_poi_fused_relu_6(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 480 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 120 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11) = args args.clear() assert_size_stride(primals_1, (6, 3, 5, 5), (75, 25, 5, 1)) assert_size_stride(primals_2, (6,), (1,)) assert_size_stride(primals_3, (4, 3, 64, 64), (12288, 4096, 64, 1)) assert_size_stride(primals_4, (16, 6, 5, 5), (150, 25, 5, 1)) assert_size_stride(primals_5, (16,), (1,)) assert_size_stride(primals_6, (16, 16, 6, 6), (576, 36, 6, 1)) assert_size_stride(primals_7, (16,), (1,)) assert_size_stride(primals_8, (120, 256), (256, 1)) assert_size_stride(primals_9, (120,), (1,)) assert_size_stride(primals_10, (2, 120), (120, 1)) assert_size_stride(primals_11, (2,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 6, 60, 60), (21600, 3600, 60, 1)) buf1 = empty_strided_cuda((4, 6, 60, 60), (21696, 3616, 60, 1), torch.float32) get_raw_stream(0) triton_poi_fused_convolution_relu_0[grid(86400)](buf0, primals_2, buf1, 86400, XBLOCK=512, num_warps=8, num_stages=1) del buf0 del primals_2 buf2 = empty_strided_cuda((4, 6, 30, 30), (5408, 900, 30, 1), torch .float32) buf3 = empty_strided_cuda((4, 6, 30, 30), (5504, 900, 30, 1), torch .int8) triton_poi_fused_max_pool2d_with_indices_1[grid(21600)](buf1, buf2, buf3, 21600, XBLOCK=128, num_warps=4, num_stages=1) buf4 = extern_kernels.convolution(buf2, primals_4, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 16, 26, 26), (10816, 676, 26, 1)) buf5 = buf4 del buf4 triton_poi_fused_convolution_relu_2[grid(43264)](buf5, primals_5, 43264, XBLOCK=512, num_warps=4, num_stages=1) del primals_5 buf6 = empty_strided_cuda((4, 16, 13, 13), (2720, 169, 13, 1), torch.float32) buf7 = empty_strided_cuda((4, 16, 13, 13), (2816, 169, 13, 1), torch.int8) triton_poi_fused_max_pool2d_with_indices_3[grid(10816)](buf5, buf6, buf7, 10816, XBLOCK=256, num_warps=4, num_stages=1) buf8 = extern_kernels.convolution(buf6, primals_6, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf8, (4, 16, 8, 8), (1024, 64, 8, 1)) buf9 = buf8 del buf8 triton_poi_fused_convolution_relu_4[grid(4096)](buf9, primals_7, 4096, XBLOCK=256, num_warps=4, num_stages=1) del primals_7 buf10 = empty_strided_cuda((4, 16, 4, 4), (256, 16, 4, 1), torch.int8) buf11 = empty_strided_cuda((4, 16, 4, 4), (256, 16, 4, 1), torch. float32) triton_poi_fused_max_pool2d_with_indices_5[grid(1024)](buf9, buf10, buf11, 1024, XBLOCK=128, num_warps=4, num_stages=1) buf12 = empty_strided_cuda((4, 120), (120, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf11, (4, 256), (256, 1), 0), reinterpret_tensor(primals_8, (256, 120), (1, 256), 0), out=buf12) buf13 = buf12 del buf12 triton_poi_fused_relu_6[grid(480)](buf13, primals_9, 480, XBLOCK= 128, num_warps=4, num_stages=1) del primals_9 buf14 = empty_strided_cuda((4, 2), (2, 1), torch.float32) extern_kernels.addmm(primals_11, buf13, reinterpret_tensor( primals_10, (120, 2), (1, 120), 0), alpha=1, beta=1, out=buf14) del primals_11 return (buf14, primals_1, primals_3, primals_4, primals_6, buf1, buf2, buf3, buf5, buf6, buf7, buf9, buf10, reinterpret_tensor(buf11, (4, 256), (256, 1), 0), buf13, primals_10, primals_8) class ThreeLayerCNNNew(torch.nn.Module): """ Input: 128x128 face image (eye aligned). Output: 1-D tensor with 2 elements. Used for binary classification. Parameters: Number of conv layers: 3 Number of fully connected layers: 2 """ def __init__(self): super(ThreeLayerCNNNew, self).__init__() self.conv1 = torch.nn.Conv2d(3, 6, 5) self.pool = torch.nn.MaxPool2d(2, 2) self.conv2 = torch.nn.Conv2d(6, 16, 5) self.conv3 = torch.nn.Conv2d(16, 16, 6) self.fc1 = torch.nn.Linear(16 * 4 * 4, 120) self.fc2 = torch.nn.Linear(120, 2) def forward(self, input_0): primals_1 = self.conv1.weight primals_2 = self.conv1.bias primals_4 = self.conv2.weight primals_5 = self.conv2.bias primals_6 = self.conv3.weight primals_7 = self.conv3.bias primals_8 = self.fc1.weight primals_9 = self.fc1.bias primals_10 = self.fc2.weight primals_11 = self.fc2.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11]) return output[0]	Bhaskers-Blu-Org1/Trusted-ML-Pipelines	ThreeLayerCNN	false	7,783	[ "Apache-2.0" ]	13	3805a2e72f73cef318e1992eee70aeb319b06d1a	https://github.com/Bhaskers-Blu-Org1/Trusted-ML-Pipelines/tree/3805a2e72f73cef318e1992eee70aeb319b06d1a	import torch import torch.utils.data class Model(torch.nn.Module): """ Input: 128x128 face image (eye aligned). Output: 1-D tensor with 2 elements. Used for binary classification. Parameters: Number of conv layers: 3 Number of fully connected layers: 2 """ def __init__(self): super().__init__() self.conv1 = torch.nn.Conv2d(3, 6, 5) self.pool = torch.nn.MaxPool2d(2, 2) self.conv2 = torch.nn.Conv2d(6, 16, 5) self.conv3 = torch.nn.Conv2d(16, 16, 6) self.fc1 = torch.nn.Linear(16 * 4 * 4, 120) self.fc2 = torch.nn.Linear(120, 2) def forward(self, x): x = self.pool(torch.nn.functional.relu(self.conv1(x))) x = self.pool(torch.nn.functional.relu(self.conv2(x))) x = self.pool(torch.nn.functional.relu(self.conv3(x))) x = x.view(-1, 16 * 4 * 4) x = torch.nn.functional.relu(self.fc1(x)) x = self.fc2(x) return x def get_inputs(): return [torch.rand([4, 3, 64, 64])] def get_init_inputs(): return []
AdjDecoder	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/qs/cqsgbydauqwdluexymrszxq7nqjh3tcbqqiq5ccrsj74pb354tqf.py # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.tanh] # Source node to ATen node mapping: # out_1 => tanh # Graph fragment: # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%view_1,), kwargs = {}) triton_poi_fused_tanh_0 = async_compile.triton('triton_poi_fused_tanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, 4), (4, 1)) assert_size_stride(primals_9, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_tanh_0.run(buf1, primals_2, 256, grid=grid(256), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [out_3], Original ATen: [aten.tanh] triton_poi_fused_tanh_0.run(buf3, primals_5, 256, grid=grid(256), stream=stream0) del primals_5 buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf4) buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), out=buf5) buf6 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf4 # reuse # Topologically Sorted Source Nodes: [l_1], Original ATen: [aten.tanh] triton_poi_fused_tanh_0.run(buf6, primals_7, 256, grid=grid(256), stream=stream0) del primals_7 buf7 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf5 # reuse # Topologically Sorted Source Nodes: [r_1], Original ATen: [aten.tanh] triton_poi_fused_tanh_0.run(buf7, primals_9, 256, grid=grid(256), stream=stream0) del primals_9 return (buf6, buf7, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf1, buf3, buf6, buf7, primals_8, primals_6, primals_4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn import torch.utils.data class AdjDecoder(nn.Module): def __init__(self, featureSize, hiddenSize): super(AdjDecoder, self).__init__() self.decode = nn.Linear(featureSize, hiddenSize) self.second = nn.Linear(hiddenSize, hiddenSize) self.left = nn.Linear(hiddenSize, featureSize) self.right = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, parent_in): out = self.decode(parent_in) out = self.tanh(out) out = self.second(out) out = self.tanh(out) l = self.left(out) r = self.right(out) l = self.tanh(l) r = self.tanh(r) return l, r def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'featureSize': 4, 'hiddenSize': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice from torch import nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4, 4), (4, 1)) assert_size_stride(primals_9, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 get_raw_stream(0) triton_poi_fused_tanh_0[grid(256)](buf1, primals_2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf2 triton_poi_fused_tanh_0[grid(256)](buf3, primals_5, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf4) buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), out=buf5) buf6 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf4 triton_poi_fused_tanh_0[grid(256)](buf6, primals_7, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_7 buf7 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf5 triton_poi_fused_tanh_0[grid(256)](buf7, primals_9, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_9 return buf6, buf7, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), buf1, buf3, buf6, buf7, primals_8, primals_6, primals_4 class AdjDecoderNew(nn.Module): def __init__(self, featureSize, hiddenSize): super(AdjDecoderNew, self).__init__() self.decode = nn.Linear(featureSize, hiddenSize) self.second = nn.Linear(hiddenSize, hiddenSize) self.left = nn.Linear(hiddenSize, featureSize) self.right = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, input_0): primals_1 = self.decode.weight primals_2 = self.decode.bias primals_4 = self.second.weight primals_5 = self.second.bias primals_6 = self.left.weight primals_7 = self.left.bias primals_8 = self.right.weight primals_9 = self.right.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0], output[1]	BigkoalaZhu/SCORES	AdjDecoder	false	7,784	[ "MIT" ]	16	8332733c375ee85c02bd34c2adce6a3213aad3c4	https://github.com/BigkoalaZhu/SCORES/tree/8332733c375ee85c02bd34c2adce6a3213aad3c4	import torch from torch import nn import torch.utils.data class Model(nn.Module): def __init__(self, featureSize, hiddenSize): super().__init__() self.decode = nn.Linear(featureSize, hiddenSize) self.second = nn.Linear(hiddenSize, hiddenSize) self.left = nn.Linear(hiddenSize, featureSize) self.right = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, parent_in): out = self.decode(parent_in) out = self.tanh(out) out = self.second(out) out = self.tanh(out) l = self.left(out) r = self.right(out) l = self.tanh(l) r = self.tanh(r) return l, r def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
HardSwish	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/rw/crwdk3j4ojtagun7zhqwyf5bqe7salukzcept7ykzhjfr5nro3cm.py # Topologically Sorted Source Nodes: [add, hardtanh, mul, truediv], Original ATen: [aten.add, aten.hardtanh, aten.mul, aten.div] # Source node to ATen node mapping: # add => add # hardtanh => clamp_max, clamp_min # mul => mul # truediv => div # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%arg0_1, 3), kwargs = {}) # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%add, 0.0), kwargs = {}) # %clamp_max : [num_users=1] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min, 6.0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg0_1, %clamp_max), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul, 6), kwargs = {}) triton_poi_fused_add_div_hardtanh_mul_0 = async_compile.triton('triton_poi_fused_add_div_hardtanh_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_div_hardtanh_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_div_hardtanh_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 3.0 tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp5 = 6.0 tmp6 = triton_helpers.minimum(tmp4, tmp5) tmp7 = tmp0 * tmp6 tmp8 = 0.16666666666666666 tmp9 = tmp7 * tmp8 tl.store(out_ptr0 + (x0), tmp9, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [add, hardtanh, mul, truediv], Original ATen: [aten.add, aten.hardtanh, aten.mul, aten.div] stream0 = get_raw_stream(0) triton_poi_fused_add_div_hardtanh_mul_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn class HardSwish(nn.Module): def __init__(self, inplace=True): super(HardSwish, self).__init__() self.relu6 = nn.ReLU6(inplace=inplace) def forward(self, x): return x * self.relu6(x + 3) / 6 def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_div_hardtanh_mul_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 3.0 tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = triton_helpers.maximum(tmp2, tmp3) tmp5 = 6.0 tmp6 = triton_helpers.minimum(tmp4, tmp5) tmp7 = tmp0 * tmp6 tmp8 = 0.16666666666666666 tmp9 = tmp7 * tmp8 tl.store(out_ptr0 + x0, tmp9, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_div_hardtanh_mul_0[grid(256)](arg0_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, class HardSwishNew(nn.Module): def __init__(self, inplace=True): super(HardSwishNew, self).__init__() self.relu6 = nn.ReLU6(inplace=inplace) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Bo396543018/Picodet_Pytorch	HardSwish	false	7,785	[ "Apache-2.0" ]	16	276ecbf6f4f7eefbf046d1bccc25293acf28ba25	https://github.com/Bo396543018/Picodet_Pytorch/tree/276ecbf6f4f7eefbf046d1bccc25293acf28ba25	import torch from torch import nn class Model(nn.Module): def __init__(self, inplace=True): super().__init__() self.relu6 = nn.ReLU6(inplace=inplace) def forward(self, x): return x * self.relu6(x + 3) / 6 def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
NormedLinear	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/b2/cb22z2qlg5s67gygvvo6kcroqzpu642bl5dxeconuzajk6g27u6w.py # Topologically Sorted Source Nodes: [norm_1, pow_2, add_1, x_, x__1], Original ATen: [aten.linalg_vector_norm, aten.pow, aten.add, aten.div, aten.mul] # Source node to ATen node mapping: # add_1 => add_1 # norm_1 => pow_4, pow_5, sum_2 # pow_2 => pow_6 # x_ => div_1 # x__1 => mul # Graph fragment: # %pow_4 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%primals_2, 2), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_4, [1], True), kwargs = {}) # %pow_5 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_2, 0.5), kwargs = {}) # %pow_6 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%pow_5, 1.0), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%pow_6, 1e-06), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%primals_2, %add_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%div_1, 20), kwargs = {}) triton_poi_fused_add_div_linalg_vector_norm_mul_pow_0 = async_compile.triton('triton_poi_fused_add_div_linalg_vector_norm_mul_pow_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_div_linalg_vector_norm_mul_pow_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_div_linalg_vector_norm_mul_pow_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-06 tmp14 = tmp12 + tmp13 tmp15 = tmp0 / tmp14 tmp16 = 20.0 tmp17 = tmp15 * tmp16 tl.store(out_ptr0 + (x3), tmp17, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/qj/cqjkbagvhwqi3g4q3cf2psd3v2nqj3sncy72e24us752y2zjkk5q.py # Topologically Sorted Source Nodes: [norm, pow_1, add, weight_], Original ATen: [aten.linalg_vector_norm, aten.pow, aten.add, aten.div] # Source node to ATen node mapping: # add => add # norm => pow_1, pow_2, sum_1 # pow_1 => pow_3 # weight_ => div # Graph fragment: # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%primals_1, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [1], True), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_1, 0.5), kwargs = {}) # %pow_3 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%pow_2, 1.0), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%pow_3, 1e-06), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%primals_1, %add), kwargs = {}) triton_poi_fused_add_div_linalg_vector_norm_pow_1 = async_compile.triton('triton_poi_fused_add_div_linalg_vector_norm_pow_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_div_linalg_vector_norm_pow_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_div_linalg_vector_norm_pow_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-06 tmp14 = tmp12 + tmp13 tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + (x2), tmp15, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [norm_1, pow_2, add_1, x_, x__1], Original ATen: [aten.linalg_vector_norm, aten.pow, aten.add, aten.div, aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_add_div_linalg_vector_norm_mul_pow_0.run(primals_2, buf0, 256, grid=grid(256), stream=stream0) del primals_2 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [norm, pow_1, add, weight_], Original ATen: [aten.linalg_vector_norm, aten.pow, aten.add, aten.div] triton_poi_fused_add_div_linalg_vector_norm_pow_1.run(primals_1, buf1, 16, grid=grid(16), stream=stream0) buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.addmm] extern_kernels.addmm(primals_3, reinterpret_tensor(buf0, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del buf1 del primals_3 return (reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0), primals_1, reinterpret_tensor(buf0, (64, 4), (4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F from torch import nn class NormedLinear(nn.Linear): """Normalized Linear Layer. Args: tempeature (float, optional): Tempeature term. Default to 20. power (int, optional): Power term. Default to 1.0. eps (float, optional): The minimal value of divisor to keep numerical stability. Default to 1e-6. """ def __init__(self, args, tempearture=20, power=1.0, eps=1e-06, kwargs): super(NormedLinear, self).__init__(args, *kwargs) self.tempearture = tempearture self.power = power self.eps = eps self.init_weights() def init_weights(self): nn.init.normal_(self.weight, mean=0, std=0.01) if self.bias is not None: nn.init.constant_(self.bias, 0) def forward(self, x): weight_ = self.weight / (self.weight.norm(dim=1, keepdim=True).pow( self.power) + self.eps) x_ = x / (x.norm(dim=1, keepdim=True).pow(self.power) + self.eps) x_ = x_ self.tempearture return F.linear(x_, weight_, self.bias) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_features': 4, 'out_features': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_add_div_linalg_vector_norm_mul_pow_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-06 tmp14 = tmp12 + tmp13 tmp15 = tmp0 / tmp14 tmp16 = 20.0 tmp17 = tmp15 * tmp16 tl.store(out_ptr0 + x3, tmp17, xmask) @triton.jit def triton_poi_fused_add_div_linalg_vector_norm_pow_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-06 tmp14 = tmp12 + tmp13 tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + x2, tmp15, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_div_linalg_vector_norm_mul_pow_0[grid(256)]( primals_2, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) triton_poi_fused_add_div_linalg_vector_norm_pow_1[grid(16)](primals_1, buf1, 16, XBLOCK=16, num_warps=1, num_stages=1) buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_3, reinterpret_tensor(buf0, (64, 4), ( 4, 1), 0), reinterpret_tensor(buf1, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del buf1 del primals_3 return reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), primals_1, reinterpret_tensor(buf0, (64, 4), (4, 1), 0) class NormedLinearNew(nn.Linear): """Normalized Linear Layer. Args: tempeature (float, optional): Tempeature term. Default to 20. power (int, optional): Power term. Default to 1.0. eps (float, optional): The minimal value of divisor to keep numerical stability. Default to 1e-6. """ def __init__(self, args, tempearture=20, power=1.0, eps=1e-06, kwargs): super(NormedLinearNew, self).__init__(args, **kwargs) self.tempearture = tempearture self.power = power self.eps = eps self.init_weights() def init_weights(self): nn.init.normal_(self.weight, mean=0, std=0.01) if self.bias is not None: nn.init.constant_(self.bias, 0) def forward(self, input_0): primals_1 = self.weight primals_3 = self.bias primals_2 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	Bo396543018/mmdetection	NormedLinear	false	7,786	[ "Apache-2.0" ]	16	eb337336d3c239dc1d20534496f69df41ae9a300	https://github.com/Bo396543018/mmdetection/tree/eb337336d3c239dc1d20534496f69df41ae9a300	import torch import torch.nn.functional as F from torch import nn class Model(nn.Linear): """Normalized Linear Layer. Args: tempeature (float, optional): Tempeature term. Default to 20. power (int, optional): Power term. Default to 1.0. eps (float, optional): The minimal value of divisor to keep numerical stability. Default to 1e-6. """ def __init__(self, args, tempearture=20, power=1.0, eps=1e-06, kwargs): super().__init__(args, *kwargs) self.tempearture = tempearture self.power = power self.eps = eps self.init_weights() def init_weights(self): nn.init.normal_(self.weight, mean=0, std=0.01) if self.bias is not None: nn.init.constant_(self.bias, 0) def forward(self, x): weight_ = self.weight / (self.weight.norm(dim=1, keepdim=True).pow( self.power) + self.eps) x_ = x / (x.norm(dim=1, keepdim=True).pow(self.power) + self.eps) x_ = x_ self.tempearture return F.linear(x_, weight_, self.bias) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
NodeClassifier	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/qs/cqsgbydauqwdluexymrszxq7nqjh3tcbqqiq5ccrsj74pb354tqf.py # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.tanh] # Source node to ATen node mapping: # out_1 => tanh # Graph fragment: # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%view_1,), kwargs = {}) triton_poi_fused_tanh_0 = async_compile.triton('triton_poi_fused_tanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (3, 4), (4, 1)) assert_size_stride(primals_5, (3, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_tanh_0.run(buf1, primals_2, 256, grid=grid(256), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 3), (3, 1), torch.float32) # Topologically Sorted Source Nodes: [out_2], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 3), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 return (reinterpret_tensor(buf2, (4, 4, 4, 3), (48, 12, 3, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf1, primals_4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((3, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((3, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn import torch.utils.data class NodeClassifier(nn.Module): def __init__(self, featureSize, hiddenSize): super(NodeClassifier, self).__init__() self.first = nn.Linear(featureSize, hiddenSize) self.tanh = nn.Tanh() self.second = nn.Linear(hiddenSize, 3) self.softmax = nn.Softmax() def forward(self, feature): out = self.first(feature) out = self.tanh(out) out = self.second(out) return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'featureSize': 4, 'hiddenSize': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice from torch import nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (3, 4), (4, 1)) assert_size_stride(primals_5, (3,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 get_raw_stream(0) triton_poi_fused_tanh_0[grid(256)](buf1, primals_2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 3), (3, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_4, (4, 3), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 return reinterpret_tensor(buf2, (4, 4, 4, 3), (48, 12, 3, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf1, primals_4 class NodeClassifierNew(nn.Module): def __init__(self, featureSize, hiddenSize): super(NodeClassifierNew, self).__init__() self.first = nn.Linear(featureSize, hiddenSize) self.tanh = nn.Tanh() self.second = nn.Linear(hiddenSize, 3) self.softmax = nn.Softmax() def forward(self, input_0): primals_1 = self.first.weight primals_2 = self.first.bias primals_4 = self.second.weight primals_5 = self.second.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	BigkoalaZhu/SCORES	NodeClassifier	false	7,787	[ "MIT" ]	16	8332733c375ee85c02bd34c2adce6a3213aad3c4	https://github.com/BigkoalaZhu/SCORES/tree/8332733c375ee85c02bd34c2adce6a3213aad3c4	import torch from torch import nn import torch.utils.data class Model(nn.Module): def __init__(self, featureSize, hiddenSize): super().__init__() self.first = nn.Linear(featureSize, hiddenSize) self.tanh = nn.Tanh() self.second = nn.Linear(hiddenSize, 3) self.softmax = nn.Softmax() def forward(self, feature): out = self.first(feature) out = self.tanh(out) out = self.second(out) return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
CNNLayerNorm	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/z7/cz7jenlqtcgsjr2ys4fd7z4eg3zfehvsbwy4qc5u6coecdwkwngg.py # Topologically Sorted Source Nodes: [x, x_1], Original ATen: [aten.clone, aten.native_layer_norm] # Source node to ATen node mapping: # x => clone # x_1 => add, rsqrt, var_mean # Graph fragment: # %clone : [num_users=2] = call_function[target=torch.ops.aten.clone.default](args = (%permute,), kwargs = {memory_format: torch.contiguous_format}) # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%clone, [3]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) triton_poi_fused_clone_native_layer_norm_0 = async_compile.triton('triton_poi_fused_clone_native_layer_norm_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_native_layer_norm_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_native_layer_norm_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (16x1)), xmask) tmp1 = tl.load(in_ptr0 + (4 + x0 + (16x1)), xmask) tmp3 = tl.load(in_ptr0 + (8 + x0 + (16x1)), xmask) tmp5 = tl.load(in_ptr0 + (12 + x0 + (16x1)), xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp0 - tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp1 - tmp8 tmp12 = tmp11 * tmp11 tmp13 = tmp10 + tmp12 tmp14 = tmp3 - tmp8 tmp15 = tmp14 * tmp14 tmp16 = tmp13 + tmp15 tmp17 = tmp5 - tmp8 tmp18 = tmp17 * tmp17 tmp19 = tmp16 + tmp18 tmp20 = tmp19 / tmp7 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr0 + (x2), tmp8, xmask) tl.store(out_ptr1 + (x2), tmp23, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ur/cur5woyyq6r6utuegzw5e2gweqqnlthnsixbkirea6a66iigbq62.py # Topologically Sorted Source Nodes: [contiguous_1], Original ATen: [aten.clone] # Source node to ATen node mapping: # contiguous_1 => clone_1 # Graph fragment: # %clone_1 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute_1,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_1 = async_compile.triton('triton_poi_fused_clone_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = (xindex // 16) x1 = (xindex // 4) % 4 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x0 + (4x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x0 + (4x2)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (x1), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) # Topologically Sorted Source Nodes: [x, x_1], Original ATen: [aten.clone, aten.native_layer_norm] stream0 = get_raw_stream(0) triton_poi_fused_clone_native_layer_norm_0.run(primals_1, buf0, buf1, 64, grid=grid(64), stream=stream0) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [contiguous_1], Original ATen: [aten.clone] triton_poi_fused_clone_1.run(primals_1, buf0, buf1, primals_2, primals_3, buf2, 256, grid=grid(256), stream=stream0) del buf0 del buf1 del primals_2 del primals_3 return (buf2, primals_1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class CNNLayerNorm(nn.Module): """Layer normalization built for cnns input""" def __init__(self, n_feats): super(CNNLayerNorm, self).__init__() self.layer_norm = nn.LayerNorm(n_feats) def forward(self, x): x = x.transpose(2, 3).contiguous() x = self.layer_norm(x) return x.transpose(2, 3).contiguous() def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'n_feats': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_clone_native_layer_norm_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 16 * x1), xmask) tmp1 = tl.load(in_ptr0 + (4 + x0 + 16 * x1), xmask) tmp3 = tl.load(in_ptr0 + (8 + x0 + 16 * x1), xmask) tmp5 = tl.load(in_ptr0 + (12 + x0 + 16 * x1), xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp0 - tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp1 - tmp8 tmp12 = tmp11 * tmp11 tmp13 = tmp10 + tmp12 tmp14 = tmp3 - tmp8 tmp15 = tmp14 * tmp14 tmp16 = tmp13 + tmp15 tmp17 = tmp5 - tmp8 tmp18 = tmp17 * tmp17 tmp19 = tmp16 + tmp18 tmp20 = tmp19 / tmp7 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr0 + x2, tmp8, xmask) tl.store(out_ptr1 + x2, tmp23, xmask) @triton.jit def triton_poi_fused_clone_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 x2 = xindex // 16 x1 = xindex // 4 % 4 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + (x0 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp3 = tl.load(in_ptr2 + (x0 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp5 = tl.load(in_ptr3 + x1, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tl.store(out_ptr0 + x3, tmp8, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) get_raw_stream(0) triton_poi_fused_clone_native_layer_norm_0[grid(64)](primals_1, buf0, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_clone_1[grid(256)](primals_1, buf0, buf1, primals_2, primals_3, buf2, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf0 del buf1 del primals_2 del primals_3 return buf2, primals_1 class CNNLayerNormNew(nn.Module): """Layer normalization built for cnns input""" def __init__(self, n_feats): super(CNNLayerNormNew, self).__init__() self.layer_norm = nn.LayerNorm(n_feats) def forward(self, input_0): primals_2 = self.layer_norm.weight primals_3 = self.layer_norm.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	BlackyYen/Speech_Recognition-PyTorch	CNNLayerNorm	false	7,788	[ "MIT" ]	16	0a986f467c540c2be88f65064ebf5ce0f6bcf70a	https://github.com/BlackyYen/Speech_Recognition-PyTorch/tree/0a986f467c540c2be88f65064ebf5ce0f6bcf70a	import torch import torch.nn as nn class Model(nn.Module): """Layer normalization built for cnns input""" def __init__(self, n_feats): super().__init__() self.layer_norm = nn.LayerNorm(n_feats) def forward(self, x): x = x.transpose(2, 3).contiguous() x = self.layer_norm(x) return x.transpose(2, 3).contiguous() def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4]
SymEncoder	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/h5/ch5wsmaqutr4u2owfd5gad7eo3hjecidirbtca7hzfecqyithq7x.py # Topologically Sorted Source Nodes: [out_2], Original ATen: [aten.tanh] # Source node to ATen node mapping: # out_2 => tanh # Graph fragment: # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%view_5,), kwargs = {}) triton_poi_fused_tanh_0 = async_compile.triton('triton_poi_fused_tanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (x3), xmask) tmp4 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tmp2 + tmp5 tmp7 = libdevice.tanh(tmp6) tl.store(in_out_ptr0 + (x3), tmp7, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/7m/c7mvqxmsbygbhwwz3nonbbvjqbbvum3cmwg6hr3pmkhq3cffqzsx.py # Topologically Sorted Source Nodes: [out_4], Original ATen: [aten.tanh] # Source node to ATen node mapping: # out_4 => tanh_1 # Graph fragment: # %tanh_1 : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%view_8,), kwargs = {}) triton_poi_fused_tanh_1 = async_compile.triton('triton_poi_fused_tanh_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_7, (4, 4), (4, 1)) assert_size_stride(primals_8, (4, ), (1, )) assert_size_stride(primals_9, (4, 4), (4, 1)) assert_size_stride(primals_10, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_6, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) del primals_4 buf2 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [out_2], Original ATen: [aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_tanh_0.run(buf2, primals_2, buf1, primals_5, 256, grid=grid(256), stream=stream0) del primals_2 del primals_5 buf3 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf3) buf4 = reinterpret_tensor(buf3, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [out_4], Original ATen: [aten.tanh] triton_poi_fused_tanh_1.run(buf4, primals_8, 256, grid=grid(256), stream=stream0) del primals_8 buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_9, (4, 4), (1, 4), 0), out=buf5) buf6 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf5 # reuse # Topologically Sorted Source Nodes: [out_6], Original ATen: [aten.tanh] triton_poi_fused_tanh_1.run(buf6, primals_10, 256, grid=grid(256), stream=stream0) del primals_10 return (buf6, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (64, 4), (4, 1), 0), buf2, buf4, buf6, primals_9, primals_7, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn import torch.utils.data class SymEncoder(nn.Module): def __init__(self, featureSize, symmetrySize, hiddenSize): super(SymEncoder, self).__init__() self.left = nn.Linear(featureSize, hiddenSize) self.right = nn.Linear(symmetrySize, hiddenSize) self.second = nn.Linear(hiddenSize, hiddenSize) self.third = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, left_in, right_in): out = self.left(left_in) out += self.right(right_in) out = self.tanh(out) out = self.second(out) out = self.tanh(out) out = self.third(out) out = self.tanh(out) return out def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'featureSize': 4, 'symmetrySize': 4, 'hiddenSize': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice from torch import nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + x3, xmask) tmp4 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tmp2 + tmp5 tmp7 = libdevice.tanh(tmp6) tl.store(in_out_ptr0 + x3, tmp7, xmask) @triton.jit def triton_poi_fused_tanh_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_7, (4, 4), (4, 1)) assert_size_stride(primals_8, (4,), (1,)) assert_size_stride(primals_9, (4, 4), (4, 1)) assert_size_stride(primals_10, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_6, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) del primals_4 buf2 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 get_raw_stream(0) triton_poi_fused_tanh_0[grid(256)](buf2, primals_2, buf1, primals_5, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 del primals_5 buf3 = buf1 del buf1 extern_kernels.mm(reinterpret_tensor(buf2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf3) buf4 = reinterpret_tensor(buf3, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf3 triton_poi_fused_tanh_1[grid(256)](buf4, primals_8, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_8 buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_9, (4, 4), (1, 4), 0), out=buf5) buf6 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf5 triton_poi_fused_tanh_1[grid(256)](buf6, primals_10, 256, XBLOCK= 128, num_warps=4, num_stages=1) del primals_10 return buf6, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(primals_6, (64, 4), (4, 1), 0 ), buf2, buf4, buf6, primals_9, primals_7 class SymEncoderNew(nn.Module): def __init__(self, featureSize, symmetrySize, hiddenSize): super(SymEncoderNew, self).__init__() self.left = nn.Linear(featureSize, hiddenSize) self.right = nn.Linear(symmetrySize, hiddenSize) self.second = nn.Linear(hiddenSize, hiddenSize) self.third = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, input_0, input_1): primals_1 = self.left.weight primals_2 = self.left.bias primals_4 = self.right.weight primals_5 = self.right.bias primals_7 = self.second.weight primals_8 = self.second.bias primals_9 = self.third.weight primals_10 = self.third.bias primals_3 = input_0 primals_6 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10]) return output[0]	BigkoalaZhu/SCORES	SymEncoder	false	7,789	[ "MIT" ]	16	8332733c375ee85c02bd34c2adce6a3213aad3c4	https://github.com/BigkoalaZhu/SCORES/tree/8332733c375ee85c02bd34c2adce6a3213aad3c4	import torch from torch import nn import torch.utils.data class Model(nn.Module): def __init__(self, featureSize, symmetrySize, hiddenSize): super().__init__() self.left = nn.Linear(featureSize, hiddenSize) self.right = nn.Linear(symmetrySize, hiddenSize) self.second = nn.Linear(hiddenSize, hiddenSize) self.third = nn.Linear(hiddenSize, featureSize) self.tanh = nn.Tanh() def forward(self, left_in, right_in): out = self.left(left_in) out += self.right(right_in) out = self.tanh(out) out = self.second(out) out = self.tanh(out) out = self.third(out) out = self.tanh(out) return out def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4, 4]
D_concat	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/tr/ctr4zp7r7yiztjwikrn4nrv7z7rsejvoxfqymoocauxbdydbltl7.py # Topologically Sorted Source Nodes: [inp], Original ATen: [aten.cat] # Source node to ATen node mapping: # inp => cat # Graph fragment: # %cat : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%view, %primals_2], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[8], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 8 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 2 x1 = (xindex // 2) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x1), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 2, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + (x1), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x2), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/tm/ctmrojiqvcjkqmyqyqksmtxds456nlkyuhqryquqf76hvpwtsd6z.py # Topologically Sorted Source Nodes: [input_2], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # input_2 => gt, mul, where # Graph fragment: # %add_tensor_2 : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default_2, %primals_4), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%add_tensor_2, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_tensor_2, 0.2), kwargs = {}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt, %add_tensor_2, %mul), kwargs = {}) triton_poi_fused_leaky_relu_1 = async_compile.triton('triton_poi_fused_leaky_relu_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 32 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.2 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(in_out_ptr0 + (x2), tmp7, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/xh/cxhwbkficswmnt3c2blivsmnyhqi55whtbohiqyxy2qak7jn4aee.py # Topologically Sorted Source Nodes: [input_6], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # input_6 => gt_2, mul_2, where_2 # Graph fragment: # %add_tensor : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_8), kwargs = {}) # %gt_2 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%add_tensor, 0), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_tensor, 0.2), kwargs = {}) # %where_2 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_2, %add_tensor, %mul_2), kwargs = {}) triton_poi_fused_leaky_relu_2 = async_compile.triton('triton_poi_fused_leaky_relu_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 16 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.2 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(in_out_ptr0 + (x2), tmp7, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (4, 1), (1, 1)) assert_size_stride(primals_2, (4, 1), (1, 1)) assert_size_stride(primals_3, (32, 2), (2, 1)) assert_size_stride(primals_4, (32, ), (1, )) assert_size_stride(primals_5, (32, 32), (32, 1)) assert_size_stride(primals_6, (32, ), (1, )) assert_size_stride(primals_7, (16, 32), (32, 1)) assert_size_stride(primals_8, (16, ), (1, )) assert_size_stride(primals_9, (1, 16), (16, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [inp], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_1, primals_2, buf0, 8, grid=grid(8), stream=stream0) del primals_1 del primals_2 buf1 = empty_strided_cuda((4, 32), (32, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf0, reinterpret_tensor(primals_3, (2, 32), (1, 2), 0), out=buf1) del primals_3 buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [input_2], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_1.run(buf2, primals_4, 128, grid=grid(128), stream=stream0) del primals_4 buf3 = empty_strided_cuda((4, 32), (32, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf2, reinterpret_tensor(primals_5, (32, 32), (1, 32), 0), out=buf3) buf4 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [input_4], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_1.run(buf4, primals_6, 128, grid=grid(128), stream=stream0) del primals_6 buf5 = empty_strided_cuda((4, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf4, reinterpret_tensor(primals_7, (32, 16), (1, 32), 0), out=buf5) buf6 = buf5; del buf5 # reuse # Topologically Sorted Source Nodes: [input_6], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_2.run(buf6, primals_8, 64, grid=grid(64), stream=stream0) del primals_8 buf7 = empty_strided_cuda((4, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_3], Original ATen: [aten.mm] extern_kernels.mm(buf6, reinterpret_tensor(primals_9, (16, 1), (1, 16), 0), out=buf7) return (buf7, buf0, buf2, buf4, buf6, primals_9, primals_7, primals_5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((32, 2), (2, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((32, 32), (32, 1), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((16, 32), (32, 1), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((1, 16), (16, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data import torch.nn as nn def add_layer(seq, ix, n_inputs, n_outputs, nonlin, normalization): seq.add_module('L' + str(ix), nn.Linear(n_inputs, n_outputs)) if ix > 0 and normalization: if normalization == 'LN': seq.main.add_module('A' + str(ix), nn.LayerNorm(n_outputs)) else: raise ValueError('Unknown normalization: {}'.format(normalization)) if nonlin == 'LeakyReLU': seq.add_module('N' + str(ix), nn.LeakyReLU(0.2, inplace=True)) elif nonlin == 'ReLU': seq.add_module('N' + str(ix), nn.ReLU(inplace=True)) elif nonlin == 'Sigmoid': seq.add_module('N' + str(ix), nn.Sigmoid()) class D_concat(nn.Module): def __init__(self, insizes=[1, 1], layerSizes=[32, 32, 16], nonlin= 'LeakyReLU', normalization=None): super(D_concat, self).__init__() insize = sum(insizes) self.main = nn.Sequential() for ix, n_inputs, n_outputs in zip(range(len(layerSizes)), [insize] + layerSizes[:-1], layerSizes): add_layer(self.main, ix, n_inputs, n_outputs, nonlin, normalization ) self.PhiD = n_outputs self.V = nn.Linear(self.PhiD, 1, bias=False) self.V.weight.data *= 100 def forward(self, x, y): x = x.view(x.size(0), -1) y = y.view(x.size(0), 1) inp = torch.cat([x, y], dim=1) phi = self.main(inp) return self.V(phi) def get_inputs(): return [torch.rand([4, 1]), torch.rand([4, 1])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.utils.data import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 8 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 2 x1 = xindex // 2 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + x1, tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 2, tl.int64) tmp9 = tl.load(in_ptr1 + x1, tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x2, tmp10, xmask) @triton.jit def triton_poi_fused_leaky_relu_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 32 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.2 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(in_out_ptr0 + x2, tmp7, xmask) @triton.jit def triton_poi_fused_leaky_relu_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 16 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.2 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(in_out_ptr0 + x2, tmp7, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (4, 1), (1, 1)) assert_size_stride(primals_2, (4, 1), (1, 1)) assert_size_stride(primals_3, (32, 2), (2, 1)) assert_size_stride(primals_4, (32,), (1,)) assert_size_stride(primals_5, (32, 32), (32, 1)) assert_size_stride(primals_6, (32,), (1,)) assert_size_stride(primals_7, (16, 32), (32, 1)) assert_size_stride(primals_8, (16,), (1,)) assert_size_stride(primals_9, (1, 16), (16, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 2), (2, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(8)](primals_1, primals_2, buf0, 8, XBLOCK=8, num_warps=1, num_stages=1) del primals_1 del primals_2 buf1 = empty_strided_cuda((4, 32), (32, 1), torch.float32) extern_kernels.mm(buf0, reinterpret_tensor(primals_3, (2, 32), (1, 2), 0), out=buf1) del primals_3 buf2 = buf1 del buf1 triton_poi_fused_leaky_relu_1[grid(128)](buf2, primals_4, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_4 buf3 = empty_strided_cuda((4, 32), (32, 1), torch.float32) extern_kernels.mm(buf2, reinterpret_tensor(primals_5, (32, 32), (1, 32), 0), out=buf3) buf4 = buf3 del buf3 triton_poi_fused_leaky_relu_1[grid(128)](buf4, primals_6, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_6 buf5 = empty_strided_cuda((4, 16), (16, 1), torch.float32) extern_kernels.mm(buf4, reinterpret_tensor(primals_7, (32, 16), (1, 32), 0), out=buf5) buf6 = buf5 del buf5 triton_poi_fused_leaky_relu_2[grid(64)](buf6, primals_8, 64, XBLOCK =64, num_warps=1, num_stages=1) del primals_8 buf7 = empty_strided_cuda((4, 1), (1, 1), torch.float32) extern_kernels.mm(buf6, reinterpret_tensor(primals_9, (16, 1), (1, 16), 0), out=buf7) return buf7, buf0, buf2, buf4, buf6, primals_9, primals_7, primals_5 def add_layer(seq, ix, n_inputs, n_outputs, nonlin, normalization): seq.add_module('L' + str(ix), nn.Linear(n_inputs, n_outputs)) if ix > 0 and normalization: if normalization == 'LN': seq.main.add_module('A' + str(ix), nn.LayerNorm(n_outputs)) else: raise ValueError('Unknown normalization: {}'.format(normalization)) if nonlin == 'LeakyReLU': seq.add_module('N' + str(ix), nn.LeakyReLU(0.2, inplace=True)) elif nonlin == 'ReLU': seq.add_module('N' + str(ix), nn.ReLU(inplace=True)) elif nonlin == 'Sigmoid': seq.add_module('N' + str(ix), nn.Sigmoid()) class D_concatNew(nn.Module): def __init__(self, insizes=[1, 1], layerSizes=[32, 32, 16], nonlin= 'LeakyReLU', normalization=None): super(D_concatNew, self).__init__() insize = sum(insizes) self.main = nn.Sequential() for ix, n_inputs, n_outputs in zip(range(len(layerSizes)), [insize] + layerSizes[:-1], layerSizes): add_layer(self.main, ix, n_inputs, n_outputs, nonlin, normalization ) self.PhiD = n_outputs self.V = nn.Linear(self.PhiD, 1, bias=False) self.V.weight.data *= 100 def forward(self, input_0, input_1): primals_3 = self.main.L0.weight primals_4 = self.main.L0.bias primals_5 = self.main.L1.weight primals_6 = self.main.L1.bias primals_7 = self.main.L2.weight primals_8 = self.main.L2.bias primals_9 = self.V.weight primals_1 = input_0 primals_2 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0]	Bhaskers-Blu-Org1/SIC	D_concat	false	7,790	[ "Apache-2.0" ]	12	c4e45d7736da6e6faabdc56bfc1336445df99204	https://github.com/Bhaskers-Blu-Org1/SIC/tree/c4e45d7736da6e6faabdc56bfc1336445df99204	import torch import torch.utils.data import torch.nn as nn def add_layer(seq, ix, n_inputs, n_outputs, nonlin, normalization): seq.add_module('L' + str(ix), nn.Linear(n_inputs, n_outputs)) if ix > 0 and normalization: if normalization == 'LN': seq.main.add_module('A' + str(ix), nn.LayerNorm(n_outputs)) else: raise ValueError('Unknown normalization: {}'.format(normalization)) if nonlin == 'LeakyReLU': seq.add_module('N' + str(ix), nn.LeakyReLU(0.2, inplace=True)) elif nonlin == 'ReLU': seq.add_module('N' + str(ix), nn.ReLU(inplace=True)) elif nonlin == 'Sigmoid': seq.add_module('N' + str(ix), nn.Sigmoid()) class Model(nn.Module): def __init__(self, insizes=[1, 1], layerSizes=[32, 32, 16], nonlin= 'LeakyReLU', normalization=None): super().__init__() insize = sum(insizes) self.main = nn.Sequential() for ix, n_inputs, n_outputs in zip(range(len(layerSizes)), [insize] + layerSizes[:-1], layerSizes): add_layer(self.main, ix, n_inputs, n_outputs, nonlin, normalization ) self.PhiD = n_outputs self.V = nn.Linear(self.PhiD, 1, bias=False) self.V.weight.data *= 100 def forward(self, x, y): x = x.view(x.size(0), -1) y = y.view(x.size(0), 1) inp = torch.cat([x, y], dim=1) phi = self.main(inp) return self.V(phi) def get_inputs(): return [torch.rand([4, 1]), torch.rand([4, 1])] def get_init_inputs(): return []
RSoftmax	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/kq/ckqglep2uxxmtpvso6erxkbhcljhsx4d2chzqc2ps72gtorqejiz.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten._softmax] # Source node to ATen node mapping: # x_1 => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%permute, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%permute, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_0 = async_compile.triton('triton_poi_fused__softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (16 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (32 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (48 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x3), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/tv/ctvxncyzu7pcogaepwuywlkrtigk7ke4tdgbkdfypvu626jp7xvj.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten._softmax] # Source node to ATen node mapping: # x_1 => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (16 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (32 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (48 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 16), (64, 16, 256, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 buf1 = empty_strided_cuda((4, 4, 1, 16), (64, 16, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf0, buf1, 256, grid=grid(256), stream=stream0) del buf0 return (reinterpret_tensor(buf1, (4, 64), (64, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F from torch import nn class RSoftmax(nn.Module): """Radix Softmax module in ``SplitAttentionConv2d``. Args: radix (int): Radix of input. groups (int): Groups of input. """ def __init__(self, radix, groups): super().__init__() self.radix = radix self.groups = groups def forward(self, x): batch = x.size(0) if self.radix > 1: x = x.view(batch, self.groups, self.radix, -1).transpose(1, 2) x = F.softmax(x, dim=1) x = x.reshape(batch, -1) else: x = torch.sigmoid(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'radix': 4, 'groups': 1}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (16 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (32 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (48 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x3, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (16 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (32 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (48 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x3, tmp8, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 16), (64, 16, 256, 1), torch. float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(256)](arg0_1, buf0, 256, XBLOCK= 128, num_warps=4, num_stages=1) del arg0_1 buf1 = empty_strided_cuda((4, 4, 1, 16), (64, 16, 16, 1), torch.float32 ) triton_poi_fused__softmax_1[grid(256)](buf0, buf1, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf0 return reinterpret_tensor(buf1, (4, 64), (64, 1), 0), class RSoftmaxNew(nn.Module): """Radix Softmax module in ``SplitAttentionConv2d``. Args: radix (int): Radix of input. groups (int): Groups of input. """ def __init__(self, radix, groups): super().__init__() self.radix = radix self.groups = groups def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Bo396543018/Picodet_Pytorch	RSoftmax	false	7,791	[ "Apache-2.0" ]	16	276ecbf6f4f7eefbf046d1bccc25293acf28ba25	https://github.com/Bo396543018/Picodet_Pytorch/tree/276ecbf6f4f7eefbf046d1bccc25293acf28ba25	import torch import torch.nn.functional as F from torch import nn class Model(nn.Module): """Radix Softmax module in ``SplitAttentionConv2d``. Args: radix (int): Radix of input. groups (int): Groups of input. """ def __init__(self, radix, groups): super().__init__() self.radix = radix self.groups = groups def forward(self, x): batch = x.size(0) if self.radix > 1: x = x.view(batch, self.groups, self.radix, -1).transpose(1, 2) x = F.softmax(x, dim=1) x = x.reshape(batch, -1) else: x = torch.sigmoid(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 1]
PerceptronTanh	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/4g/c4guhk7x6skkidedvs2gxz2kcu6gb76l3ig5crjjvjtzvnjlhlte.py # Topologically Sorted Source Nodes: [relu], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # relu => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/wz/cwzx2pjxfk3fxtdo25yuw5y5ndvkkvkbj5ya3xe7nmh2del2jvk5.py # Topologically Sorted Source Nodes: [tanh], Original ATen: [aten.tanh] # Source node to ATen node mapping: # tanh => tanh # Graph fragment: # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%view_3,), kwargs = {}) triton_poi_fused_tanh_1 = async_compile.triton('triton_poi_fused_tanh_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_1(in_out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = libdevice.tanh(tmp0) tl.store(in_out_ptr0 + (x0), tmp1, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [relu], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_2, buf4, 256, grid=grid(256), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [tanh], Original ATen: [aten.tanh] triton_poi_fused_tanh_1.run(buf3, 256, grid=grid(256), stream=stream0) return (buf3, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), buf3, primals_4, buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class PerceptronTanh(nn.Module): """Implements a 1-layer perceptron with Tanh activaton.""" def __init__(self, input_dimension, hidden_dimension, output_dimension): super(PerceptronTanh, self).__init__() self._layer1 = nn.Linear(input_dimension, hidden_dimension) self._layer2 = nn.Linear(hidden_dimension, output_dimension, bias=False ) def forward(self, inp): return F.tanh(self._layer2(F.relu(self._layer1(inp)))) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dimension': 4, 'hidden_dimension': 4, 'output_dimension': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_tanh_1(in_out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = libdevice.tanh(tmp0) tl.store(in_out_ptr0 + x0, tmp1, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(256)](buf1, primals_2, buf4, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf2 triton_poi_fused_tanh_1[grid(256)](buf3, 256, XBLOCK=128, num_warps =4, num_stages=1) return buf3, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), buf3, primals_4, buf4 class PerceptronTanhNew(nn.Module): """Implements a 1-layer perceptron with Tanh activaton.""" def __init__(self, input_dimension, hidden_dimension, output_dimension): super(PerceptronTanhNew, self).__init__() self._layer1 = nn.Linear(input_dimension, hidden_dimension) self._layer2 = nn.Linear(hidden_dimension, output_dimension, bias=False ) def forward(self, input_0): primals_1 = self._layer1.weight primals_2 = self._layer1.bias primals_4 = self._layer2.weight primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	Bhaskers-Blu-Org2/PDP-Solver	PerceptronTanh	false	7,792	[ "MIT" ]	28	1fca34d81f36268288f46416fb6956e5b36df69e	https://github.com/Bhaskers-Blu-Org2/PDP-Solver/tree/1fca34d81f36268288f46416fb6956e5b36df69e	import torch import torch.nn as nn import torch.nn.functional as F class Model(nn.Module): """Implements a 1-layer perceptron with Tanh activaton.""" def __init__(self, input_dimension, hidden_dimension, output_dimension): super().__init__() self._layer1 = nn.Linear(input_dimension, hidden_dimension) self._layer2 = nn.Linear(hidden_dimension, output_dimension, bias=False ) def forward(self, inp): return F.tanh(self._layer2(F.relu(self._layer1(inp)))) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dimension': 4, 'hidden_dimension': 4, 'output_dimension': 4}]
SymDecoder	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/qs/cqsgbydauqwdluexymrszxq7nqjh3tcbqqiq5ccrsj74pb354tqf.py # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.tanh] # Source node to ATen node mapping: # out_1 => tanh # Graph fragment: # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%view_1,), kwargs = {}) triton_poi_fused_tanh_0 = async_compile.triton('triton_poi_fused_tanh_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, 4), (4, 1)) assert_size_stride(primals_9, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_tanh_0.run(buf1, primals_2, 256, grid=grid(256), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [out_3], Original ATen: [aten.tanh] triton_poi_fused_tanh_0.run(buf3, primals_5, 256, grid=grid(256), stream=stream0) del primals_5 buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf4 # reuse # Topologically Sorted Source Nodes: [f_1], Original ATen: [aten.tanh] triton_poi_fused_tanh_0.run(buf5, primals_7, 256, grid=grid(256), stream=stream0) del primals_7 buf6 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), out=buf6) buf7 = reinterpret_tensor(buf6, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf6 # reuse # Topologically Sorted Source Nodes: [s_1], Original ATen: [aten.tanh] triton_poi_fused_tanh_0.run(buf7, primals_9, 256, grid=grid(256), stream=stream0) del primals_9 return (buf5, buf7, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf1, buf3, buf5, buf7, primals_8, primals_6, primals_4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn import torch.utils.data class SymDecoder(nn.Module): def __init__(self, featureSize, symmetrySize, hiddenSize): super(SymDecoder, self).__init__() self.decode = nn.Linear(featureSize, hiddenSize) self.second = nn.Linear(hiddenSize, hiddenSize) self.tanh = nn.Tanh() self.left = nn.Linear(hiddenSize, featureSize) self.right = nn.Linear(hiddenSize, symmetrySize) def forward(self, parent_in): out = self.decode(parent_in) out = self.tanh(out) out = self.second(out) out = self.tanh(out) f = self.left(out) f = self.tanh(f) s = self.right(out) s = self.tanh(s) return f, s def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'featureSize': 4, 'symmetrySize': 4, 'hiddenSize': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice from torch import nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_tanh_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4, 4), (4, 1)) assert_size_stride(primals_9, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 get_raw_stream(0) triton_poi_fused_tanh_0[grid(256)](buf1, primals_2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf2 triton_poi_fused_tanh_0[grid(256)](buf3, primals_5, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf4 triton_poi_fused_tanh_0[grid(256)](buf5, primals_7, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_7 buf6 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), out=buf6) buf7 = reinterpret_tensor(buf6, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf6 triton_poi_fused_tanh_0[grid(256)](buf7, primals_9, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_9 return buf5, buf7, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), buf1, buf3, buf5, buf7, primals_8, primals_6, primals_4 class SymDecoderNew(nn.Module): def __init__(self, featureSize, symmetrySize, hiddenSize): super(SymDecoderNew, self).__init__() self.decode = nn.Linear(featureSize, hiddenSize) self.second = nn.Linear(hiddenSize, hiddenSize) self.tanh = nn.Tanh() self.left = nn.Linear(hiddenSize, featureSize) self.right = nn.Linear(hiddenSize, symmetrySize) def forward(self, input_0): primals_1 = self.decode.weight primals_2 = self.decode.bias primals_4 = self.second.weight primals_5 = self.second.bias primals_6 = self.left.weight primals_7 = self.left.bias primals_8 = self.right.weight primals_9 = self.right.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0], output[1]	BigkoalaZhu/SCORES	SymDecoder	false	7,793	[ "MIT" ]	16	8332733c375ee85c02bd34c2adce6a3213aad3c4	https://github.com/BigkoalaZhu/SCORES/tree/8332733c375ee85c02bd34c2adce6a3213aad3c4	import torch from torch import nn import torch.utils.data class Model(nn.Module): def __init__(self, featureSize, symmetrySize, hiddenSize): super().__init__() self.decode = nn.Linear(featureSize, hiddenSize) self.second = nn.Linear(hiddenSize, hiddenSize) self.tanh = nn.Tanh() self.left = nn.Linear(hiddenSize, featureSize) self.right = nn.Linear(hiddenSize, symmetrySize) def forward(self, parent_in): out = self.decode(parent_in) out = self.tanh(out) out = self.second(out) out = self.tanh(out) f = self.left(out) f = self.tanh(f) s = self.right(out) s = self.tanh(s) return f, s def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4, 4]
NormedConv2d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/rh/crhzpcue6vmnkgimtgfmn64edmwldecj7kxqs7ffzxrfudgaxawy.py # Topologically Sorted Source Nodes: [norm, pow_1, add, weight_], Original ATen: [aten.linalg_vector_norm, aten.pow, aten.add, aten.div] # Source node to ATen node mapping: # add => add # norm => pow_1, pow_2, sum_1 # pow_1 => pow_3 # weight_ => div # Graph fragment: # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%primals_1, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [1], True), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_1, 0.5), kwargs = {}) # %pow_3 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%pow_2, 1.0), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%pow_3, 1e-06), kwargs = {}) # %div : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%primals_1, %add), kwargs = {}) triton_poi_fused_add_div_linalg_vector_norm_pow_0 = async_compile.triton('triton_poi_fused_add_div_linalg_vector_norm_pow_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_div_linalg_vector_norm_pow_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_div_linalg_vector_norm_pow_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-06 tmp14 = tmp12 + tmp13 tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + (x3), tmp15, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/7w/c7wxx5vnb4divwoya55ktiopa5y62tixdp77wcso6xscsdu7ayhl.py # Topologically Sorted Source Nodes: [norm_1, pow_2, add_1, x_, x__1], Original ATen: [aten.linalg_vector_norm, aten.pow, aten.add, aten.div, aten.mul] # Source node to ATen node mapping: # add_1 => add_1 # norm_1 => pow_4, pow_5, sum_2 # pow_2 => pow_6 # x_ => div_1 # x__1 => mul # Graph fragment: # %pow_4 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%primals_2, 2), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_4, [1], True), kwargs = {}) # %pow_5 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_2, 0.5), kwargs = {}) # %pow_6 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%pow_5, 1.0), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%pow_6, 1e-06), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%primals_2, %add_1), kwargs = {}) # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%div_1, 20), kwargs = {}) triton_poi_fused_add_div_linalg_vector_norm_mul_pow_1 = async_compile.triton('triton_poi_fused_add_div_linalg_vector_norm_mul_pow_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_div_linalg_vector_norm_mul_pow_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_div_linalg_vector_norm_mul_pow_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = (xindex // 64) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (64x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + (64x2)), xmask, eviction_policy='evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-06 tmp14 = tmp12 + tmp13 tmp15 = tmp0 / tmp14 tmp16 = 20.0 tmp17 = tmp15 * tmp16 tl.store(out_ptr0 + (x3), tmp17, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/x7/cx7evvvm7te22h7xf3yh7pnjatqie5vy54vyorfffrtctztd4wn5.py # Topologically Sorted Source Nodes: [x__2], Original ATen: [aten.convolution] # Source node to ATen node mapping: # x__2 => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%mul, %div, %primals_3, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_2 = async_compile.triton('triton_poi_fused_convolution_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x2), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [norm, pow_1, add, weight_], Original ATen: [aten.linalg_vector_norm, aten.pow, aten.add, aten.div] stream0 = get_raw_stream(0) triton_poi_fused_add_div_linalg_vector_norm_pow_0.run(primals_1, buf0, 256, grid=grid(256), stream=stream0) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [norm_1, pow_2, add_1, x_, x__1], Original ATen: [aten.linalg_vector_norm, aten.pow, aten.add, aten.div, aten.mul] triton_poi_fused_add_div_linalg_vector_norm_mul_pow_1.run(primals_2, buf1, 256, grid=grid(256), stream=stream0) del primals_2 # Topologically Sorted Source Nodes: [x__2], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 4, 1, 1), (4, 1, 1, 1)) buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [x__2], Original ATen: [aten.convolution] triton_poi_fused_convolution_2.run(buf3, primals_3, 16, grid=grid(16), stream=stream0) del primals_3 return (buf3, primals_1, buf0, buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn class NormedConv2d(nn.Conv2d): """Normalized Conv2d Layer. Args: tempeature (float, optional): Tempeature term. Default to 20. power (int, optional): Power term. Default to 1.0. eps (float, optional): The minimal value of divisor to keep numerical stability. Default to 1e-6. norm_over_kernel (bool, optional): Normalize over kernel. Default to False. """ def __init__(self, args, tempearture=20, power=1.0, eps=1e-06, norm_over_kernel=False, kwargs): super(NormedConv2d, self).__init__(args, *kwargs) self.tempearture = tempearture self.power = power self.norm_over_kernel = norm_over_kernel self.eps = eps def forward(self, x): if not self.norm_over_kernel: weight_ = self.weight / (self.weight.norm(dim=1, keepdim=True). pow(self.power) + self.eps) else: weight_ = self.weight / (self.weight.view(self.weight.size(0), -1).norm(dim=1, keepdim=True).pow(self.power)[..., None, None] + self.eps) x_ = x / (x.norm(dim=1, keepdim=True).pow(self.power) + self.eps) x_ = x_ self.tempearture if hasattr(self, 'conv2d_forward'): x_ = self.conv2d_forward(x_, weight_) elif torch.__version__ >= '1.8': x_ = self._conv_forward(x_, weight_, self.bias) else: x_ = self._conv_forward(x_, weight_) return x_ def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_div_linalg_vector_norm_pow_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-06 tmp14 = tmp12 + tmp13 tmp15 = tmp0 / tmp14 tl.store(out_ptr0 + x3, tmp15, xmask) @triton.jit def triton_poi_fused_add_div_linalg_vector_norm_mul_pow_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 16 x2 = xindex // 64 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (16 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (32 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (48 + x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tmp1 * tmp1 tmp4 = tmp3 * tmp3 tmp5 = tmp2 + tmp4 tmp7 = tmp6 * tmp6 tmp8 = tmp5 + tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = 1e-06 tmp14 = tmp12 + tmp13 tmp15 = tmp0 / tmp14 tmp16 = 20.0 tmp17 = tmp15 * tmp16 tl.store(out_ptr0 + x3, tmp17, xmask) @triton.jit def triton_poi_fused_convolution_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x2, tmp2, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_div_linalg_vector_norm_pow_0[grid(256)](primals_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_add_div_linalg_vector_norm_mul_pow_1[grid(256)]( primals_2, buf1, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 4, 1, 1), (4, 1, 1, 1)) buf3 = buf2 del buf2 triton_poi_fused_convolution_2[grid(16)](buf3, primals_3, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_3 return buf3, primals_1, buf0, buf1 class NormedConv2dNew(nn.Conv2d): """Normalized Conv2d Layer. Args: tempeature (float, optional): Tempeature term. Default to 20. power (int, optional): Power term. Default to 1.0. eps (float, optional): The minimal value of divisor to keep numerical stability. Default to 1e-6. norm_over_kernel (bool, optional): Normalize over kernel. Default to False. """ def __init__(self, args, tempearture=20, power=1.0, eps=1e-06, norm_over_kernel=False, kwargs): super(NormedConv2dNew, self).__init__(args, **kwargs) self.tempearture = tempearture self.power = power self.norm_over_kernel = norm_over_kernel self.eps = eps def forward(self, input_0): primals_1 = self.weight primals_3 = self.bias primals_2 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	Bo396543018/mmdetection	NormedConv2d	false	7,794	[ "Apache-2.0" ]	16	eb337336d3c239dc1d20534496f69df41ae9a300	https://github.com/Bo396543018/mmdetection/tree/eb337336d3c239dc1d20534496f69df41ae9a300	import torch from torch import nn class Model(nn.Conv2d): """Normalized Conv2d Layer. Args: tempeature (float, optional): Tempeature term. Default to 20. power (int, optional): Power term. Default to 1.0. eps (float, optional): The minimal value of divisor to keep numerical stability. Default to 1e-6. norm_over_kernel (bool, optional): Normalize over kernel. Default to False. """ def __init__(self, args, tempearture=20, power=1.0, eps=1e-06, norm_over_kernel=False, kwargs): super().__init__(args, *kwargs) self.tempearture = tempearture self.power = power self.norm_over_kernel = norm_over_kernel self.eps = eps def forward(self, x): if not self.norm_over_kernel: weight_ = self.weight / (self.weight.norm(dim=1, keepdim=True). pow(self.power) + self.eps) else: weight_ = self.weight / (self.weight.view(self.weight.size(0), -1).norm(dim=1, keepdim=True).pow(self.power)[..., None, None] + self.eps) x_ = x / (x.norm(dim=1, keepdim=True).pow(self.power) + self.eps) x_ = x_ self.tempearture if hasattr(self, 'conv2d_forward'): x_ = self.conv2d_forward(x_, weight_) elif torch.__version__ >= '1.8': x_ = self._conv_forward(x_, weight_, self.bias) else: x_ = self._conv_forward(x_, weight_) return x_ def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4, 4]
GAT	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/cn/ccn4qol6grwbb3gasxa7ibg3vjb7ieor7qdp6swijguqqbukwccp.py # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%view, %repeat_1], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = (xindex // 8) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4((((4x1) + x0) // 16) % 4)) + ((((4x1) + x0) % 16) % 4)), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr0 + ((4(x1 % 4)) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x2), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/4r/c4r7qkyes5rbryciwaphgmxru6ck7iweqdesggebzgrgp5ryzwzx.py # Topologically Sorted Source Nodes: [e], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # e => gt # Graph fragment: # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%squeeze, 0), kwargs = {}) triton_poi_fused_leaky_relu_1 = async_compile.triton('triton_poi_fused_leaky_relu_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i1', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_leaky_relu_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_leaky_relu_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/kg/ckgsbli2cqflpwmdemarltfcgvccyfff4hbwg2vkr2e4kg2nfwfz.py # Topologically Sorted Source Nodes: [e, zero_vec, attention, attention_1, e_1, attention_3, attention_4, e_2, attention_6, attention_7, e_3, attention_9, attention_10], Original ATen: [aten.leaky_relu, aten.mul, aten.where, aten._softmax] # Source node to ATen node mapping: # attention => where_1 # attention_1 => amax, exp, sub, sum_1 # attention_10 => amax_3, exp_3, sub_3, sum_4 # attention_3 => where_4 # attention_4 => amax_1, exp_1, sub_1, sum_2 # attention_6 => where_7 # attention_7 => amax_2, exp_2, sub_2, sum_3 # attention_9 => where_10 # e => mul, where # e_1 => mul_5, where_3 # e_2 => mul_10, where_6 # e_3 => mul_15, where_9 # zero_vec => full_default # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze, 4), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %squeeze, %mul), kwargs = {}) # %full_default : [num_users=5] = call_function[target=torch.ops.aten.full.default](args = ([4, 4], -8999999815811072.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_1 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %where, %full_default), kwargs = {}) # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where_1, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where_1, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze_1, 4), kwargs = {}) # %where_3 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_3, %squeeze_1, %mul_5), kwargs = {}) # %where_4 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %where_3, %full_default), kwargs = {}) # %amax_1 : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where_4, [1], True), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where_4, %amax_1), kwargs = {}) # %exp_1 : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub_1,), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp_1, [1], True), kwargs = {}) # %mul_10 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze_2, 4), kwargs = {}) # %where_6 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_6, %squeeze_2, %mul_10), kwargs = {}) # %where_7 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %where_6, %full_default), kwargs = {}) # %amax_2 : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where_7, [1], True), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where_7, %amax_2), kwargs = {}) # %exp_2 : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub_2,), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp_2, [1], True), kwargs = {}) # %mul_15 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze_3, 4), kwargs = {}) # %where_9 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_9, %squeeze_3, %mul_15), kwargs = {}) # %where_10 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %where_9, %full_default), kwargs = {}) # %amax_3 : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where_10, [1], True), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where_10, %amax_3), kwargs = {}) # %exp_3 : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub_3,), kwargs = {}) # %sum_4 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp_3, [1], True), kwargs = {}) triton_poi_fused__softmax_leaky_relu_mul_where_2 = async_compile.triton('triton_poi_fused__softmax_leaky_relu_mul_where_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'i1', 1: 'i1', 2: 'fp32', 3: 'i1', 4: 'fp32', 5: 'i1', 6: 'fp32', 7: 'i1', 8: 'fp32', 9: 'fp32', 10: 'fp32', 11: 'fp32', 12: 'fp32', 13: 'fp32', 14: 'fp32', 15: 'fp32', 16: 'fp32', 17: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_leaky_relu_mul_where_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 36, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_leaky_relu_mul_where_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, in_ptr8, out_ptr0, out_ptr1, out_ptr2, out_ptr3, out_ptr4, out_ptr5, out_ptr6, out_ptr7, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + (4x0), xmask, eviction_policy='evict_last').to(tl.int1) tmp2 = tl.load(in_ptr2 + (4x0), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp9 = tl.load(in_ptr1 + (1 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp10 = tl.load(in_ptr2 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp16 = tl.load(in_ptr1 + (2 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp17 = tl.load(in_ptr2 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp22 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp23 = tl.load(in_ptr1 + (3 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp24 = tl.load(in_ptr2 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp40 = tl.load(in_ptr3 + (4x0), xmask, eviction_policy='evict_last').to(tl.int1) tmp41 = tl.load(in_ptr4 + (4x0), xmask, eviction_policy='evict_last') tmp45 = tl.load(in_ptr3 + (1 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp46 = tl.load(in_ptr4 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp51 = tl.load(in_ptr3 + (2 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp52 = tl.load(in_ptr4 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp57 = tl.load(in_ptr3 + (3 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp58 = tl.load(in_ptr4 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp74 = tl.load(in_ptr5 + (4x0), xmask, eviction_policy='evict_last').to(tl.int1) tmp75 = tl.load(in_ptr6 + (4x0), xmask, eviction_policy='evict_last') tmp79 = tl.load(in_ptr5 + (1 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp80 = tl.load(in_ptr6 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp85 = tl.load(in_ptr5 + (2 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp86 = tl.load(in_ptr6 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp91 = tl.load(in_ptr5 + (3 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp92 = tl.load(in_ptr6 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp108 = tl.load(in_ptr7 + (4x0), xmask, eviction_policy='evict_last').to(tl.int1) tmp109 = tl.load(in_ptr8 + (4x0), xmask, eviction_policy='evict_last') tmp113 = tl.load(in_ptr7 + (1 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp114 = tl.load(in_ptr8 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp119 = tl.load(in_ptr7 + (2 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp120 = tl.load(in_ptr8 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp125 = tl.load(in_ptr7 + (3 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp126 = tl.load(in_ptr8 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp3 = 4.0 tmp4 = tmp2 * tmp3 tmp5 = tl.where(tmp1, tmp2, tmp4) tmp6 = -8999999815811072.0 tmp7 = tl.where(tmp0, tmp5, tmp6) tmp11 = tmp10 * tmp3 tmp12 = tl.where(tmp9, tmp10, tmp11) tmp13 = tl.where(tmp8, tmp12, tmp6) tmp14 = triton_helpers.maximum(tmp7, tmp13) tmp18 = tmp17 * tmp3 tmp19 = tl.where(tmp16, tmp17, tmp18) tmp20 = tl.where(tmp15, tmp19, tmp6) tmp21 = triton_helpers.maximum(tmp14, tmp20) tmp25 = tmp24 * tmp3 tmp26 = tl.where(tmp23, tmp24, tmp25) tmp27 = tl.where(tmp22, tmp26, tmp6) tmp28 = triton_helpers.maximum(tmp21, tmp27) tmp29 = tmp7 - tmp28 tmp30 = tl_math.exp(tmp29) tmp31 = tmp13 - tmp28 tmp32 = tl_math.exp(tmp31) tmp33 = tmp30 + tmp32 tmp34 = tmp20 - tmp28 tmp35 = tl_math.exp(tmp34) tmp36 = tmp33 + tmp35 tmp37 = tmp27 - tmp28 tmp38 = tl_math.exp(tmp37) tmp39 = tmp36 + tmp38 tmp42 = tmp41 * tmp3 tmp43 = tl.where(tmp40, tmp41, tmp42) tmp44 = tl.where(tmp0, tmp43, tmp6) tmp47 = tmp46 * tmp3 tmp48 = tl.where(tmp45, tmp46, tmp47) tmp49 = tl.where(tmp8, tmp48, tmp6) tmp50 = triton_helpers.maximum(tmp44, tmp49) tmp53 = tmp52 * tmp3 tmp54 = tl.where(tmp51, tmp52, tmp53) tmp55 = tl.where(tmp15, tmp54, tmp6) tmp56 = triton_helpers.maximum(tmp50, tmp55) tmp59 = tmp58 * tmp3 tmp60 = tl.where(tmp57, tmp58, tmp59) tmp61 = tl.where(tmp22, tmp60, tmp6) tmp62 = triton_helpers.maximum(tmp56, tmp61) tmp63 = tmp44 - tmp62 tmp64 = tl_math.exp(tmp63) tmp65 = tmp49 - tmp62 tmp66 = tl_math.exp(tmp65) tmp67 = tmp64 + tmp66 tmp68 = tmp55 - tmp62 tmp69 = tl_math.exp(tmp68) tmp70 = tmp67 + tmp69 tmp71 = tmp61 - tmp62 tmp72 = tl_math.exp(tmp71) tmp73 = tmp70 + tmp72 tmp76 = tmp75 * tmp3 tmp77 = tl.where(tmp74, tmp75, tmp76) tmp78 = tl.where(tmp0, tmp77, tmp6) tmp81 = tmp80 * tmp3 tmp82 = tl.where(tmp79, tmp80, tmp81) tmp83 = tl.where(tmp8, tmp82, tmp6) tmp84 = triton_helpers.maximum(tmp78, tmp83) tmp87 = tmp86 * tmp3 tmp88 = tl.where(tmp85, tmp86, tmp87) tmp89 = tl.where(tmp15, tmp88, tmp6) tmp90 = triton_helpers.maximum(tmp84, tmp89) tmp93 = tmp92 * tmp3 tmp94 = tl.where(tmp91, tmp92, tmp93) tmp95 = tl.where(tmp22, tmp94, tmp6) tmp96 = triton_helpers.maximum(tmp90, tmp95) tmp97 = tmp78 - tmp96 tmp98 = tl_math.exp(tmp97) tmp99 = tmp83 - tmp96 tmp100 = tl_math.exp(tmp99) tmp101 = tmp98 + tmp100 tmp102 = tmp89 - tmp96 tmp103 = tl_math.exp(tmp102) tmp104 = tmp101 + tmp103 tmp105 = tmp95 - tmp96 tmp106 = tl_math.exp(tmp105) tmp107 = tmp104 + tmp106 tmp110 = tmp109 * tmp3 tmp111 = tl.where(tmp108, tmp109, tmp110) tmp112 = tl.where(tmp0, tmp111, tmp6) tmp115 = tmp114 * tmp3 tmp116 = tl.where(tmp113, tmp114, tmp115) tmp117 = tl.where(tmp8, tmp116, tmp6) tmp118 = triton_helpers.maximum(tmp112, tmp117) tmp121 = tmp120 * tmp3 tmp122 = tl.where(tmp119, tmp120, tmp121) tmp123 = tl.where(tmp15, tmp122, tmp6) tmp124 = triton_helpers.maximum(tmp118, tmp123) tmp127 = tmp126 * tmp3 tmp128 = tl.where(tmp125, tmp126, tmp127) tmp129 = tl.where(tmp22, tmp128, tmp6) tmp130 = triton_helpers.maximum(tmp124, tmp129) tmp131 = tmp112 - tmp130 tmp132 = tl_math.exp(tmp131) tmp133 = tmp117 - tmp130 tmp134 = tl_math.exp(tmp133) tmp135 = tmp132 + tmp134 tmp136 = tmp123 - tmp130 tmp137 = tl_math.exp(tmp136) tmp138 = tmp135 + tmp137 tmp139 = tmp129 - tmp130 tmp140 = tl_math.exp(tmp139) tmp141 = tmp138 + tmp140 tl.store(out_ptr0 + (x0), tmp28, xmask) tl.store(out_ptr1 + (x0), tmp39, xmask) tl.store(out_ptr2 + (x0), tmp62, xmask) tl.store(out_ptr3 + (x0), tmp73, xmask) tl.store(out_ptr4 + (x0), tmp96, xmask) tl.store(out_ptr5 + (x0), tmp107, xmask) tl.store(out_ptr6 + (x0), tmp130, xmask) tl.store(out_ptr7 + (x0), tmp141, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/pv/cpvillqqnrhmtlvupjtc2katvjlr2witoru7t5pjarltgdz5pyra.py # Topologically Sorted Source Nodes: [e, zero_vec, attention, attention_1, e_1, attention_3, attention_4, e_2, attention_6, attention_7, e_3, attention_9, attention_10], Original ATen: [aten.leaky_relu, aten.mul, aten.where, aten._softmax] # Source node to ATen node mapping: # attention => where_1 # attention_1 => div, exp, sub # attention_10 => div_3, exp_3, sub_3 # attention_3 => where_4 # attention_4 => div_1, exp_1, sub_1 # attention_6 => where_7 # attention_7 => div_2, exp_2, sub_2 # attention_9 => where_10 # e => mul, where # e_1 => mul_5, where_3 # e_2 => mul_10, where_6 # e_3 => mul_15, where_9 # zero_vec => full_default # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze, 4), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %squeeze, %mul), kwargs = {}) # %full_default : [num_users=5] = call_function[target=torch.ops.aten.full.default](args = ([4, 4], -8999999815811072.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_1 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %where, %full_default), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where_1, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %div : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze_1, 4), kwargs = {}) # %where_3 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_3, %squeeze_1, %mul_5), kwargs = {}) # %where_4 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %where_3, %full_default), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where_4, %amax_1), kwargs = {}) # %exp_1 : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub_1,), kwargs = {}) # %div_1 : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp_1, %sum_2), kwargs = {}) # %mul_10 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze_2, 4), kwargs = {}) # %where_6 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_6, %squeeze_2, %mul_10), kwargs = {}) # %where_7 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %where_6, %full_default), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where_7, %amax_2), kwargs = {}) # %exp_2 : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub_2,), kwargs = {}) # %div_2 : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp_2, %sum_3), kwargs = {}) # %mul_15 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze_3, 4), kwargs = {}) # %where_9 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_9, %squeeze_3, %mul_15), kwargs = {}) # %where_10 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %where_9, %full_default), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where_10, %amax_3), kwargs = {}) # %exp_3 : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub_3,), kwargs = {}) # %div_3 : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp_3, %sum_4), kwargs = {}) triton_poi_fused__softmax_leaky_relu_mul_where_3 = async_compile.triton('triton_poi_fused__softmax_leaky_relu_mul_where_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i1', 5: 'i1', 6: 'fp32', 7: 'fp32', 8: 'i1', 9: 'fp32', 10: 'fp32', 11: 'i1', 12: 'fp32', 13: 'fp32', 14: 'i1', 15: 'fp32', 16: 'fp32', 17: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_leaky_relu_mul_where_3', 'mutated_arg_names': ['in_out_ptr0', 'in_out_ptr1', 'in_out_ptr2', 'in_out_ptr3'], 'no_x_dim': False, 'num_load': 17, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_leaky_relu_mul_where_3(in_out_ptr0, in_out_ptr1, in_out_ptr2, in_out_ptr3, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, in_ptr8, in_ptr9, in_ptr10, in_ptr11, in_ptr12, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask).to(tl.int1) tmp1 = tl.load(in_ptr1 + (x2), xmask).to(tl.int1) tmp2 = tl.load(in_out_ptr0 + (x2), xmask) tmp8 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr3 + (x1), xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr4 + (x2), xmask).to(tl.int1) tmp14 = tl.load(in_out_ptr1 + (x2), xmask) tmp18 = tl.load(in_ptr5 + (x1), xmask, eviction_policy='evict_last') tmp21 = tl.load(in_ptr6 + (x1), xmask, eviction_policy='evict_last') tmp23 = tl.load(in_ptr7 + (x2), xmask).to(tl.int1) tmp24 = tl.load(in_out_ptr2 + (x2), xmask) tmp28 = tl.load(in_ptr8 + (x1), xmask, eviction_policy='evict_last') tmp31 = tl.load(in_ptr9 + (x1), xmask, eviction_policy='evict_last') tmp33 = tl.load(in_ptr10 + (x2), xmask).to(tl.int1) tmp34 = tl.load(in_out_ptr3 + (x2), xmask) tmp38 = tl.load(in_ptr11 + (x1), xmask, eviction_policy='evict_last') tmp41 = tl.load(in_ptr12 + (x1), xmask, eviction_policy='evict_last') tmp3 = 4.0 tmp4 = tmp2 * tmp3 tmp5 = tl.where(tmp1, tmp2, tmp4) tmp6 = -8999999815811072.0 tmp7 = tl.where(tmp0, tmp5, tmp6) tmp9 = tmp7 - tmp8 tmp10 = tl_math.exp(tmp9) tmp12 = tmp10 / tmp11 tmp15 = tmp14 * tmp3 tmp16 = tl.where(tmp13, tmp14, tmp15) tmp17 = tl.where(tmp0, tmp16, tmp6) tmp19 = tmp17 - tmp18 tmp20 = tl_math.exp(tmp19) tmp22 = tmp20 / tmp21 tmp25 = tmp24 * tmp3 tmp26 = tl.where(tmp23, tmp24, tmp25) tmp27 = tl.where(tmp0, tmp26, tmp6) tmp29 = tmp27 - tmp28 tmp30 = tl_math.exp(tmp29) tmp32 = tmp30 / tmp31 tmp35 = tmp34 * tmp3 tmp36 = tl.where(tmp33, tmp34, tmp35) tmp37 = tl.where(tmp0, tmp36, tmp6) tmp39 = tmp37 - tmp38 tmp40 = tl_math.exp(tmp39) tmp42 = tmp40 / tmp41 tl.store(in_out_ptr0 + (x2), tmp12, xmask) tl.store(in_out_ptr1 + (x2), tmp22, xmask) tl.store(in_out_ptr2 + (x2), tmp32, xmask) tl.store(in_out_ptr3 + (x2), tmp42, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/hh/chh6w2ghklyzywtaoo3lcd3onberm3miuk3c3djkdig4mqokonfe.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.cat] # Source node to ATen node mapping: # x_1 => cat_4 # Graph fragment: # %cat_4 : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%where_2, %where_5, %where_8, %where_11], 1), kwargs = {}) triton_poi_fused_cat_4 = async_compile.triton('triton_poi_fused_cat_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_4(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 16 x1 = (xindex // 16) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = 0.0 tmp7 = tmp5 > tmp6 tmp8 = 1.0 tmp9 = tmp5 tmp8 tmp10 = libdevice.expm1(tmp9) tmp11 = tmp10 * tmp8 tmp12 = tl.where(tmp7, tmp9, tmp11) tmp13 = tl.full(tmp12.shape, 0.0, tmp12.dtype) tmp14 = tl.where(tmp4, tmp12, tmp13) tmp15 = tmp0 >= tmp3 tmp16 = tl.full([1], 8, tl.int64) tmp17 = tmp0 < tmp16 tmp18 = tmp15 & tmp17 tmp19 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp18 & xmask, eviction_policy='evict_last', other=0.0) tmp20 = tmp19 > tmp6 tmp21 = tmp19 tmp8 tmp22 = libdevice.expm1(tmp21) tmp23 = tmp22 * tmp8 tmp24 = tl.where(tmp20, tmp21, tmp23) tmp25 = tl.full(tmp24.shape, 0.0, tmp24.dtype) tmp26 = tl.where(tmp18, tmp24, tmp25) tmp27 = tmp0 >= tmp16 tmp28 = tl.full([1], 12, tl.int64) tmp29 = tmp0 < tmp28 tmp30 = tmp27 & tmp29 tmp31 = tl.load(in_ptr2 + ((4x1) + ((-8) + x0)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp32 = tmp31 > tmp6 tmp33 = tmp31 tmp8 tmp34 = libdevice.expm1(tmp33) tmp35 = tmp34 * tmp8 tmp36 = tl.where(tmp32, tmp33, tmp35) tmp37 = tl.full(tmp36.shape, 0.0, tmp36.dtype) tmp38 = tl.where(tmp30, tmp36, tmp37) tmp39 = tmp0 >= tmp28 tmp40 = tl.full([1], 16, tl.int64) tmp41 = tmp0 < tmp40 tmp42 = tl.load(in_ptr3 + ((4x1) + ((-12) + x0)), tmp39 & xmask, eviction_policy='evict_last', other=0.0) tmp43 = tmp42 > tmp6 tmp44 = tmp42 tmp8 tmp45 = libdevice.expm1(tmp44) tmp46 = tmp45 * tmp8 tmp47 = tl.where(tmp43, tmp44, tmp46) tmp48 = tl.full(tmp47.shape, 0.0, tmp47.dtype) tmp49 = tl.where(tmp39, tmp47, tmp48) tmp50 = tl.where(tmp30, tmp38, tmp49) tmp51 = tl.where(tmp18, tmp26, tmp50) tmp52 = tl.where(tmp4, tmp14, tmp51) tl.store(out_ptr0 + (x2), tmp52, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ls/clsh2ie5vs3nrezepc6wdf5phem3l34645sxafim53m4q6ymeptn.py # Topologically Sorted Source Nodes: [zero_vec, e_4, attention_12, attention_13], Original ATen: [aten.mul, aten.leaky_relu, aten.where, aten._softmax] # Source node to ATen node mapping: # attention_12 => where_13 # attention_13 => amax_4, exp_4, sub_4, sum_5 # e_4 => mul_20, where_12 # zero_vec => full_default # Graph fragment: # %full_default : [num_users=5] = call_function[target=torch.ops.aten.full.default](args = ([4, 4], -8999999815811072.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %mul_20 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze_4, 4), kwargs = {}) # %where_12 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_12, %squeeze_4, %mul_20), kwargs = {}) # %where_13 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %where_12, %full_default), kwargs = {}) # %amax_4 : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where_13, [1], True), kwargs = {}) # %sub_4 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where_13, %amax_4), kwargs = {}) # %exp_4 : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub_4,), kwargs = {}) # %sum_5 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp_4, [1], True), kwargs = {}) triton_poi_fused__softmax_leaky_relu_mul_where_5 = async_compile.triton('triton_poi_fused__softmax_leaky_relu_mul_where_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4], filename=__file__, triton_meta={'signature': {0: 'i1', 1: 'i1', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_leaky_relu_mul_where_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 12, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_leaky_relu_mul_where_5(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + (4x0), xmask, eviction_policy='evict_last').to(tl.int1) tmp2 = tl.load(in_ptr2 + (4x0), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp9 = tl.load(in_ptr1 + (1 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp10 = tl.load(in_ptr2 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp16 = tl.load(in_ptr1 + (2 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp17 = tl.load(in_ptr2 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp22 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp23 = tl.load(in_ptr1 + (3 + (4x0)), xmask, eviction_policy='evict_last').to(tl.int1) tmp24 = tl.load(in_ptr2 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp3 = 4.0 tmp4 = tmp2 * tmp3 tmp5 = tl.where(tmp1, tmp2, tmp4) tmp6 = -8999999815811072.0 tmp7 = tl.where(tmp0, tmp5, tmp6) tmp11 = tmp10 * tmp3 tmp12 = tl.where(tmp9, tmp10, tmp11) tmp13 = tl.where(tmp8, tmp12, tmp6) tmp14 = triton_helpers.maximum(tmp7, tmp13) tmp18 = tmp17 * tmp3 tmp19 = tl.where(tmp16, tmp17, tmp18) tmp20 = tl.where(tmp15, tmp19, tmp6) tmp21 = triton_helpers.maximum(tmp14, tmp20) tmp25 = tmp24 * tmp3 tmp26 = tl.where(tmp23, tmp24, tmp25) tmp27 = tl.where(tmp22, tmp26, tmp6) tmp28 = triton_helpers.maximum(tmp21, tmp27) tmp29 = tmp7 - tmp28 tmp30 = tl_math.exp(tmp29) tmp31 = tmp13 - tmp28 tmp32 = tl_math.exp(tmp31) tmp33 = tmp30 + tmp32 tmp34 = tmp20 - tmp28 tmp35 = tl_math.exp(tmp34) tmp36 = tmp33 + tmp35 tmp37 = tmp27 - tmp28 tmp38 = tl_math.exp(tmp37) tmp39 = tmp36 + tmp38 tl.store(out_ptr0 + (x0), tmp28, xmask) tl.store(out_ptr1 + (x0), tmp39, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/uk/cuks2diyi23xuwjwtsqsucw24cskpggghxl4amhn3lierlyjjg7h.py # Topologically Sorted Source Nodes: [zero_vec, e_4, attention_12, attention_13], Original ATen: [aten.mul, aten.leaky_relu, aten.where, aten._softmax] # Source node to ATen node mapping: # attention_12 => where_13 # attention_13 => div_4, exp_4, sub_4 # e_4 => mul_20, where_12 # zero_vec => full_default # Graph fragment: # %full_default : [num_users=5] = call_function[target=torch.ops.aten.full.default](args = ([4, 4], -8999999815811072.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %mul_20 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze_4, 4), kwargs = {}) # %where_12 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_12, %squeeze_4, %mul_20), kwargs = {}) # %where_13 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %where_12, %full_default), kwargs = {}) # %sub_4 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where_13, %amax_4), kwargs = {}) # %exp_4 : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub_4,), kwargs = {}) # %div_4 : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp_4, %sum_5), kwargs = {}) triton_poi_fused__softmax_leaky_relu_mul_where_6 = async_compile.triton('triton_poi_fused__softmax_leaky_relu_mul_where_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i1', 2: 'i1', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_leaky_relu_mul_where_6', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_leaky_relu_mul_where_6(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask).to(tl.int1) tmp1 = tl.load(in_ptr1 + (x2), xmask).to(tl.int1) tmp2 = tl.load(in_out_ptr0 + (x2), xmask) tmp8 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr3 + (x1), xmask, eviction_policy='evict_last') tmp3 = 4.0 tmp4 = tmp2 * tmp3 tmp5 = tl.where(tmp1, tmp2, tmp4) tmp6 = -8999999815811072.0 tmp7 = tl.where(tmp0, tmp5, tmp6) tmp9 = tmp7 - tmp8 tmp10 = tl_math.exp(tmp9) tmp12 = tmp10 / tmp11 tl.store(in_out_ptr0 + (x2), tmp12, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ej/cejklqzn5uorp6gxd4hfgthp7bfydifewvvtyuuvwedfdbdoigth.py # Topologically Sorted Source Nodes: [x_3, log_softmax], Original ATen: [aten.elu, aten._log_softmax] # Source node to ATen node mapping: # log_softmax => amax_5, sub_5 # x_3 => expm1_4, gt_14, mul_22, mul_24, where_14 # Graph fragment: # %gt_14 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%mm_14, 0), kwargs = {}) # %mul_22 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mm_14, 1.0), kwargs = {}) # %expm1_4 : [num_users=1] = call_function[target=torch.ops.aten.expm1.default](args = (%mul_22,), kwargs = {}) # %mul_24 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expm1_4, 1.0), kwargs = {}) # %where_14 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_14, %mul_22, %mul_24), kwargs = {}) # %amax_5 : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where_14, [1], True), kwargs = {}) # %sub_5 : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where_14, %amax_5), kwargs = {}) triton_poi_fused__log_softmax_elu_7 = async_compile.triton('triton_poi_fused__log_softmax_elu_7', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__log_softmax_elu_7', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__log_softmax_elu_7(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp8 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp21 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp28 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 1.0 tmp4 = tmp0 * tmp3 tmp5 = libdevice.expm1(tmp4) tmp6 = tmp5 * tmp3 tmp7 = tl.where(tmp2, tmp4, tmp6) tmp9 = tmp8 > tmp1 tmp10 = tmp8 * tmp3 tmp11 = libdevice.expm1(tmp10) tmp12 = tmp11 * tmp3 tmp13 = tl.where(tmp9, tmp10, tmp12) tmp15 = tmp14 > tmp1 tmp16 = tmp14 * tmp3 tmp17 = libdevice.expm1(tmp16) tmp18 = tmp17 * tmp3 tmp19 = tl.where(tmp15, tmp16, tmp18) tmp20 = triton_helpers.maximum(tmp13, tmp19) tmp22 = tmp21 > tmp1 tmp23 = tmp21 * tmp3 tmp24 = libdevice.expm1(tmp23) tmp25 = tmp24 * tmp3 tmp26 = tl.where(tmp22, tmp23, tmp25) tmp27 = triton_helpers.maximum(tmp20, tmp26) tmp29 = tmp28 > tmp1 tmp30 = tmp28 * tmp3 tmp31 = libdevice.expm1(tmp30) tmp32 = tmp31 * tmp3 tmp33 = tl.where(tmp29, tmp30, tmp32) tmp34 = triton_helpers.maximum(tmp27, tmp33) tmp35 = tmp7 - tmp34 tl.store(out_ptr0 + (x2), tmp35, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/bf/cbf7xkp3zigwndtpznsevkadaufk7qcabgm22j45ls5hynu6m3yl.py # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax] # Source node to ATen node mapping: # log_softmax => exp_5, log, sub_6, sum_6 # Graph fragment: # %exp_5 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%sub_5,), kwargs = {}) # %sum_6 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp_5, [1], True), kwargs = {}) # %log : [num_users=1] = call_function[target=torch.ops.aten.log.default](args = (%sum_6,), kwargs = {}) # %sub_6 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%sub_5, %log), kwargs = {}) triton_poi_fused__log_softmax_8 = async_compile.triton('triton_poi_fused__log_softmax_8', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__log_softmax_8', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__log_softmax_8(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp2 = tl_math.exp(tmp1) tmp4 = tl_math.exp(tmp3) tmp5 = tmp2 + tmp4 tmp7 = tl_math.exp(tmp6) tmp8 = tmp5 + tmp7 tmp10 = tl_math.exp(tmp9) tmp11 = tmp8 + tmp10 tmp12 = tl_math.log(tmp11) tmp13 = tmp0 - tmp12 tl.store(out_ptr0 + (x2), tmp13, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (8, 1), (1, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, 4), (4, 1)) assert_size_stride(primals_6, (8, 1), (1, 1)) assert_size_stride(primals_7, (4, 4), (4, 1)) assert_size_stride(primals_8, (8, 1), (1, 1)) assert_size_stride(primals_9, (4, 4), (4, 1)) assert_size_stride(primals_10, (8, 1), (1, 1)) assert_size_stride(primals_11, (16, 4), (4, 1)) assert_size_stride(primals_12, (8, 1), (1, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [h], Original ATen: [aten.mm] extern_kernels.mm(primals_1, primals_2, out=buf0) del primals_2 buf1 = empty_strided_cuda((16, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(buf0, buf1, 128, grid=grid(128), stream=stream0) buf2 = empty_strided_cuda((16, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.mm] extern_kernels.mm(buf1, primals_3, out=buf2) buf3 = empty_strided_cuda((4, 4), (4, 1), torch.bool) # Topologically Sorted Source Nodes: [e], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_1.run(buf2, buf3, 16, grid=grid(16), stream=stream0) buf4 = empty_strided_cuda((4, 4), (4, 1), torch.bool) # Topologically Sorted Source Nodes: [gt], Original ATen: [aten.gt] triton_poi_fused_leaky_relu_1.run(primals_4, buf4, 16, grid=grid(16), stream=stream0) del primals_4 buf9 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [h_1], Original ATen: [aten.mm] extern_kernels.mm(primals_1, primals_5, out=buf9) del primals_5 buf10 = empty_strided_cuda((16, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat_1], Original ATen: [aten.cat] triton_poi_fused_cat_0.run(buf9, buf10, 128, grid=grid(128), stream=stream0) buf11 = empty_strided_cuda((16, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul_2], Original ATen: [aten.mm] extern_kernels.mm(buf10, primals_6, out=buf11) buf12 = empty_strided_cuda((4, 4), (4, 1), torch.bool) # Topologically Sorted Source Nodes: [e_1], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_1.run(buf11, buf12, 16, grid=grid(16), stream=stream0) buf17 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [h_2], Original ATen: [aten.mm] extern_kernels.mm(primals_1, primals_7, out=buf17) del primals_7 buf18 = empty_strided_cuda((16, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat_2], Original ATen: [aten.cat] triton_poi_fused_cat_0.run(buf17, buf18, 128, grid=grid(128), stream=stream0) buf19 = empty_strided_cuda((16, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul_4], Original ATen: [aten.mm] extern_kernels.mm(buf18, primals_8, out=buf19) buf20 = empty_strided_cuda((4, 4), (4, 1), torch.bool) # Topologically Sorted Source Nodes: [e_2], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_1.run(buf19, buf20, 16, grid=grid(16), stream=stream0) buf25 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [h_3], Original ATen: [aten.mm] extern_kernels.mm(primals_1, primals_9, out=buf25) del primals_9 buf26 = empty_strided_cuda((16, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat_3], Original ATen: [aten.cat] triton_poi_fused_cat_0.run(buf25, buf26, 128, grid=grid(128), stream=stream0) buf27 = empty_strided_cuda((16, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul_6], Original ATen: [aten.mm] extern_kernels.mm(buf26, primals_10, out=buf27) buf28 = empty_strided_cuda((4, 4), (4, 1), torch.bool) # Topologically Sorted Source Nodes: [e_3], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_1.run(buf27, buf28, 16, grid=grid(16), stream=stream0) buf5 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf6 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf13 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf14 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf21 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf22 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf29 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf30 = empty_strided_cuda((4, 1), (1, 4), torch.float32) # Topologically Sorted Source Nodes: [e, zero_vec, attention, attention_1, e_1, attention_3, attention_4, e_2, attention_6, attention_7, e_3, attention_9, attention_10], Original ATen: [aten.leaky_relu, aten.mul, aten.where, aten._softmax] triton_poi_fused__softmax_leaky_relu_mul_where_2.run(buf4, buf3, buf2, buf12, buf11, buf20, buf19, buf28, buf27, buf5, buf6, buf13, buf14, buf21, buf22, buf29, buf30, 4, grid=grid(4), stream=stream0) buf7 = reinterpret_tensor(buf2, (4, 4), (4, 1), 0); del buf2 # reuse buf15 = reinterpret_tensor(buf11, (4, 4), (4, 1), 0); del buf11 # reuse buf23 = reinterpret_tensor(buf19, (4, 4), (4, 1), 0); del buf19 # reuse buf31 = reinterpret_tensor(buf27, (4, 4), (4, 1), 0); del buf27 # reuse # Topologically Sorted Source Nodes: [e, zero_vec, attention, attention_1, e_1, attention_3, attention_4, e_2, attention_6, attention_7, e_3, attention_9, attention_10], Original ATen: [aten.leaky_relu, aten.mul, aten.where, aten._softmax] triton_poi_fused__softmax_leaky_relu_mul_where_3.run(buf7, buf15, buf23, buf31, buf4, buf3, buf5, buf6, buf12, buf13, buf14, buf20, buf21, buf22, buf28, buf29, buf30, 16, grid=grid(16), stream=stream0) del buf13 del buf14 del buf21 del buf22 del buf29 del buf30 buf8 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [h_prime], Original ATen: [aten.mm] extern_kernels.mm(buf7, buf0, out=buf8) buf16 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [h_prime_1], Original ATen: [aten.mm] extern_kernels.mm(buf15, buf9, out=buf16) buf24 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [h_prime_2], Original ATen: [aten.mm] extern_kernels.mm(buf23, buf17, out=buf24) buf32 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [h_prime_3], Original ATen: [aten.mm] extern_kernels.mm(buf31, buf25, out=buf32) buf33 = empty_strided_cuda((4, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.cat] triton_poi_fused_cat_4.run(buf8, buf16, buf24, buf32, buf33, 64, grid=grid(64), stream=stream0) buf34 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [h_4], Original ATen: [aten.mm] extern_kernels.mm(buf33, primals_11, out=buf34) buf35 = empty_strided_cuda((16, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat_5], Original ATen: [aten.cat] triton_poi_fused_cat_0.run(buf34, buf35, 128, grid=grid(128), stream=stream0) buf36 = empty_strided_cuda((16, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul_8], Original ATen: [aten.mm] extern_kernels.mm(buf35, primals_12, out=buf36) buf37 = empty_strided_cuda((4, 4), (4, 1), torch.bool) # Topologically Sorted Source Nodes: [e_4], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_1.run(buf36, buf37, 16, grid=grid(16), stream=stream0) buf38 = buf6; del buf6 # reuse buf39 = buf5; del buf5 # reuse # Topologically Sorted Source Nodes: [zero_vec, e_4, attention_12, attention_13], Original ATen: [aten.mul, aten.leaky_relu, aten.where, aten._softmax] triton_poi_fused__softmax_leaky_relu_mul_where_5.run(buf4, buf37, buf36, buf38, buf39, 4, grid=grid(4), stream=stream0) buf40 = reinterpret_tensor(buf36, (4, 4), (4, 1), 0); del buf36 # reuse # Topologically Sorted Source Nodes: [zero_vec, e_4, attention_12, attention_13], Original ATen: [aten.mul, aten.leaky_relu, aten.where, aten._softmax] triton_poi_fused__softmax_leaky_relu_mul_where_6.run(buf40, buf4, buf37, buf38, buf39, 16, grid=grid(16), stream=stream0) del buf38 del buf39 buf41 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [h_prime_4], Original ATen: [aten.mm] extern_kernels.mm(buf40, buf34, out=buf41) buf42 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_3, log_softmax], Original ATen: [aten.elu, aten._log_softmax] triton_poi_fused__log_softmax_elu_7.run(buf41, buf42, 16, grid=grid(16), stream=stream0) buf43 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax] triton_poi_fused__log_softmax_8.run(buf42, buf43, 16, grid=grid(16), stream=stream0) del buf42 return (buf43, buf3, buf4, buf7, buf8, buf12, buf15, buf16, buf20, buf23, buf24, buf28, buf31, buf32, buf37, buf40, buf41, buf43, reinterpret_tensor(buf34, (4, 4), (1, 4), 0), reinterpret_tensor(buf35, (8, 16), (1, 8), 0), reinterpret_tensor(primals_12, (1, 8), (1, 1), 0), reinterpret_tensor(buf33, (16, 4), (1, 16), 0), reinterpret_tensor(primals_11, (4, 16), (1, 4), 0), reinterpret_tensor(buf25, (4, 4), (1, 4), 0), reinterpret_tensor(buf26, (8, 16), (1, 8), 0), reinterpret_tensor(primals_10, (1, 8), (1, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), reinterpret_tensor(buf17, (4, 4), (1, 4), 0), reinterpret_tensor(buf18, (8, 16), (1, 8), 0), reinterpret_tensor(primals_8, (1, 8), (1, 1), 0), reinterpret_tensor(buf9, (4, 4), (1, 4), 0), reinterpret_tensor(buf10, (8, 16), (1, 8), 0), reinterpret_tensor(primals_6, (1, 8), (1, 1), 0), reinterpret_tensor(buf0, (4, 4), (1, 4), 0), reinterpret_tensor(buf1, (8, 16), (1, 8), 0), reinterpret_tensor(primals_3, (1, 8), (1, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((8, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((8, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((8, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((8, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((16, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((8, 1), (1, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F import torch.nn as nn class GraphAttentionLayer(nn.Module): """ Simple GAT layer, similar to https://arxiv.org/abs/1710.10903 """ def __init__(self, in_features, out_features, dropout, alpha, concat=True): super(GraphAttentionLayer, self).__init__() self.dropout = dropout self.in_features = in_features self.out_features = out_features self.alpha = alpha self.concat = concat self.W = nn.Parameter(torch.zeros(size=(in_features, out_features))) nn.init.xavier_uniform_(self.W.data, gain=1.414) self.a = nn.Parameter(torch.zeros(size=(2 * out_features, 1))) nn.init.xavier_uniform_(self.a.data, gain=1.414) self.leakyrelu = nn.LeakyReLU(self.alpha) def forward(self, input, adj): h = torch.mm(input, self.W) N = h.size()[0] a_input = torch.cat([h.repeat(1, N).view(N * N, -1), h.repeat(N, 1) ], dim=1).view(N, -1, 2 * self.out_features) e = self.leakyrelu(torch.matmul(a_input, self.a).squeeze(2)) zero_vec = -9000000000000000.0 * torch.ones_like(e) attention = torch.where(adj > 0, e, zero_vec) attention = F.softmax(attention, dim=1) attention = F.dropout(attention, self.dropout, training=self.training) h_prime = torch.matmul(attention, h) if self.concat: return F.elu(h_prime) else: return h_prime def __repr__(self): return self.__class__.__name__ + ' (' + str(self.in_features ) + ' -> ' + str(self.out_features) + ')' class GAT(nn.Module): def __init__(self, nfeat, nhid, nclass, dropout, alpha, nheads): """Dense version of GAT.""" super(GAT, self).__init__() self.dropout = dropout self.attentions = [GraphAttentionLayer(nfeat, nhid, dropout=dropout, alpha=alpha, concat=True) for _ in range(nheads)] for i, attention in enumerate(self.attentions): self.add_module('attention_{}'.format(i), attention) self.out_att = GraphAttentionLayer(nhid * nheads, nclass, dropout= dropout, alpha=alpha, concat=False) def forward(self, x, adj): x = F.dropout(x, self.dropout, training=self.training) x = torch.cat([att(x, adj) for att in self.attentions], dim=1) x = F.dropout(x, self.dropout, training=self.training) x = F.elu(self.out_att(x, adj)) return F.log_softmax(x, dim=1) def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'nfeat': 4, 'nhid': 4, 'nclass': 4, 'dropout': 0.5, 'alpha': 4, 'nheads': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn.functional as F import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cat_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = xindex // 8 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * ((4 * x1 + x0) // 16 % 4) + (4 * x1 + x0) % 16 % 4), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr0 + (4 * (x1 % 4) + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x2, tmp10, xmask) @triton.jit def triton_poi_fused_leaky_relu_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused__softmax_leaky_relu_mul_where_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, in_ptr8, out_ptr0, out_ptr1, out_ptr2, out_ptr3, out_ptr4, out_ptr5, out_ptr6, out_ptr7, xnumel, XBLOCK: tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last').to(tl .int1) tmp1 = tl.load(in_ptr1 + 4 * x0, xmask, eviction_policy='evict_last').to(tl .int1) tmp2 = tl.load(in_ptr2 + 4 * x0, xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp9 = tl.load(in_ptr1 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp10 = tl.load(in_ptr2 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp15 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp16 = tl.load(in_ptr1 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp17 = tl.load(in_ptr2 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp22 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp23 = tl.load(in_ptr1 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp24 = tl.load(in_ptr2 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp40 = tl.load(in_ptr3 + 4 * x0, xmask, eviction_policy='evict_last').to( tl.int1) tmp41 = tl.load(in_ptr4 + 4 * x0, xmask, eviction_policy='evict_last') tmp45 = tl.load(in_ptr3 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp46 = tl.load(in_ptr4 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp51 = tl.load(in_ptr3 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp52 = tl.load(in_ptr4 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp57 = tl.load(in_ptr3 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp58 = tl.load(in_ptr4 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp74 = tl.load(in_ptr5 + 4 * x0, xmask, eviction_policy='evict_last').to( tl.int1) tmp75 = tl.load(in_ptr6 + 4 * x0, xmask, eviction_policy='evict_last') tmp79 = tl.load(in_ptr5 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp80 = tl.load(in_ptr6 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp85 = tl.load(in_ptr5 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp86 = tl.load(in_ptr6 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp91 = tl.load(in_ptr5 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp92 = tl.load(in_ptr6 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp108 = tl.load(in_ptr7 + 4 * x0, xmask, eviction_policy='evict_last').to( tl.int1) tmp109 = tl.load(in_ptr8 + 4 * x0, xmask, eviction_policy='evict_last') tmp113 = tl.load(in_ptr7 + (1 + 4 * x0), xmask, eviction_policy= 'evict_last').to(tl.int1) tmp114 = tl.load(in_ptr8 + (1 + 4 * x0), xmask, eviction_policy= 'evict_last') tmp119 = tl.load(in_ptr7 + (2 + 4 * x0), xmask, eviction_policy= 'evict_last').to(tl.int1) tmp120 = tl.load(in_ptr8 + (2 + 4 * x0), xmask, eviction_policy= 'evict_last') tmp125 = tl.load(in_ptr7 + (3 + 4 * x0), xmask, eviction_policy= 'evict_last').to(tl.int1) tmp126 = tl.load(in_ptr8 + (3 + 4 * x0), xmask, eviction_policy= 'evict_last') tmp3 = 4.0 tmp4 = tmp2 * tmp3 tmp5 = tl.where(tmp1, tmp2, tmp4) tmp6 = -8999999815811072.0 tmp7 = tl.where(tmp0, tmp5, tmp6) tmp11 = tmp10 * tmp3 tmp12 = tl.where(tmp9, tmp10, tmp11) tmp13 = tl.where(tmp8, tmp12, tmp6) tmp14 = triton_helpers.maximum(tmp7, tmp13) tmp18 = tmp17 * tmp3 tmp19 = tl.where(tmp16, tmp17, tmp18) tmp20 = tl.where(tmp15, tmp19, tmp6) tmp21 = triton_helpers.maximum(tmp14, tmp20) tmp25 = tmp24 * tmp3 tmp26 = tl.where(tmp23, tmp24, tmp25) tmp27 = tl.where(tmp22, tmp26, tmp6) tmp28 = triton_helpers.maximum(tmp21, tmp27) tmp29 = tmp7 - tmp28 tmp30 = tl_math.exp(tmp29) tmp31 = tmp13 - tmp28 tmp32 = tl_math.exp(tmp31) tmp33 = tmp30 + tmp32 tmp34 = tmp20 - tmp28 tmp35 = tl_math.exp(tmp34) tmp36 = tmp33 + tmp35 tmp37 = tmp27 - tmp28 tmp38 = tl_math.exp(tmp37) tmp39 = tmp36 + tmp38 tmp42 = tmp41 * tmp3 tmp43 = tl.where(tmp40, tmp41, tmp42) tmp44 = tl.where(tmp0, tmp43, tmp6) tmp47 = tmp46 * tmp3 tmp48 = tl.where(tmp45, tmp46, tmp47) tmp49 = tl.where(tmp8, tmp48, tmp6) tmp50 = triton_helpers.maximum(tmp44, tmp49) tmp53 = tmp52 * tmp3 tmp54 = tl.where(tmp51, tmp52, tmp53) tmp55 = tl.where(tmp15, tmp54, tmp6) tmp56 = triton_helpers.maximum(tmp50, tmp55) tmp59 = tmp58 * tmp3 tmp60 = tl.where(tmp57, tmp58, tmp59) tmp61 = tl.where(tmp22, tmp60, tmp6) tmp62 = triton_helpers.maximum(tmp56, tmp61) tmp63 = tmp44 - tmp62 tmp64 = tl_math.exp(tmp63) tmp65 = tmp49 - tmp62 tmp66 = tl_math.exp(tmp65) tmp67 = tmp64 + tmp66 tmp68 = tmp55 - tmp62 tmp69 = tl_math.exp(tmp68) tmp70 = tmp67 + tmp69 tmp71 = tmp61 - tmp62 tmp72 = tl_math.exp(tmp71) tmp73 = tmp70 + tmp72 tmp76 = tmp75 * tmp3 tmp77 = tl.where(tmp74, tmp75, tmp76) tmp78 = tl.where(tmp0, tmp77, tmp6) tmp81 = tmp80 * tmp3 tmp82 = tl.where(tmp79, tmp80, tmp81) tmp83 = tl.where(tmp8, tmp82, tmp6) tmp84 = triton_helpers.maximum(tmp78, tmp83) tmp87 = tmp86 * tmp3 tmp88 = tl.where(tmp85, tmp86, tmp87) tmp89 = tl.where(tmp15, tmp88, tmp6) tmp90 = triton_helpers.maximum(tmp84, tmp89) tmp93 = tmp92 * tmp3 tmp94 = tl.where(tmp91, tmp92, tmp93) tmp95 = tl.where(tmp22, tmp94, tmp6) tmp96 = triton_helpers.maximum(tmp90, tmp95) tmp97 = tmp78 - tmp96 tmp98 = tl_math.exp(tmp97) tmp99 = tmp83 - tmp96 tmp100 = tl_math.exp(tmp99) tmp101 = tmp98 + tmp100 tmp102 = tmp89 - tmp96 tmp103 = tl_math.exp(tmp102) tmp104 = tmp101 + tmp103 tmp105 = tmp95 - tmp96 tmp106 = tl_math.exp(tmp105) tmp107 = tmp104 + tmp106 tmp110 = tmp109 * tmp3 tmp111 = tl.where(tmp108, tmp109, tmp110) tmp112 = tl.where(tmp0, tmp111, tmp6) tmp115 = tmp114 * tmp3 tmp116 = tl.where(tmp113, tmp114, tmp115) tmp117 = tl.where(tmp8, tmp116, tmp6) tmp118 = triton_helpers.maximum(tmp112, tmp117) tmp121 = tmp120 * tmp3 tmp122 = tl.where(tmp119, tmp120, tmp121) tmp123 = tl.where(tmp15, tmp122, tmp6) tmp124 = triton_helpers.maximum(tmp118, tmp123) tmp127 = tmp126 * tmp3 tmp128 = tl.where(tmp125, tmp126, tmp127) tmp129 = tl.where(tmp22, tmp128, tmp6) tmp130 = triton_helpers.maximum(tmp124, tmp129) tmp131 = tmp112 - tmp130 tmp132 = tl_math.exp(tmp131) tmp133 = tmp117 - tmp130 tmp134 = tl_math.exp(tmp133) tmp135 = tmp132 + tmp134 tmp136 = tmp123 - tmp130 tmp137 = tl_math.exp(tmp136) tmp138 = tmp135 + tmp137 tmp139 = tmp129 - tmp130 tmp140 = tl_math.exp(tmp139) tmp141 = tmp138 + tmp140 tl.store(out_ptr0 + x0, tmp28, xmask) tl.store(out_ptr1 + x0, tmp39, xmask) tl.store(out_ptr2 + x0, tmp62, xmask) tl.store(out_ptr3 + x0, tmp73, xmask) tl.store(out_ptr4 + x0, tmp96, xmask) tl.store(out_ptr5 + x0, tmp107, xmask) tl.store(out_ptr6 + x0, tmp130, xmask) tl.store(out_ptr7 + x0, tmp141, xmask) @triton.jit def triton_poi_fused__softmax_leaky_relu_mul_where_3(in_out_ptr0, in_out_ptr1, in_out_ptr2, in_out_ptr3, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, in_ptr8, in_ptr9, in_ptr10, in_ptr11, in_ptr12, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask).to(tl.int1) tmp1 = tl.load(in_ptr1 + x2, xmask).to(tl.int1) tmp2 = tl.load(in_out_ptr0 + x2, xmask) tmp8 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr3 + x1, xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr4 + x2, xmask).to(tl.int1) tmp14 = tl.load(in_out_ptr1 + x2, xmask) tmp18 = tl.load(in_ptr5 + x1, xmask, eviction_policy='evict_last') tmp21 = tl.load(in_ptr6 + x1, xmask, eviction_policy='evict_last') tmp23 = tl.load(in_ptr7 + x2, xmask).to(tl.int1) tmp24 = tl.load(in_out_ptr2 + x2, xmask) tmp28 = tl.load(in_ptr8 + x1, xmask, eviction_policy='evict_last') tmp31 = tl.load(in_ptr9 + x1, xmask, eviction_policy='evict_last') tmp33 = tl.load(in_ptr10 + x2, xmask).to(tl.int1) tmp34 = tl.load(in_out_ptr3 + x2, xmask) tmp38 = tl.load(in_ptr11 + x1, xmask, eviction_policy='evict_last') tmp41 = tl.load(in_ptr12 + x1, xmask, eviction_policy='evict_last') tmp3 = 4.0 tmp4 = tmp2 * tmp3 tmp5 = tl.where(tmp1, tmp2, tmp4) tmp6 = -8999999815811072.0 tmp7 = tl.where(tmp0, tmp5, tmp6) tmp9 = tmp7 - tmp8 tmp10 = tl_math.exp(tmp9) tmp12 = tmp10 / tmp11 tmp15 = tmp14 * tmp3 tmp16 = tl.where(tmp13, tmp14, tmp15) tmp17 = tl.where(tmp0, tmp16, tmp6) tmp19 = tmp17 - tmp18 tmp20 = tl_math.exp(tmp19) tmp22 = tmp20 / tmp21 tmp25 = tmp24 * tmp3 tmp26 = tl.where(tmp23, tmp24, tmp25) tmp27 = tl.where(tmp0, tmp26, tmp6) tmp29 = tmp27 - tmp28 tmp30 = tl_math.exp(tmp29) tmp32 = tmp30 / tmp31 tmp35 = tmp34 * tmp3 tmp36 = tl.where(tmp33, tmp34, tmp35) tmp37 = tl.where(tmp0, tmp36, tmp6) tmp39 = tmp37 - tmp38 tmp40 = tl_math.exp(tmp39) tmp42 = tmp40 / tmp41 tl.store(in_out_ptr0 + x2, tmp12, xmask) tl.store(in_out_ptr1 + x2, tmp22, xmask) tl.store(in_out_ptr2 + x2, tmp32, xmask) tl.store(in_out_ptr3 + x2, tmp42, xmask) @triton.jit def triton_poi_fused_cat_4(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 16 x1 = xindex // 16 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = 0.0 tmp7 = tmp5 > tmp6 tmp8 = 1.0 tmp9 = tmp5 * tmp8 tmp10 = libdevice.expm1(tmp9) tmp11 = tmp10 * tmp8 tmp12 = tl.where(tmp7, tmp9, tmp11) tmp13 = tl.full(tmp12.shape, 0.0, tmp12.dtype) tmp14 = tl.where(tmp4, tmp12, tmp13) tmp15 = tmp0 >= tmp3 tmp16 = tl.full([1], 8, tl.int64) tmp17 = tmp0 < tmp16 tmp18 = tmp15 & tmp17 tmp19 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp18 & xmask, eviction_policy='evict_last', other=0.0) tmp20 = tmp19 > tmp6 tmp21 = tmp19 * tmp8 tmp22 = libdevice.expm1(tmp21) tmp23 = tmp22 * tmp8 tmp24 = tl.where(tmp20, tmp21, tmp23) tmp25 = tl.full(tmp24.shape, 0.0, tmp24.dtype) tmp26 = tl.where(tmp18, tmp24, tmp25) tmp27 = tmp0 >= tmp16 tmp28 = tl.full([1], 12, tl.int64) tmp29 = tmp0 < tmp28 tmp30 = tmp27 & tmp29 tmp31 = tl.load(in_ptr2 + (4 * x1 + (-8 + x0)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp32 = tmp31 > tmp6 tmp33 = tmp31 * tmp8 tmp34 = libdevice.expm1(tmp33) tmp35 = tmp34 * tmp8 tmp36 = tl.where(tmp32, tmp33, tmp35) tmp37 = tl.full(tmp36.shape, 0.0, tmp36.dtype) tmp38 = tl.where(tmp30, tmp36, tmp37) tmp39 = tmp0 >= tmp28 tl.full([1], 16, tl.int64) tmp42 = tl.load(in_ptr3 + (4 * x1 + (-12 + x0)), tmp39 & xmask, eviction_policy='evict_last', other=0.0) tmp43 = tmp42 > tmp6 tmp44 = tmp42 * tmp8 tmp45 = libdevice.expm1(tmp44) tmp46 = tmp45 * tmp8 tmp47 = tl.where(tmp43, tmp44, tmp46) tmp48 = tl.full(tmp47.shape, 0.0, tmp47.dtype) tmp49 = tl.where(tmp39, tmp47, tmp48) tmp50 = tl.where(tmp30, tmp38, tmp49) tmp51 = tl.where(tmp18, tmp26, tmp50) tmp52 = tl.where(tmp4, tmp14, tmp51) tl.store(out_ptr0 + x2, tmp52, xmask) @triton.jit def triton_poi_fused__softmax_leaky_relu_mul_where_5(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last').to(tl .int1) tmp1 = tl.load(in_ptr1 + 4 * x0, xmask, eviction_policy='evict_last').to(tl .int1) tmp2 = tl.load(in_ptr2 + 4 * x0, xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp9 = tl.load(in_ptr1 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp10 = tl.load(in_ptr2 + (1 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp15 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp16 = tl.load(in_ptr1 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp17 = tl.load(in_ptr2 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp22 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp23 = tl.load(in_ptr1 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ).to(tl.int1) tmp24 = tl.load(in_ptr2 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp3 = 4.0 tmp4 = tmp2 * tmp3 tmp5 = tl.where(tmp1, tmp2, tmp4) tmp6 = -8999999815811072.0 tmp7 = tl.where(tmp0, tmp5, tmp6) tmp11 = tmp10 * tmp3 tmp12 = tl.where(tmp9, tmp10, tmp11) tmp13 = tl.where(tmp8, tmp12, tmp6) tmp14 = triton_helpers.maximum(tmp7, tmp13) tmp18 = tmp17 * tmp3 tmp19 = tl.where(tmp16, tmp17, tmp18) tmp20 = tl.where(tmp15, tmp19, tmp6) tmp21 = triton_helpers.maximum(tmp14, tmp20) tmp25 = tmp24 * tmp3 tmp26 = tl.where(tmp23, tmp24, tmp25) tmp27 = tl.where(tmp22, tmp26, tmp6) tmp28 = triton_helpers.maximum(tmp21, tmp27) tmp29 = tmp7 - tmp28 tmp30 = tl_math.exp(tmp29) tmp31 = tmp13 - tmp28 tmp32 = tl_math.exp(tmp31) tmp33 = tmp30 + tmp32 tmp34 = tmp20 - tmp28 tmp35 = tl_math.exp(tmp34) tmp36 = tmp33 + tmp35 tmp37 = tmp27 - tmp28 tmp38 = tl_math.exp(tmp37) tmp39 = tmp36 + tmp38 tl.store(out_ptr0 + x0, tmp28, xmask) tl.store(out_ptr1 + x0, tmp39, xmask) @triton.jit def triton_poi_fused__softmax_leaky_relu_mul_where_6(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask).to(tl.int1) tmp1 = tl.load(in_ptr1 + x2, xmask).to(tl.int1) tmp2 = tl.load(in_out_ptr0 + x2, xmask) tmp8 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr3 + x1, xmask, eviction_policy='evict_last') tmp3 = 4.0 tmp4 = tmp2 * tmp3 tmp5 = tl.where(tmp1, tmp2, tmp4) tmp6 = -8999999815811072.0 tmp7 = tl.where(tmp0, tmp5, tmp6) tmp9 = tmp7 - tmp8 tmp10 = tl_math.exp(tmp9) tmp12 = tmp10 / tmp11 tl.store(in_out_ptr0 + x2, tmp12, xmask) @triton.jit def triton_poi_fused__log_softmax_elu_7(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp8 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last' ) tmp21 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last' ) tmp28 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last' ) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 1.0 tmp4 = tmp0 * tmp3 tmp5 = libdevice.expm1(tmp4) tmp6 = tmp5 * tmp3 tmp7 = tl.where(tmp2, tmp4, tmp6) tmp9 = tmp8 > tmp1 tmp10 = tmp8 * tmp3 tmp11 = libdevice.expm1(tmp10) tmp12 = tmp11 * tmp3 tmp13 = tl.where(tmp9, tmp10, tmp12) tmp15 = tmp14 > tmp1 tmp16 = tmp14 * tmp3 tmp17 = libdevice.expm1(tmp16) tmp18 = tmp17 * tmp3 tmp19 = tl.where(tmp15, tmp16, tmp18) tmp20 = triton_helpers.maximum(tmp13, tmp19) tmp22 = tmp21 > tmp1 tmp23 = tmp21 * tmp3 tmp24 = libdevice.expm1(tmp23) tmp25 = tmp24 * tmp3 tmp26 = tl.where(tmp22, tmp23, tmp25) tmp27 = triton_helpers.maximum(tmp20, tmp26) tmp29 = tmp28 > tmp1 tmp30 = tmp28 * tmp3 tmp31 = libdevice.expm1(tmp30) tmp32 = tmp31 * tmp3 tmp33 = tl.where(tmp29, tmp30, tmp32) tmp34 = triton_helpers.maximum(tmp27, tmp33) tmp35 = tmp7 - tmp34 tl.store(out_ptr0 + x2, tmp35, xmask) @triton.jit def triton_poi_fused__log_softmax_8(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp2 = tl_math.exp(tmp1) tmp4 = tl_math.exp(tmp3) tmp5 = tmp2 + tmp4 tmp7 = tl_math.exp(tmp6) tmp8 = tmp5 + tmp7 tmp10 = tl_math.exp(tmp9) tmp11 = tmp8 + tmp10 tmp12 = tl_math.log(tmp11) tmp13 = tmp0 - tmp12 tl.store(out_ptr0 + x2, tmp13, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12 ) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (8, 1), (1, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, 4), (4, 1)) assert_size_stride(primals_6, (8, 1), (1, 1)) assert_size_stride(primals_7, (4, 4), (4, 1)) assert_size_stride(primals_8, (8, 1), (1, 1)) assert_size_stride(primals_9, (4, 4), (4, 1)) assert_size_stride(primals_10, (8, 1), (1, 1)) assert_size_stride(primals_11, (16, 4), (4, 1)) assert_size_stride(primals_12, (8, 1), (1, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(primals_1, primals_2, out=buf0) del primals_2 buf1 = empty_strided_cuda((16, 8), (8, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(128)](buf0, buf1, 128, XBLOCK=128, num_warps=4, num_stages=1) buf2 = empty_strided_cuda((16, 1), (1, 1), torch.float32) extern_kernels.mm(buf1, primals_3, out=buf2) buf3 = empty_strided_cuda((4, 4), (4, 1), torch.bool) triton_poi_fused_leaky_relu_1[grid(16)](buf2, buf3, 16, XBLOCK=16, num_warps=1, num_stages=1) buf4 = empty_strided_cuda((4, 4), (4, 1), torch.bool) triton_poi_fused_leaky_relu_1[grid(16)](primals_4, buf4, 16, XBLOCK =16, num_warps=1, num_stages=1) del primals_4 buf9 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(primals_1, primals_5, out=buf9) del primals_5 buf10 = empty_strided_cuda((16, 8), (8, 1), torch.float32) triton_poi_fused_cat_0[grid(128)](buf9, buf10, 128, XBLOCK=128, num_warps=4, num_stages=1) buf11 = empty_strided_cuda((16, 1), (1, 1), torch.float32) extern_kernels.mm(buf10, primals_6, out=buf11) buf12 = empty_strided_cuda((4, 4), (4, 1), torch.bool) triton_poi_fused_leaky_relu_1[grid(16)](buf11, buf12, 16, XBLOCK=16, num_warps=1, num_stages=1) buf17 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(primals_1, primals_7, out=buf17) del primals_7 buf18 = empty_strided_cuda((16, 8), (8, 1), torch.float32) triton_poi_fused_cat_0[grid(128)](buf17, buf18, 128, XBLOCK=128, num_warps=4, num_stages=1) buf19 = empty_strided_cuda((16, 1), (1, 1), torch.float32) extern_kernels.mm(buf18, primals_8, out=buf19) buf20 = empty_strided_cuda((4, 4), (4, 1), torch.bool) triton_poi_fused_leaky_relu_1[grid(16)](buf19, buf20, 16, XBLOCK=16, num_warps=1, num_stages=1) buf25 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(primals_1, primals_9, out=buf25) del primals_9 buf26 = empty_strided_cuda((16, 8), (8, 1), torch.float32) triton_poi_fused_cat_0[grid(128)](buf25, buf26, 128, XBLOCK=128, num_warps=4, num_stages=1) buf27 = empty_strided_cuda((16, 1), (1, 1), torch.float32) extern_kernels.mm(buf26, primals_10, out=buf27) buf28 = empty_strided_cuda((4, 4), (4, 1), torch.bool) triton_poi_fused_leaky_relu_1[grid(16)](buf27, buf28, 16, XBLOCK=16, num_warps=1, num_stages=1) buf5 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf6 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf13 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf14 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf21 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf22 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf29 = empty_strided_cuda((4, 1), (1, 4), torch.float32) buf30 = empty_strided_cuda((4, 1), (1, 4), torch.float32) triton_poi_fused__softmax_leaky_relu_mul_where_2[grid(4)](buf4, buf3, buf2, buf12, buf11, buf20, buf19, buf28, buf27, buf5, buf6, buf13, buf14, buf21, buf22, buf29, buf30, 4, XBLOCK=4, num_warps=1, num_stages=1) buf7 = reinterpret_tensor(buf2, (4, 4), (4, 1), 0) del buf2 buf15 = reinterpret_tensor(buf11, (4, 4), (4, 1), 0) del buf11 buf23 = reinterpret_tensor(buf19, (4, 4), (4, 1), 0) del buf19 buf31 = reinterpret_tensor(buf27, (4, 4), (4, 1), 0) del buf27 triton_poi_fused__softmax_leaky_relu_mul_where_3[grid(16)](buf7, buf15, buf23, buf31, buf4, buf3, buf5, buf6, buf12, buf13, buf14, buf20, buf21, buf22, buf28, buf29, buf30, 16, XBLOCK=16, num_warps=1, num_stages=1) del buf13 del buf14 del buf21 del buf22 del buf29 del buf30 buf8 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(buf7, buf0, out=buf8) buf16 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(buf15, buf9, out=buf16) buf24 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(buf23, buf17, out=buf24) buf32 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(buf31, buf25, out=buf32) buf33 = empty_strided_cuda((4, 16), (16, 1), torch.float32) triton_poi_fused_cat_4[grid(64)](buf8, buf16, buf24, buf32, buf33, 64, XBLOCK=64, num_warps=1, num_stages=1) buf34 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(buf33, primals_11, out=buf34) buf35 = empty_strided_cuda((16, 8), (8, 1), torch.float32) triton_poi_fused_cat_0[grid(128)](buf34, buf35, 128, XBLOCK=128, num_warps=4, num_stages=1) buf36 = empty_strided_cuda((16, 1), (1, 1), torch.float32) extern_kernels.mm(buf35, primals_12, out=buf36) buf37 = empty_strided_cuda((4, 4), (4, 1), torch.bool) triton_poi_fused_leaky_relu_1[grid(16)](buf36, buf37, 16, XBLOCK=16, num_warps=1, num_stages=1) buf38 = buf6 del buf6 buf39 = buf5 del buf5 triton_poi_fused__softmax_leaky_relu_mul_where_5[grid(4)](buf4, buf37, buf36, buf38, buf39, 4, XBLOCK=4, num_warps=1, num_stages=1) buf40 = reinterpret_tensor(buf36, (4, 4), (4, 1), 0) del buf36 triton_poi_fused__softmax_leaky_relu_mul_where_6[grid(16)](buf40, buf4, buf37, buf38, buf39, 16, XBLOCK=16, num_warps=1, num_stages=1 ) del buf38 del buf39 buf41 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(buf40, buf34, out=buf41) buf42 = empty_strided_cuda((4, 4), (4, 1), torch.float32) triton_poi_fused__log_softmax_elu_7[grid(16)](buf41, buf42, 16, XBLOCK=16, num_warps=1, num_stages=1) buf43 = empty_strided_cuda((4, 4), (4, 1), torch.float32) triton_poi_fused__log_softmax_8[grid(16)](buf42, buf43, 16, XBLOCK= 16, num_warps=1, num_stages=1) del buf42 return (buf43, buf3, buf4, buf7, buf8, buf12, buf15, buf16, buf20, buf23, buf24, buf28, buf31, buf32, buf37, buf40, buf41, buf43, reinterpret_tensor(buf34, (4, 4), (1, 4), 0), reinterpret_tensor( buf35, (8, 16), (1, 8), 0), reinterpret_tensor(primals_12, (1, 8), (1, 1), 0), reinterpret_tensor(buf33, (16, 4), (1, 16), 0), reinterpret_tensor(primals_11, (4, 16), (1, 4), 0), reinterpret_tensor(buf25, (4, 4), (1, 4), 0), reinterpret_tensor( buf26, (8, 16), (1, 8), 0), reinterpret_tensor(primals_10, (1, 8), (1, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), reinterpret_tensor(buf17, (4, 4), (1, 4), 0), reinterpret_tensor( buf18, (8, 16), (1, 8), 0), reinterpret_tensor(primals_8, (1, 8), ( 1, 1), 0), reinterpret_tensor(buf9, (4, 4), (1, 4), 0), reinterpret_tensor(buf10, (8, 16), (1, 8), 0), reinterpret_tensor( primals_6, (1, 8), (1, 1), 0), reinterpret_tensor(buf0, (4, 4), (1, 4), 0), reinterpret_tensor(buf1, (8, 16), (1, 8), 0), reinterpret_tensor(primals_3, (1, 8), (1, 1), 0)) class GraphAttentionLayer(nn.Module): """ Simple GAT layer, similar to https://arxiv.org/abs/1710.10903 """ def __init__(self, in_features, out_features, dropout, alpha, concat=True): super(GraphAttentionLayer, self).__init__() self.dropout = dropout self.in_features = in_features self.out_features = out_features self.alpha = alpha self.concat = concat self.W = nn.Parameter(torch.zeros(size=(in_features, out_features))) nn.init.xavier_uniform_(self.W.data, gain=1.414) self.a = nn.Parameter(torch.zeros(size=(2 * out_features, 1))) nn.init.xavier_uniform_(self.a.data, gain=1.414) self.leakyrelu = nn.LeakyReLU(self.alpha) def forward(self, input, adj): h = torch.mm(input, self.W) N = h.size()[0] a_input = torch.cat([h.repeat(1, N).view(N * N, -1), h.repeat(N, 1) ], dim=1).view(N, -1, 2 * self.out_features) e = self.leakyrelu(torch.matmul(a_input, self.a).squeeze(2)) zero_vec = -9000000000000000.0 * torch.ones_like(e) attention = torch.where(adj > 0, e, zero_vec) attention = F.softmax(attention, dim=1) attention = F.dropout(attention, self.dropout, training=self.training) h_prime = torch.matmul(attention, h) if self.concat: return F.elu(h_prime) else: return h_prime def __repr__(self): return self.__class__.__name__ + ' (' + str(self.in_features ) + ' -> ' + str(self.out_features) + ')' class GATNew(nn.Module): def __init__(self, nfeat, nhid, nclass, dropout, alpha, nheads): """Dense version of GAT.""" super(GATNew, self).__init__() self.dropout = dropout self.attentions = [GraphAttentionLayer(nfeat, nhid, dropout=dropout, alpha=alpha, concat=True) for _ in range(nheads)] for i, attention in enumerate(self.attentions): self.add_module('attention_{}'.format(i), attention) self.out_att = GraphAttentionLayer(nhid * nheads, nclass, dropout= dropout, alpha=alpha, concat=False) def forward(self, input_0, input_1): primals_1 = self.attention_0.W primals_3 = self.attention_0.a primals_2 = self.attention_1.W primals_6 = self.attention_1.a primals_4 = self.attention_2.W primals_8 = self.attention_2.a primals_5 = self.attention_3.W primals_10 = self.attention_3.a primals_11 = self.out_att.W primals_12 = self.out_att.a primals_7 = input_0 primals_9 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12]) return output[0]	Anou9531/GUA	GAT	false	7,795	[ "MIT" ]	20	354acceb69656e76fb4ee296c66ae42c18cd939f	https://github.com/Anou9531/GUA/tree/354acceb69656e76fb4ee296c66ae42c18cd939f	import torch import torch.nn.functional as F import torch.nn as nn class GraphAttentionLayer(nn.Module): """ Simple GAT layer, similar to https://arxiv.org/abs/1710.10903 """ def __init__(self, in_features, out_features, dropout, alpha, concat=True): super().__init__() self.dropout = dropout self.in_features = in_features self.out_features = out_features self.alpha = alpha self.concat = concat self.W = nn.Parameter(torch.zeros(size=(in_features, out_features))) nn.init.xavier_uniform_(self.W.data, gain=1.414) self.a = nn.Parameter(torch.zeros(size=(2 * out_features, 1))) nn.init.xavier_uniform_(self.a.data, gain=1.414) self.leakyrelu = nn.LeakyReLU(self.alpha) def forward(self, input, adj): h = torch.mm(input, self.W) N = h.size()[0] a_input = torch.cat([h.repeat(1, N).view(N * N, -1), h.repeat(N, 1) ], dim=1).view(N, -1, 2 * self.out_features) e = self.leakyrelu(torch.matmul(a_input, self.a).squeeze(2)) zero_vec = -9000000000000000.0 * torch.ones_like(e) attention = torch.where(adj > 0, e, zero_vec) attention = F.softmax(attention, dim=1) attention = F.dropout(attention, self.dropout, training=self.training) h_prime = torch.matmul(attention, h) if self.concat: return F.elu(h_prime) else: return h_prime def __repr__(self): return self.__class__.__name__ + ' (' + str(self.in_features ) + ' -> ' + str(self.out_features) + ')' class Model(nn.Module): def __init__(self, nfeat, nhid, nclass, dropout, alpha, nheads): """Dense version of GAT.""" super().__init__() self.dropout = dropout self.attentions = [GraphAttentionLayer(nfeat, nhid, dropout=dropout, alpha=alpha, concat=True) for _ in range(nheads)] for i, attention in enumerate(self.attentions): self.add_module('attention_{}'.format(i), attention) self.out_att = GraphAttentionLayer(nhid * nheads, nclass, dropout= dropout, alpha=alpha, concat=False) def forward(self, x, adj): x = F.dropout(x, self.dropout, training=self.training) x = torch.cat([att(x, adj) for att in self.attentions], dim=1) x = F.dropout(x, self.dropout, training=self.training) x = F.elu(self.out_att(x, adj)) return F.log_softmax(x, dim=1) def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'nfeat': 4, 'nhid': 4, 'nclass': 4, 'dropout': 0.5, 'alpha': 4, 'nheads': 4}]
PairwiseRankingLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/dk/cdk3slb2iuichvqg5lxrfozroabywt5t7hyv4upyzkarektmcmwd.py # Topologically Sorted Source Nodes: [sub, add, clamp, cost_sent, sub_1, add_1, clamp_1, cost_img, loss], Original ATen: [aten.rsub, aten.add, aten.clamp, aten.sum] # Source node to ATen node mapping: # add => add # add_1 => add_1 # clamp => clamp_min # clamp_1 => clamp_min_1 # cost_img => sum_2 # cost_sent => sum_1 # loss => add_2 # sub => sub # sub_1 => sub_1 # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (4, %arg0_1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sub, %arg1_1), kwargs = {}) # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%add, 0.0), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%clamp_min,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (4, %arg2_1), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sub_1, %arg3_1), kwargs = {}) # %clamp_min_1 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%add_1, 0.0), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%clamp_min_1,), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_1, %sum_2), kwargs = {}) triton_per_fused_add_clamp_rsub_sum_0 = async_compile.triton('triton_per_fused_add_clamp_rsub_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {5: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 6), equal_to_1=(5,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_clamp_rsub_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 4, 'num_reduction': 2, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_clamp_rsub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp3 = tl.load(in_ptr1 + (r0), None) tmp10 = tl.load(in_ptr2 + (r0), None) tmp12 = tl.load(in_ptr3 + (r0), None) tmp1 = 4.0 tmp2 = tmp1 - tmp0 tmp4 = tmp2 + tmp3 tmp5 = 0.0 tmp6 = triton_helpers.maximum(tmp4, tmp5) tmp7 = tl.broadcast_to(tmp6, [RBLOCK]) tmp9 = triton_helpers.promote_to_tensor(tl.sum(tmp7, 0)) tmp11 = tmp1 - tmp10 tmp13 = tmp11 + tmp12 tmp14 = triton_helpers.maximum(tmp13, tmp5) tmp15 = tl.broadcast_to(tmp14, [RBLOCK]) tmp17 = triton_helpers.promote_to_tensor(tl.sum(tmp15, 0)) tmp18 = tmp9 + tmp17 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp18, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1, arg2_1, arg3_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg3_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [sub, add, clamp, cost_sent, sub_1, add_1, clamp_1, cost_img, loss], Original ATen: [aten.rsub, aten.add, aten.clamp, aten.sum] stream0 = get_raw_stream(0) triton_per_fused_add_clamp_rsub_sum_0.run(buf2, arg0_1, arg1_1, arg2_1, arg3_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 del arg2_1 del arg3_1 return (buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg2_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg3_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1, arg2_1, arg3_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class PairwiseRankingLoss(nn.Module): """ Pairwise ranking loss """ def __init__(self, margin): super(PairwiseRankingLoss, self).__init__() self.margin = margin def forward(self, anchor1, anchor2, img_sentc, sent_imgc): cost_sent = torch.clamp(self.margin - anchor1 + img_sentc, min=0.0 ).sum() cost_img = torch.clamp(self.margin - anchor2 + sent_imgc, min=0.0).sum( ) loss = cost_sent + cost_img return loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'margin': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_clamp_rsub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp3 = tl.load(in_ptr1 + r0, None) tmp10 = tl.load(in_ptr2 + r0, None) tmp12 = tl.load(in_ptr3 + r0, None) tmp1 = 4.0 tmp2 = tmp1 - tmp0 tmp4 = tmp2 + tmp3 tmp5 = 0.0 tmp6 = triton_helpers.maximum(tmp4, tmp5) tmp7 = tl.broadcast_to(tmp6, [RBLOCK]) tmp9 = triton_helpers.promote_to_tensor(tl.sum(tmp7, 0)) tmp11 = tmp1 - tmp10 tmp13 = tmp11 + tmp12 tmp14 = triton_helpers.maximum(tmp13, tmp5) tmp15 = tl.broadcast_to(tmp14, [RBLOCK]) tmp17 = triton_helpers.promote_to_tensor(tl.sum(tmp15, 0)) tmp18 = tmp9 + tmp17 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp18, None) def call(args): arg0_1, arg1_1, arg2_1, arg3_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg3_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf2 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_clamp_rsub_sum_0[grid(1)](buf2, arg0_1, arg1_1, arg2_1, arg3_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 del arg2_1 del arg3_1 return buf2, class PairwiseRankingLossNew(nn.Module): """ Pairwise ranking loss """ def __init__(self, margin): super(PairwiseRankingLossNew, self).__init__() self.margin = margin def forward(self, input_0, input_1, input_2, input_3): arg0_1 = input_0 arg1_1 = input_1 arg2_1 = input_2 arg3_1 = input_3 output = call([arg0_1, arg1_1, arg2_1, arg3_1]) return output[0]	BinWang28/EvalRank-Embedding-Evaluation	PairwiseRankingLoss	false	7,796	[ "BSD-3-Clause" ]	15	454dac5c7345f01993688f33375f637129c285e3	https://github.com/BinWang28/EvalRank-Embedding-Evaluation/tree/454dac5c7345f01993688f33375f637129c285e3	import torch import torch.nn as nn class Model(nn.Module): """ Pairwise ranking loss """ def __init__(self, margin): super().__init__() self.margin = margin def forward(self, anchor1, anchor2, img_sentc, sent_imgc): cost_sent = torch.clamp(self.margin - anchor1 + img_sentc, min=0.0 ).sum() cost_img = torch.clamp(self.margin - anchor2 + sent_imgc, min=0.0).sum( ) loss = cost_sent + cost_img return loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4]
ZeroConv2d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/kj/ckjpajvnrzyvwmr6rrlk6z2m4aczgu2cgohe4zihb4lpwg3dlk4p.py # Topologically Sorted Source Nodes: [out, mul, exp, out_1], Original ATen: [aten.convolution, aten.mul, aten.exp] # Source node to ATen node mapping: # exp => exp # mul => mul # out => convolution # out_1 => mul_1 # Graph fragment: # %convolution : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_4, 3), kwargs = {}) # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%mul,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution, %exp), kwargs = {}) triton_poi_fused_convolution_exp_mul_0 = async_compile.triton('triton_poi_fused_convolution_exp_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_exp_mul_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_exp_mul_0(in_out_ptr0, in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = 3.0 tmp5 = tmp3 * tmp4 tmp6 = tl_math.exp(tmp5) tmp7 = tmp2 * tmp6 tl.store(in_out_ptr0 + (x3), tmp2, xmask) tl.store(out_ptr0 + (x3), tmp7, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (1, 4, 1, 1), (4, 1, 1, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = buf0; del buf0 # reuse buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [out, mul, exp, out_1], Original ATen: [aten.convolution, aten.mul, aten.exp] stream0 = get_raw_stream(0) triton_poi_fused_convolution_exp_mul_0.run(buf1, primals_2, primals_4, buf2, 256, grid=grid(256), stream=stream0) del primals_2 return (buf2, primals_1, primals_3, primals_4, buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((1, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class ZeroConv2d(nn.Module): def __init__(self, in_channel, out_channel, padding=1): super().__init__() self.in_channel = in_channel self.conv = nn.Conv2d(in_channel, out_channel, [1, 1], padding=0) self.conv.weight.data.zero_() self.conv.bias.data.zero_() self.scale = nn.Parameter(torch.zeros(1, out_channel, 1, 1)) def forward(self, input): out = self.conv(input) out = out * torch.exp(self.scale * 3) return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channel': 4, 'out_channel': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_convolution_exp_mul_0(in_out_ptr0, in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = 3.0 tmp5 = tmp3 * tmp4 tmp6 = tl_math.exp(tmp5) tmp7 = tmp2 * tmp6 tl.store(in_out_ptr0 + x3, tmp2, xmask) tl.store(out_ptr0 + x3, tmp7, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (1, 4, 1, 1), (4, 1, 1, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = buf0 del buf0 buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_convolution_exp_mul_0[grid(256)](buf1, primals_2, primals_4, buf2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 return buf2, primals_1, primals_3, primals_4, buf1 class ZeroConv2dNew(nn.Module): def __init__(self, in_channel, out_channel, padding=1): super().__init__() self.in_channel = in_channel self.conv = nn.Conv2d(in_channel, out_channel, [1, 1], padding=0) self.conv.weight.data.zero_() self.conv.bias.data.zero_() self.scale = nn.Parameter(torch.zeros(1, out_channel, 1, 1)) def forward(self, input_0): primals_4 = self.scale primals_1 = self.conv.weight primals_2 = self.conv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	BinWang28/EvalRank-Embedding-Evaluation	ZeroConv2d	false	7,797	[ "BSD-3-Clause" ]	15	454dac5c7345f01993688f33375f637129c285e3	https://github.com/BinWang28/EvalRank-Embedding-Evaluation/tree/454dac5c7345f01993688f33375f637129c285e3	import torch import torch.nn as nn class Model(nn.Module): def __init__(self, in_channel, out_channel, padding=1): super().__init__() self.in_channel = in_channel self.conv = nn.Conv2d(in_channel, out_channel, [1, 1], padding=0) self.conv.weight.data.zero_() self.conv.bias.data.zero_() self.scale = nn.Parameter(torch.zeros(1, out_channel, 1, 1)) def forward(self, input): out = self.conv(input) out = out * torch.exp(self.scale * 3) return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
DiceLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/3q/c3qzqqrjbuoqurmxekk54wemfxhpnlxfukdbemagtak4e4p7ujow.py # Topologically Sorted Source Nodes: [mul, inter, mul_1, add_2, sum_2, sum_3, add, z, truediv, sub], Original ATen: [aten.mul, aten.sum, aten.add, aten.div, aten.rsub] # Source node to ATen node mapping: # add => add # add_2 => add_2 # inter => sum_1 # mul => mul # mul_1 => mul_1 # sub => sub # sum_2 => sum_2 # sum_3 => sum_3 # truediv => div # z => add_1 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sum_1, 2), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, 1.0), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%arg0_1,), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%arg1_1,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_2, %sum_3), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, 1.0), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%add_2, %add_1), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1.0, %div), kwargs = {}) triton_per_fused_add_div_mul_rsub_sum_0 = async_compile.triton('triton_per_fused_add_div_mul_rsub_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_div_mul_rsub_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 3, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_div_mul_rsub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp2 = tmp0 * tmp1 tmp3 = tl.broadcast_to(tmp2, [RBLOCK]) tmp5 = triton_helpers.promote_to_tensor(tl.sum(tmp3, 0)) tmp6 = tl.broadcast_to(tmp0, [RBLOCK]) tmp8 = triton_helpers.promote_to_tensor(tl.sum(tmp6, 0)) tmp9 = tl.broadcast_to(tmp1, [RBLOCK]) tmp11 = triton_helpers.promote_to_tensor(tl.sum(tmp9, 0)) tmp12 = 2.0 tmp13 = tmp5 * tmp12 tmp14 = 1.0 tmp15 = tmp13 + tmp14 tmp16 = tmp8 + tmp11 tmp17 = tmp16 + tmp14 tmp18 = tmp15 / tmp17 tmp19 = tmp14 - tmp18 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp19, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf3 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [mul, inter, mul_1, add_2, sum_2, sum_3, add, z, truediv, sub], Original ATen: [aten.mul, aten.sum, aten.add, aten.div, aten.rsub] stream0 = get_raw_stream(0) triton_per_fused_add_div_mul_rsub_sum_0.run(buf3, arg0_1, arg1_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.optim class DiceLoss(nn.Module): def __init__(self, smooth=1.0): super(DiceLoss, self).__init__() self.smooth = smooth def _dice_coeff(self, pred, target): """ Args: pred: [N, 1] within [0, 1] target: [N, 1] Returns: """ smooth = self.smooth inter = torch.sum(pred * target) z = pred.sum() + target.sum() + smooth return (2 * inter + smooth) / z def forward(self, pred, target): return 1.0 - self._dice_coeff(pred, target) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn import torch.optim assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_div_mul_rsub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp2 = tmp0 * tmp1 tmp3 = tl.broadcast_to(tmp2, [RBLOCK]) tmp5 = triton_helpers.promote_to_tensor(tl.sum(tmp3, 0)) tmp6 = tl.broadcast_to(tmp0, [RBLOCK]) tmp8 = triton_helpers.promote_to_tensor(tl.sum(tmp6, 0)) tmp9 = tl.broadcast_to(tmp1, [RBLOCK]) tmp11 = triton_helpers.promote_to_tensor(tl.sum(tmp9, 0)) tmp12 = 2.0 tmp13 = tmp5 * tmp12 tmp14 = 1.0 tmp15 = tmp13 + tmp14 tmp16 = tmp8 + tmp11 tmp17 = tmp16 + tmp14 tmp18 = tmp15 / tmp17 tmp19 = tmp14 - tmp18 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp19, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf3 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_div_mul_rsub_sum_0[grid(1)](buf3, arg0_1, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf3, class DiceLossNew(nn.Module): def __init__(self, smooth=1.0): super(DiceLossNew, self).__init__() self.smooth = smooth def _dice_coeff(self, pred, target): """ Args: pred: [N, 1] within [0, 1] target: [N, 1] Returns: """ smooth = self.smooth inter = torch.sum(pred * target) z = pred.sum() + target.sum() + smooth return (2 * inter + smooth) / z def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	Bobholamovic/SimpleCV	DiceLoss	false	7,798	[ "MIT" ]	44	f4edacf088d0155725a469e227de847820bdfa53	https://github.com/Bobholamovic/SimpleCV/tree/f4edacf088d0155725a469e227de847820bdfa53	import torch import torch.nn as nn import torch.optim class Model(nn.Module): def __init__(self, smooth=1.0): super().__init__() self.smooth = smooth def _dice_coeff(self, pred, target): """ Args: pred: [N, 1] within [0, 1] target: [N, 1] Returns: """ smooth = self.smooth inter = torch.sum(pred * target) z = pred.sum() + target.sum() + smooth return (2 * inter + smooth) / z def forward(self, pred, target): return 1.0 - self._dice_coeff(pred, target) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
ResidualBlock	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/um/cumtb2nbvpz3sctzb3holoqrz26agu35rzzf7664enrn7da32zf5.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.add] # Source node to ATen node mapping: # x => add # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%arg0_1, %arg0_1), kwargs = {}) # %copy_ : [num_users=1] = call_function[target=torch.ops.aten.copy_.default](args = (%arg0_1, %add), kwargs = {}) triton_poi_fused_add_0 = async_compile.triton('triton_poi_fused_add_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_0', 'mutated_arg_names': ['in_ptr0', 'out_ptr1'], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_0(in_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tmp0 + tmp0 tl.store(out_ptr1 + (x0), tmp1, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_0.run(arg0_1, arg0_1, 256, grid=grid(256), stream=stream0) return (arg0_1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class ResidualBlock(nn.Sequential): def __init__(self, args): super(ResidualBlock, self).__init__(args) def forward(self, x): identity = x x = super(ResidualBlock, self).forward(x) x += identity return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride @triton.jit def triton_poi_fused_add_0(in_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tmp0 + tmp0 tl.store(out_ptr1 + x0, tmp1, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) get_raw_stream(0) triton_poi_fused_add_0[grid(256)](arg0_1, arg0_1, 256, XBLOCK=128, num_warps=4, num_stages=1) return arg0_1, class ResidualBlockNew(nn.Sequential): def __init__(self, args): super(ResidualBlockNew, self).__init__(args) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Bobholamovic/ever	ResidualBlock	false	7,799	[ "Apache-2.0" ]	22	f38060674a40ed53072b9d9be99cc656a830398f	https://github.com/Bobholamovic/ever/tree/f38060674a40ed53072b9d9be99cc656a830398f	import torch import torch.nn as nn class Model(nn.Sequential): def __init__(self, args): super().__init__(args) def forward(self, x): identity = x x = super(ResidualBlock, self).forward(x) x += identity return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
GlobalAvgPool2DBaseline	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/yg/cygooswl5gkxugqq2ejgag2vtcqhtumn2j3notsgzty3xoxbrq4v.py # Topologically Sorted Source Nodes: [x_pool], Original ATen: [aten.mean] # Source node to ATen node mapping: # x_pool => mean # Graph fragment: # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%view, [2]), kwargs = {}) triton_per_fused_mean_0 = async_compile.triton('triton_per_fused_mean_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_mean_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_mean_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (16*x0)), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp5 = 16.0 tmp6 = tmp4 / tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp6, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [x_pool], Original ATen: [aten.mean] stream0 = get_raw_stream(0) triton_per_fused_mean_0.run(buf1, arg0_1, 16, 16, grid=grid(16), stream=stream0) del arg0_1 return (reinterpret_tensor(buf1, (4, 4, 1, 1), (4, 1, 1, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.optim class GlobalAvgPool2DBaseline(nn.Module): def __init__(self): super(GlobalAvgPool2DBaseline, self).__init__() def forward(self, x): x_pool = torch.mean(x.view(x.size(0), x.size(1), x.size(2) * x.size (3)), dim=2) x_pool = x_pool.view(x.size(0), x.size(1), 1, 1).contiguous() return x_pool def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn import torch.optim assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_per_fused_mean_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp5 = 16.0 tmp6 = tmp4 / tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp6, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_mean_0[grid(16)](buf1, arg0_1, 16, 16, XBLOCK=8, num_warps=2, num_stages=1) del arg0_1 return reinterpret_tensor(buf1, (4, 4, 1, 1), (4, 1, 1, 1), 0), class GlobalAvgPool2DBaselineNew(nn.Module): def __init__(self): super(GlobalAvgPool2DBaselineNew, self).__init__() def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Bobholamovic/SimpleCV	GlobalAvgPool2DBaseline	false	7,800	[ "MIT" ]	44	f4edacf088d0155725a469e227de847820bdfa53	https://github.com/Bobholamovic/SimpleCV/tree/f4edacf088d0155725a469e227de847820bdfa53	import torch import torch.nn as nn import torch.optim class Model(nn.Module): def __init__(self): super().__init__() def forward(self, x): x_pool = torch.mean(x.view(x.size(0), x.size(1), x.size(2) * x.size (3)), dim=2) x_pool = x_pool.view(x.size(0), x.size(1), 1, 1).contiguous() return x_pool def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
LinkClassifier	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/mq/cmqm3suuynnwkfqoknn7pebys5fdi25dk6nzx35cuywydel6rhnu.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x_1 => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %le_2 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[2048], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 2048 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 32 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, None) tl.store(out_ptr0 + (x2), tmp6, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/gg/cggzmgnagi3aqhszixzpk676lyaaj6ohwwxdrwmyvxykgdaomngd.py # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x_3 => relu_1 # Graph fragment: # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_3,), kwargs = {}) # %le_1 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_1, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_1 = async_compile.triton('triton_poi_fused_relu_threshold_backward_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 16 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/53/c53h2rixwqkricvk4awyr7p5dj66g6wqzwecfq26noktkspayekf.py # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x_5 => relu_2 # Graph fragment: # %relu_2 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_5,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_2, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_2 = async_compile.triton('triton_poi_fused_relu_threshold_backward_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_2(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 512 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 8 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/m3/cm3pc6holxlqinqdnsm3eucxrz3qitqshkmcpwve5rlal3fr7i5h.py # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten._log_softmax] # Source node to ATen node mapping: # x_8 => amax, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_7, [1], True), kwargs = {}) # %sub : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_7, %amax), kwargs = {}) triton_poi_fused__log_softmax_3 = async_compile.triton('triton_poi_fused__log_softmax_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__log_softmax_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__log_softmax_3(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = (xindex // 32) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (32x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (8 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (16 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (24 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/5u/c5u6ofdglsg7glklvg5d5umkmc5yfoix64n5bgb5h2imyaey7s7f.py # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten._log_softmax] # Source node to ATen node mapping: # x_8 => exp, log, sub_1, sum_1 # Graph fragment: # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [1], True), kwargs = {}) # %log : [num_users=1] = call_function[target=torch.ops.aten.log.default](args = (%sum_1,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%sub, %log), kwargs = {}) triton_poi_fused__log_softmax_4 = async_compile.triton('triton_poi_fused__log_softmax_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__log_softmax_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__log_softmax_4(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = (xindex // 32) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (32x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (8 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (16 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (24 + x0 + (32x2)), xmask, eviction_policy='evict_last') tmp2 = tl_math.exp(tmp1) tmp4 = tl_math.exp(tmp3) tmp5 = tmp2 + tmp4 tmp7 = tl_math.exp(tmp6) tmp8 = tmp5 + tmp7 tmp10 = tl_math.exp(tmp9) tmp11 = tmp8 + tmp10 tmp12 = tl_math.log(tmp11) tmp13 = tmp0 - tmp12 tl.store(out_ptr0 + (x3), tmp13, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (32, 4), (4, 1)) assert_size_stride(primals_2, (32, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (16, 32), (32, 1)) assert_size_stride(primals_5, (16, ), (1, )) assert_size_stride(primals_6, (8, 16), (16, 1)) assert_size_stride(primals_7, (8, ), (1, )) assert_size_stride(primals_8, (2, 8), (8, 1)) assert_size_stride(primals_9, (2, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 32), (32, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 32), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 32), (512, 128, 32, 1), 0); del buf0 # reuse buf11 = empty_strided_cuda((4, 4, 4, 32), (512, 128, 32, 1), torch.bool) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_2, buf11, 2048, grid=grid(2048), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (64, 32), (32, 1), 0), reinterpret_tensor(primals_4, (32, 16), (1, 32), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 16), (256, 64, 16, 1), 0); del buf2 # reuse buf10 = empty_strided_cuda((4, 4, 4, 16), (256, 64, 16, 1), torch.bool) # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_1.run(buf3, primals_5, buf10, 1024, grid=grid(1024), stream=stream0) del primals_5 buf4 = empty_strided_cuda((64, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf3, (64, 16), (16, 1), 0), reinterpret_tensor(primals_6, (16, 8), (1, 16), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 8), (128, 32, 8, 1), 0); del buf4 # reuse buf9 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.bool) # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_2.run(buf5, primals_7, buf9, 512, grid=grid(512), stream=stream0) del primals_7 buf6 = empty_strided_cuda((64, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_7], Original ATen: [aten.addmm] extern_kernels.addmm(primals_9, reinterpret_tensor(buf5, (64, 8), (8, 1), 0), reinterpret_tensor(primals_8, (8, 2), (1, 8), 0), alpha=1, beta=1, out=buf6) del primals_9 buf7 = empty_strided_cuda((4, 4, 4, 2), (32, 8, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten._log_softmax] triton_poi_fused__log_softmax_3.run(buf6, buf7, 128, grid=grid(128), stream=stream0) buf8 = reinterpret_tensor(buf6, (4, 4, 4, 2), (32, 8, 2, 1), 0); del buf6 # reuse # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten._log_softmax] triton_poi_fused__log_softmax_4.run(buf7, buf8, 128, grid=grid(128), stream=stream0) del buf7 return (buf8, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 32), (32, 1), 0), reinterpret_tensor(buf3, (64, 16), (16, 1), 0), reinterpret_tensor(buf5, (64, 8), (8, 1), 0), buf8, primals_8, buf9, primals_6, buf10, primals_4, buf11, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((32, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((16, 32), (32, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((8, 16), (16, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((2, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((2, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class LinkClassifier(nn.Module): def __init__(self, in_features, dropout=0.2): super(LinkClassifier, self).__init__() self.input = nn.Linear(in_features, 32) self.hidden1 = nn.Linear(32, 16) self.hidden2 = nn.Linear(16, 8) self.output = nn.Linear(8, 2) self.dropout = nn.Dropout(dropout) self.relu = nn.ReLU() def forward(self, x): x = self.input(x) x = self.relu(x) x = self.hidden1(x) x = self.relu(x) x = self.hidden2(x) x = self.relu(x) x = self.dropout(x) x = self.output(x) x = F.log_softmax(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_features': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 32 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, None) tl.store(out_ptr0 + x2, tmp6, None) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 16 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_relu_threshold_backward_2(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 512 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 8 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused__log_softmax_3(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = xindex // 32 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (8 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (16 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (24 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tl.store(out_ptr0 + x3, tmp8, xmask) @triton.jit def triton_poi_fused__log_softmax_4(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 8 x2 = xindex // 32 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (8 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (16 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (24 + x0 + 32 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl_math.exp(tmp1) tmp4 = tl_math.exp(tmp3) tmp5 = tmp2 + tmp4 tmp7 = tl_math.exp(tmp6) tmp8 = tmp5 + tmp7 tmp10 = tl_math.exp(tmp9) tmp11 = tmp8 + tmp10 tmp12 = tl_math.log(tmp11) tmp13 = tmp0 - tmp12 tl.store(out_ptr0 + x3, tmp13, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (32, 4), (4, 1)) assert_size_stride(primals_2, (32,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (16, 32), (32, 1)) assert_size_stride(primals_5, (16,), (1,)) assert_size_stride(primals_6, (8, 16), (16, 1)) assert_size_stride(primals_7, (8,), (1,)) assert_size_stride(primals_8, (2, 8), (8, 1)) assert_size_stride(primals_9, (2,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 32), (32, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 32), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 32), (512, 128, 32, 1), 0) del buf0 buf11 = empty_strided_cuda((4, 4, 4, 32), (512, 128, 32, 1), torch.bool ) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(2048)](buf1, primals_2, buf11, 2048, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 16), (16, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 32), (32, 1), 0), reinterpret_tensor(primals_4, (32, 16), (1, 32), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 16), (256, 64, 16, 1), 0) del buf2 buf10 = empty_strided_cuda((4, 4, 4, 16), (256, 64, 16, 1), torch.bool) triton_poi_fused_relu_threshold_backward_1[grid(1024)](buf3, primals_5, buf10, 1024, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf4 = empty_strided_cuda((64, 8), (8, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf3, (64, 16), (16, 1), 0), reinterpret_tensor(primals_6, (16, 8), (1, 16), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 8), (128, 32, 8, 1), 0) del buf4 buf9 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.bool) triton_poi_fused_relu_threshold_backward_2[grid(512)](buf5, primals_7, buf9, 512, XBLOCK=128, num_warps=4, num_stages=1) del primals_7 buf6 = empty_strided_cuda((64, 2), (2, 1), torch.float32) extern_kernels.addmm(primals_9, reinterpret_tensor(buf5, (64, 8), ( 8, 1), 0), reinterpret_tensor(primals_8, (8, 2), (1, 8), 0), alpha=1, beta=1, out=buf6) del primals_9 buf7 = empty_strided_cuda((4, 4, 4, 2), (32, 8, 2, 1), torch.float32) triton_poi_fused__log_softmax_3[grid(128)](buf6, buf7, 128, XBLOCK= 128, num_warps=4, num_stages=1) buf8 = reinterpret_tensor(buf6, (4, 4, 4, 2), (32, 8, 2, 1), 0) del buf6 triton_poi_fused__log_softmax_4[grid(128)](buf7, buf8, 128, XBLOCK= 128, num_warps=4, num_stages=1) del buf7 return buf8, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 32), (32, 1), 0), reinterpret_tensor( buf3, (64, 16), (16, 1), 0), reinterpret_tensor(buf5, (64, 8), (8, 1), 0), buf8, primals_8, buf9, primals_6, buf10, primals_4, buf11 class LinkClassifierNew(nn.Module): def __init__(self, in_features, dropout=0.2): super(LinkClassifierNew, self).__init__() self.input = nn.Linear(in_features, 32) self.hidden1 = nn.Linear(32, 16) self.hidden2 = nn.Linear(16, 8) self.output = nn.Linear(8, 2) self.dropout = nn.Dropout(dropout) self.relu = nn.ReLU() def forward(self, input_0): primals_1 = self.input.weight primals_2 = self.input.bias primals_4 = self.hidden1.weight primals_5 = self.hidden1.bias primals_6 = self.hidden2.weight primals_7 = self.hidden2.bias primals_8 = self.output.weight primals_9 = self.output.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0]	BlackReap-er/Sia	LinkClassifier	false	7,801	[ "MIT" ]	13	70654d55caa3315187282c88a59cf9b6e0b7c52b	https://github.com/BlackReap-er/Sia/tree/70654d55caa3315187282c88a59cf9b6e0b7c52b	import torch import torch.nn as nn import torch.nn.functional as F class Model(nn.Module): def __init__(self, in_features, dropout=0.2): super().__init__() self.input = nn.Linear(in_features, 32) self.hidden1 = nn.Linear(32, 16) self.hidden2 = nn.Linear(16, 8) self.output = nn.Linear(8, 2) self.dropout = nn.Dropout(dropout) self.relu = nn.ReLU() def forward(self, x): x = self.input(x) x = self.relu(x) x = self.hidden1(x) x = self.relu(x) x = self.hidden2(x) x = self.relu(x) x = self.dropout(x) x = self.output(x) x = F.log_softmax(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4]
MultiHeadAttention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/z7/cz7gvwpm6kooqnwr4vixflp6q5wq6isg5on5czrzmd63imnnltlp.py # Topologically Sorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: # Graph fragment: # %mul_scalar : [num_users=1] = call_function[target=torch.ops.aten.mul.Scalar](args = (%permute_default, 1.0), kwargs = {}) # %clone_default : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand_default,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_0 = async_compile.triton('triton_poi_fused_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4], tile_hint=TileHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_0(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (16y1)), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (y0), ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 1.0 tmp4 = tmp2 * tmp3 tl.store(out_ptr0 + (x2 + (4y3)), tmp4, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/pa/cpadi56vkuxukr63kmqryvzbnuortdig4tyvdogzts7swfocorqd.py # Topologically Sorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: # Graph fragment: # %add_tensor : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_default_2, %primals_8), kwargs = {}) # %amax_default : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%add_tensor, [-1], True), kwargs = {}) # %sub_tensor : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_tensor, %amax_default), kwargs = {}) # %exp_default : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub_tensor,), kwargs = {}) # %sum_dim_int_list : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp_default, [-1], True), kwargs = {}) # %eq_scalar : [num_users=1] = call_function[target=torch.ops.aten.eq.Scalar](args = (%add_tensor, -inf), kwargs = {}) # %logical_not_default : [num_users=1] = call_function[target=torch.ops.aten.logical_not.default](args = (%eq_scalar,), kwargs = {}) # %any_dim : [num_users=1] = call_function[target=torch.ops.aten.any.dim](args = (%logical_not_default, -1, True), kwargs = {}) triton_poi_fused_1 = async_compile.triton('triton_poi_fused_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i1', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_1(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 16 tmp0 = tl.load(in_ptr0 + (4x2), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (4x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (4x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (2 + (4x2)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (3 + (4x2)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr1 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp9 = tmp7 + tmp8 tmp10 = triton_helpers.maximum(tmp6, tmp9) tmp13 = tmp11 + tmp12 tmp14 = triton_helpers.maximum(tmp10, tmp13) tmp15 = tmp2 - tmp14 tmp16 = tl_math.exp(tmp15) tmp17 = tmp5 - tmp14 tmp18 = tl_math.exp(tmp17) tmp19 = tmp16 + tmp18 tmp20 = tmp9 - tmp14 tmp21 = tl_math.exp(tmp20) tmp22 = tmp19 + tmp21 tmp23 = tmp13 - tmp14 tmp24 = tl_math.exp(tmp23) tmp25 = tmp22 + tmp24 tmp26 = float("-inf") tmp27 = tmp2 == tmp26 tmp28 = tmp27 == 0 tmp29 = tmp28.to(tl.int64) tmp30 = (tmp29 != 0) tmp31 = tmp5 == tmp26 tmp32 = tmp31 == 0 tmp33 = tmp32.to(tl.int64) tmp34 = (tmp33 != 0) tmp35 = tmp30 \| tmp34 tmp36 = tmp9 == tmp26 tmp37 = tmp36 == 0 tmp38 = tmp37.to(tl.int64) tmp39 = (tmp38 != 0) tmp40 = tmp35 \| tmp39 tmp41 = tmp13 == tmp26 tmp42 = tmp41 == 0 tmp43 = tmp42.to(tl.int64) tmp44 = (tmp43 != 0) tmp45 = tmp40 \| tmp44 tl.store(out_ptr0 + (x2), tmp14, xmask) tl.store(out_ptr1 + (x2), tmp25, xmask) tl.store(out_ptr2 + (x2), tmp45, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/gi/cgi6e7jgcuwbujn6r6natpglnb3qyo2zdrze4hhdmoiffdgmo3pd.py # Topologically Sorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: # Graph fragment: # %add_tensor : [num_users=3] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_default_2, %primals_8), kwargs = {}) # %amax_default : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%add_tensor, [-1], True), kwargs = {}) # %sub_tensor : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_tensor, %amax_default), kwargs = {}) # %exp_default : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub_tensor,), kwargs = {}) # %div_tensor : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp_default, %sum_dim_int_list), kwargs = {}) # %logical_not_default_1 : [num_users=1] = call_function[target=torch.ops.aten.logical_not.default](args = (%any_dim,), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 4, 4, 4], 0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_self : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%logical_not_default_1, %full_default, %div_tensor), kwargs = {}) triton_poi_fused_2 = async_compile.triton('triton_poi_fused_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i1', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_2(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = (xindex // 4) x4 = xindex x5 = xindex % 64 tmp0 = tl.load(in_ptr0 + (x3), xmask, eviction_policy='evict_last').to(tl.int1) tmp2 = tl.load(in_out_ptr0 + (x4), xmask) tmp3 = tl.load(in_ptr1 + (x5), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr2 + (x3), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr3 + (x3), xmask, eviction_policy='evict_last') tmp1 = tmp0 == 0 tmp4 = tmp2 + tmp3 tmp6 = tmp4 - tmp5 tmp7 = tl_math.exp(tmp6) tmp9 = tmp7 / tmp8 tmp10 = 0.0 tmp11 = tl.where(tmp1, tmp10, tmp9) tl.store(in_out_ptr0 + (x4), tmp11, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ej/cejxfbejrrsaghh6aun6yxkqmy4riwh54nh4ajhql72uuev27cjd.py # Topologically Sorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: # Graph fragment: # %clone_default_2 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand_default_3,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_3 = async_compile.triton('triton_poi_fused_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4], tile_hint=TileHint.DEFAULT, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_3(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (16y1)), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (y0), ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(out_ptr0 + (x2 + (4y3)), tmp2, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/5k/c5kufnc7mciff7by75wm2btl7xamphqljghinmvgmksxfleox4tp.py # Topologically Sorted Source Nodes: [context_layer_1], Original ATen: [aten.clone] # Source node to ATen node mapping: # context_layer_1 => clone_4 # Graph fragment: # %clone_4 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute_7,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_4 = async_compile.triton('triton_poi_fused_clone_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_4(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (16y1)), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + (4y3)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/yv/cyvu7b655f7w4y6fs3cr3d3vawpnn3vmcirao3tw5zgpuuobc2mb.py # Topologically Sorted Source Nodes: [add_1, hidden_states_2], Original ATen: [aten.add, aten.native_layer_norm] # Source node to ATen node mapping: # add_1 => add_1 # hidden_states_2 => var_mean # Graph fragment: # %add_1 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_17, %primals_3), kwargs = {}) # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%add_1, [2]), kwargs = {correction: 0, keepdim: True}) triton_poi_fused_add_native_layer_norm_5 = async_compile.triton('triton_poi_fused_add_native_layer_norm_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_native_layer_norm_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_native_layer_norm_5(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (4x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr1 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 + tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 + tmp12 tmp14 = tmp10 + tmp13 tmp15 = 4.0 tmp16 = tmp14 / tmp15 tmp17 = tmp2 - tmp16 tmp18 = tmp17 * tmp17 tmp19 = tmp5 - tmp16 tmp20 = tmp19 * tmp19 tmp21 = tmp18 + tmp20 tmp22 = tmp9 - tmp16 tmp23 = tmp22 * tmp22 tmp24 = tmp21 + tmp23 tmp25 = tmp13 - tmp16 tmp26 = tmp25 * tmp25 tmp27 = tmp24 + tmp26 tmp28 = tmp27 / tmp15 tl.store(out_ptr0 + (x0), tmp16, xmask) tl.store(out_ptr1 + (x0), tmp28, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/cu/ccuvkbmebczzlcc7u53hbtlkotttehsbcyxeooj4ba7436n3fkuq.py # Topologically Sorted Source Nodes: [add_1, hidden_states_2], Original ATen: [aten.add, aten.native_layer_norm] # Source node to ATen node mapping: # add_1 => add_1 # hidden_states_2 => add_2, add_3, mul, mul_1, rsqrt, sub_1 # Graph fragment: # %add_1 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_17, %primals_3), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1.0), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_2,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_1, %getitem_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_1, %rsqrt), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, %primals_11), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %primals_12), kwargs = {}) triton_poi_fused_add_native_layer_norm_6 = async_compile.triton('triton_poi_fused_add_native_layer_norm_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_native_layer_norm_6', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_native_layer_norm_6(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x2), xmask) tmp3 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (x1), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr4 + (x0), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr5 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 - tmp3 tmp6 = 1.0 tmp7 = tmp5 + tmp6 tmp8 = libdevice.rsqrt(tmp7) tmp9 = tmp4 * tmp8 tmp11 = tmp9 * tmp10 tmp13 = tmp11 + tmp12 tl.store(out_ptr0 + (x2), tmp13, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_9, (4, 4), (4, 1)) assert_size_stride(primals_10, (4, ), (1, )) assert_size_stride(primals_11, (4, ), (1, )) assert_size_stride(primals_12, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) del primals_4 buf2 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf2) del primals_6 buf3 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] stream0 = get_raw_stream(0) triton_poi_fused_0.run(buf0, primals_2, buf3, 16, 4, grid=grid(16, 4), stream=stream0) del primals_2 buf4 = reinterpret_tensor(buf0, (4, 4, 1, 4), (16, 4, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] triton_poi_fused_0.run(buf1, primals_5, buf4, 16, 4, grid=grid(16, 4), stream=stream0) del primals_5 buf5 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.bmm(reinterpret_tensor(buf3, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf4, (16, 1, 4), (4, 0, 1), 0), out=buf5) buf6 = reinterpret_tensor(buf1, (4, 4, 4, 1), (16, 4, 1, 64), 0); del buf1 # reuse buf7 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) buf8 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.bool) # Topologically Sorted Source Nodes: [], Original ATen: [] triton_poi_fused_1.run(buf5, primals_8, buf6, buf7, buf8, 64, grid=grid(64), stream=stream0) buf9 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf5 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(buf9, buf8, primals_8, buf6, buf7, 256, grid=grid(256), stream=stream0) del buf8 del primals_8 buf10 = reinterpret_tensor(buf7, (4, 4, 4, 1), (16, 4, 1, 1), 0); del buf7 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] triton_poi_fused_3.run(buf2, primals_7, buf10, 16, 4, grid=grid(16, 4), stream=stream0) del primals_7 buf11 = reinterpret_tensor(buf2, (16, 4, 1), (4, 1, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.bmm(reinterpret_tensor(buf9, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf10, (16, 4, 1), (4, 1, 0), 0), out=buf11) buf12 = reinterpret_tensor(buf6, (4, 4, 4, 1), (16, 4, 1, 1), 0); del buf6 # reuse # Topologically Sorted Source Nodes: [context_layer_1], Original ATen: [aten.clone] triton_poi_fused_clone_4.run(buf11, buf12, 16, 4, grid=grid(16, 4), stream=stream0) buf13 = reinterpret_tensor(buf11, (16, 4), (4, 1), 0); del buf11 # reuse # Topologically Sorted Source Nodes: [hidden_states], Original ATen: [aten.addmm] extern_kernels.addmm(primals_10, reinterpret_tensor(buf12, (16, 4), (4, 1), 0), reinterpret_tensor(primals_9, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf13) del primals_10 buf14 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) buf15 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) # Topologically Sorted Source Nodes: [add_1, hidden_states_2], Original ATen: [aten.add, aten.native_layer_norm] triton_poi_fused_add_native_layer_norm_5.run(buf13, primals_3, buf14, buf15, 16, grid=grid(16), stream=stream0) buf16 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [add_1, hidden_states_2], Original ATen: [aten.add, aten.native_layer_norm] triton_poi_fused_add_native_layer_norm_6.run(buf13, primals_3, buf14, buf15, primals_11, primals_12, buf16, 64, grid=grid(64), stream=stream0) del buf14 del buf15 del primals_12 return (buf16, primals_3, primals_11, buf9, reinterpret_tensor(buf10, (16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf3, (16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf4, (16, 4, 1), (4, 1, 4), 0), reinterpret_tensor(buf12, (16, 4), (4, 1), 0), buf13, primals_9, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import math import torch import torch.nn as nn class MultiHeadAttention(nn.Module): """ Multi-head Self-attention layers, a attention score dropout layer is introduced. Args: input_tensor (torch.Tensor): the input of the multi-head self-attention layer attention_mask (torch.Tensor): the attention mask for input tensor Returns: hidden_states (torch.Tensor): the output of the multi-head self-attention layer """ def __init__(self, n_heads, hidden_size, hidden_dropout_prob, attn_dropout_prob, layer_norm_eps): super(MultiHeadAttention, self).__init__() if hidden_size % n_heads != 0: raise ValueError( 'The hidden size (%d) is not a multiple of the number of attention heads (%d)' % (hidden_size, n_heads)) self.num_attention_heads = n_heads self.attention_head_size = int(hidden_size / n_heads) self.all_head_size = (self.num_attention_heads * self. attention_head_size) self.query = nn.Linear(hidden_size, self.all_head_size) self.key = nn.Linear(hidden_size, self.all_head_size) self.value = nn.Linear(hidden_size, self.all_head_size) self.attn_dropout = nn.Dropout(attn_dropout_prob) self.dense = nn.Linear(hidden_size, hidden_size) self.LayerNorm = nn.LayerNorm(hidden_size, eps=layer_norm_eps) self.out_dropout = nn.Dropout(hidden_dropout_prob) def transpose_for_scores(self, x): new_x_shape = x.size()[:-1] + (self.num_attention_heads, self. attention_head_size) x = x.view(new_x_shape) return x.permute(0, 2, 1, 3) def forward(self, input_tensor, attention_mask): mixed_query_layer = self.query(input_tensor) mixed_key_layer = self.key(input_tensor) mixed_value_layer = self.value(input_tensor) query_layer = self.transpose_for_scores(mixed_query_layer) key_layer = self.transpose_for_scores(mixed_key_layer) value_layer = self.transpose_for_scores(mixed_value_layer) attention_scores = torch.matmul(query_layer, key_layer.transpose(-1, -2)) attention_scores = attention_scores / math.sqrt(self. attention_head_size) attention_scores = attention_scores + attention_mask attention_probs = nn.Softmax(dim=-1)(attention_scores) attention_probs = self.attn_dropout(attention_probs) context_layer = torch.matmul(attention_probs, value_layer) context_layer = context_layer.permute(0, 2, 1, 3).contiguous() new_context_layer_shape = context_layer.size()[:-2] + (self. all_head_size,) context_layer = context_layer.view(new_context_layer_shape) hidden_states = self.dense(context_layer) hidden_states = self.out_dropout(hidden_states) hidden_states = self.LayerNorm(hidden_states + input_tensor) return hidden_states def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'n_heads': 4, 'hidden_size': 4, 'hidden_dropout_prob': 0.5, 'attn_dropout_prob': 0.5, 'layer_norm_eps': 1}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_0(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 16 * y1), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + y0, ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 1.0 tmp4 = tmp2 * tmp3 tl.store(out_ptr0 + (x2 + 4 * y3), tmp4, xmask & ymask) @triton.jit def triton_poi_fused_1(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 16 tmp0 = tl.load(in_ptr0 + 4 * x2, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + 4 * x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + 4 * x2), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (2 + 4 * x2), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (3 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp12 = tl.load(in_ptr1 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp9 = tmp7 + tmp8 tmp10 = triton_helpers.maximum(tmp6, tmp9) tmp13 = tmp11 + tmp12 tmp14 = triton_helpers.maximum(tmp10, tmp13) tmp15 = tmp2 - tmp14 tmp16 = tl_math.exp(tmp15) tmp17 = tmp5 - tmp14 tmp18 = tl_math.exp(tmp17) tmp19 = tmp16 + tmp18 tmp20 = tmp9 - tmp14 tmp21 = tl_math.exp(tmp20) tmp22 = tmp19 + tmp21 tmp23 = tmp13 - tmp14 tmp24 = tl_math.exp(tmp23) tmp25 = tmp22 + tmp24 tmp26 = float('-inf') tmp27 = tmp2 == tmp26 tmp28 = tmp27 == 0 tmp29 = tmp28.to(tl.int64) tmp30 = tmp29 != 0 tmp31 = tmp5 == tmp26 tmp32 = tmp31 == 0 tmp33 = tmp32.to(tl.int64) tmp34 = tmp33 != 0 tmp35 = tmp30 \| tmp34 tmp36 = tmp9 == tmp26 tmp37 = tmp36 == 0 tmp38 = tmp37.to(tl.int64) tmp39 = tmp38 != 0 tmp40 = tmp35 \| tmp39 tmp41 = tmp13 == tmp26 tmp42 = tmp41 == 0 tmp43 = tmp42.to(tl.int64) tmp44 = tmp43 != 0 tmp45 = tmp40 \| tmp44 tl.store(out_ptr0 + x2, tmp14, xmask) tl.store(out_ptr1 + x2, tmp25, xmask) tl.store(out_ptr2 + x2, tmp45, xmask) @triton.jit def triton_poi_fused_2(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex // 4 x4 = xindex x5 = xindex % 64 tmp0 = tl.load(in_ptr0 + x3, xmask, eviction_policy='evict_last').to(tl .int1) tmp2 = tl.load(in_out_ptr0 + x4, xmask) tmp3 = tl.load(in_ptr1 + x5, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr2 + x3, xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr3 + x3, xmask, eviction_policy='evict_last') tmp1 = tmp0 == 0 tmp4 = tmp2 + tmp3 tmp6 = tmp4 - tmp5 tmp7 = tl_math.exp(tmp6) tmp9 = tmp7 / tmp8 tmp10 = 0.0 tmp11 = tl.where(tmp1, tmp10, tmp9) tl.store(in_out_ptr0 + x4, tmp11, xmask) @triton.jit def triton_poi_fused_3(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 16 * y1), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + y0, ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(out_ptr0 + (x2 + 4 * y3), tmp2, xmask & ymask) @triton.jit def triton_poi_fused_clone_4(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 16 * y1), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + 4 * y3), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_add_native_layer_norm_5(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + 4 * x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp12 = tl.load(in_ptr1 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 + tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 + tmp12 tmp14 = tmp10 + tmp13 tmp15 = 4.0 tmp16 = tmp14 / tmp15 tmp17 = tmp2 - tmp16 tmp18 = tmp17 * tmp17 tmp19 = tmp5 - tmp16 tmp20 = tmp19 * tmp19 tmp21 = tmp18 + tmp20 tmp22 = tmp9 - tmp16 tmp23 = tmp22 * tmp22 tmp24 = tmp21 + tmp23 tmp25 = tmp13 - tmp16 tmp26 = tmp25 * tmp25 tmp27 = tmp24 + tmp26 tmp28 = tmp27 / tmp15 tl.store(out_ptr0 + x0, tmp16, xmask) tl.store(out_ptr1 + x0, tmp28, xmask) @triton.jit def triton_poi_fused_add_native_layer_norm_6(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x2, xmask) tmp3 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + x1, xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr4 + x0, xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr5 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 - tmp3 tmp6 = 1.0 tmp7 = tmp5 + tmp6 tmp8 = libdevice.rsqrt(tmp7) tmp9 = tmp4 * tmp8 tmp11 = tmp9 * tmp10 tmp13 = tmp11 + tmp12 tl.store(out_ptr0 + x2, tmp13, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12 ) = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_9, (4, 4), (4, 1)) assert_size_stride(primals_10, (4,), (1,)) assert_size_stride(primals_11, (4,), (1,)) assert_size_stride(primals_12, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) del primals_4 buf2 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf2) del primals_6 buf3 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) get_raw_stream(0) triton_poi_fused_0[grid(16, 4)](buf0, primals_2, buf3, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) del primals_2 buf4 = reinterpret_tensor(buf0, (4, 4, 1, 4), (16, 4, 4, 1), 0) del buf0 triton_poi_fused_0[grid(16, 4)](buf1, primals_5, buf4, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) del primals_5 buf5 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf3, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf4, (16, 1, 4), (4, 0, 1), 0), out=buf5) buf6 = reinterpret_tensor(buf1, (4, 4, 4, 1), (16, 4, 1, 64), 0) del buf1 buf7 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) buf8 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.bool) triton_poi_fused_1[grid(64)](buf5, primals_8, buf6, buf7, buf8, 64, XBLOCK=64, num_warps=1, num_stages=1) buf9 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf5 triton_poi_fused_2[grid(256)](buf9, buf8, primals_8, buf6, buf7, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf8 del primals_8 buf10 = reinterpret_tensor(buf7, (4, 4, 4, 1), (16, 4, 1, 1), 0) del buf7 triton_poi_fused_3[grid(16, 4)](buf2, primals_7, buf10, 16, 4, XBLOCK=4, YBLOCK=8, num_warps=1, num_stages=1) del primals_7 buf11 = reinterpret_tensor(buf2, (16, 4, 1), (4, 1, 1), 0) del buf2 extern_kernels.bmm(reinterpret_tensor(buf9, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf10, (16, 4, 1), (4, 1, 0), 0), out=buf11) buf12 = reinterpret_tensor(buf6, (4, 4, 4, 1), (16, 4, 1, 1), 0) del buf6 triton_poi_fused_clone_4[grid(16, 4)](buf11, buf12, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) buf13 = reinterpret_tensor(buf11, (16, 4), (4, 1), 0) del buf11 extern_kernels.addmm(primals_10, reinterpret_tensor(buf12, (16, 4), (4, 1), 0), reinterpret_tensor(primals_9, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf13) del primals_10 buf14 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) buf15 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) triton_poi_fused_add_native_layer_norm_5[grid(16)](buf13, primals_3, buf14, buf15, 16, XBLOCK=16, num_warps=1, num_stages=1) buf16 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_add_native_layer_norm_6[grid(64)](buf13, primals_3, buf14, buf15, primals_11, primals_12, buf16, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf14 del buf15 del primals_12 return buf16, primals_3, primals_11, buf9, reinterpret_tensor(buf10, ( 16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf3, (16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf4, (16, 4, 1), (4, 1, 4), 0 ), reinterpret_tensor(buf12, (16, 4), (4, 1), 0), buf13, primals_9 class MultiHeadAttentionNew(nn.Module): """ Multi-head Self-attention layers, a attention score dropout layer is introduced. Args: input_tensor (torch.Tensor): the input of the multi-head self-attention layer attention_mask (torch.Tensor): the attention mask for input tensor Returns: hidden_states (torch.Tensor): the output of the multi-head self-attention layer """ def __init__(self, n_heads, hidden_size, hidden_dropout_prob, attn_dropout_prob, layer_norm_eps): super(MultiHeadAttentionNew, self).__init__() if hidden_size % n_heads != 0: raise ValueError( 'The hidden size (%d) is not a multiple of the number of attention heads (%d)' % (hidden_size, n_heads)) self.num_attention_heads = n_heads self.attention_head_size = int(hidden_size / n_heads) self.all_head_size = (self.num_attention_heads * self. attention_head_size) self.query = nn.Linear(hidden_size, self.all_head_size) self.key = nn.Linear(hidden_size, self.all_head_size) self.value = nn.Linear(hidden_size, self.all_head_size) self.attn_dropout = nn.Dropout(attn_dropout_prob) self.dense = nn.Linear(hidden_size, hidden_size) self.LayerNorm = nn.LayerNorm(hidden_size, eps=layer_norm_eps) self.out_dropout = nn.Dropout(hidden_dropout_prob) def transpose_for_scores(self, x): new_x_shape = x.size()[:-1] + (self.num_attention_heads, self. attention_head_size) x = x.view(*new_x_shape) return x.permute(0, 2, 1, 3) def forward(self, input_0, input_1): primals_1 = self.query.weight primals_2 = self.query.bias primals_4 = self.key.weight primals_5 = self.key.bias primals_6 = self.value.weight primals_7 = self.value.bias primals_9 = self.dense.weight primals_10 = self.dense.bias primals_11 = self.LayerNorm.weight primals_12 = self.LayerNorm.bias primals_3 = input_0 primals_8 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12]) return output[0]	BELIEVEfxy/LightSANs	MultiHeadAttention	false	7,802	[ "MIT" ]	17	94ce7e59d144dbc787153b8c486cad334790ec6e	https://github.com/BELIEVEfxy/LightSANs/tree/94ce7e59d144dbc787153b8c486cad334790ec6e	import math import torch import torch.nn as nn class Model(nn.Module): """ Multi-head Self-attention layers, a attention score dropout layer is introduced. Args: input_tensor (torch.Tensor): the input of the multi-head self-attention layer attention_mask (torch.Tensor): the attention mask for input tensor Returns: hidden_states (torch.Tensor): the output of the multi-head self-attention layer """ def __init__(self, n_heads, hidden_size, hidden_dropout_prob, attn_dropout_prob, layer_norm_eps): super().__init__() if hidden_size % n_heads != 0: raise ValueError( 'The hidden size (%d) is not a multiple of the number of attention heads (%d)' % (hidden_size, n_heads)) self.num_attention_heads = n_heads self.attention_head_size = int(hidden_size / n_heads) self.all_head_size = (self.num_attention_heads * self. attention_head_size) self.query = nn.Linear(hidden_size, self.all_head_size) self.key = nn.Linear(hidden_size, self.all_head_size) self.value = nn.Linear(hidden_size, self.all_head_size) self.attn_dropout = nn.Dropout(attn_dropout_prob) self.dense = nn.Linear(hidden_size, hidden_size) self.LayerNorm = nn.LayerNorm(hidden_size, eps=layer_norm_eps) self.out_dropout = nn.Dropout(hidden_dropout_prob) def transpose_for_scores(self, x): new_x_shape = x.size()[:-1] + (self.num_attention_heads, self. attention_head_size) x = x.view(new_x_shape) return x.permute(0, 2, 1, 3) def forward(self, input_tensor, attention_mask): mixed_query_layer = self.query(input_tensor) mixed_key_layer = self.key(input_tensor) mixed_value_layer = self.value(input_tensor) query_layer = self.transpose_for_scores(mixed_query_layer) key_layer = self.transpose_for_scores(mixed_key_layer) value_layer = self.transpose_for_scores(mixed_value_layer) attention_scores = torch.matmul(query_layer, key_layer.transpose(-1, -2)) attention_scores = attention_scores / math.sqrt(self. attention_head_size) attention_scores = attention_scores + attention_mask attention_probs = nn.Softmax(dim=-1)(attention_scores) attention_probs = self.attn_dropout(attention_probs) context_layer = torch.matmul(attention_probs, value_layer) context_layer = context_layer.permute(0, 2, 1, 3).contiguous() new_context_layer_shape = context_layer.size()[:-2] + (self. all_head_size,) context_layer = context_layer.view(new_context_layer_shape) hidden_states = self.dense(context_layer) hidden_states = self.out_dropout(hidden_states) hidden_states = self.LayerNorm(hidden_states + input_tensor) return hidden_states def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'n_heads': 4, 'hidden_size': 4, 'hidden_dropout_prob': 0.5, 'attn_dropout_prob': 0.5, 'layer_norm_eps': 1}]
DiceWithLogitsLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/ze/czeswrfqop6bbuwo2x5w7jtybiljcyyjdsvtehhptgx3yjenau4x.py # Topologically Sorted Source Nodes: [pred_score, mul, inter, mul_1, add_2, sum_2, sum_3, add, z, truediv, sub], Original ATen: [aten.sigmoid, aten.mul, aten.sum, aten.add, aten.div, aten.rsub] # Source node to ATen node mapping: # add => add # add_2 => add_2 # inter => sum_1 # mul => mul # mul_1 => mul_1 # pred_score => sigmoid # sub => sub # sum_2 => sum_2 # sum_3 => sum_3 # truediv => div # z => add_1 # Graph fragment: # %sigmoid : [num_users=2] = call_function[target=torch.ops.aten.sigmoid.default](args = (%arg0_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %arg1_1), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sum_1, 2), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, 1.0), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%sigmoid,), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%arg1_1,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_2, %sum_3), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, 1.0), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%add_2, %add_1), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1.0, %div), kwargs = {}) triton_per_fused_add_div_mul_rsub_sigmoid_sum_0 = async_compile.triton('triton_per_fused_add_div_mul_rsub_sigmoid_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_div_mul_rsub_sigmoid_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 3, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_div_mul_rsub_sigmoid_sum_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp2 = tl.load(in_ptr1 + (r0), None) tmp1 = tl.sigmoid(tmp0) tmp3 = tmp1 * tmp2 tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp7 = tl.broadcast_to(tmp1, [RBLOCK]) tmp9 = triton_helpers.promote_to_tensor(tl.sum(tmp7, 0)) tmp10 = tl.broadcast_to(tmp2, [RBLOCK]) tmp12 = triton_helpers.promote_to_tensor(tl.sum(tmp10, 0)) tmp13 = 2.0 tmp14 = tmp6 * tmp13 tmp15 = 1.0 tmp16 = tmp14 + tmp15 tmp17 = tmp9 + tmp12 tmp18 = tmp17 + tmp15 tmp19 = tmp16 / tmp18 tmp20 = tmp15 - tmp19 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp20, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf3 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [pred_score, mul, inter, mul_1, add_2, sum_2, sum_3, add, z, truediv, sub], Original ATen: [aten.sigmoid, aten.mul, aten.sum, aten.add, aten.div, aten.rsub] stream0 = get_raw_stream(0) triton_per_fused_add_div_mul_rsub_sigmoid_sum_0.run(buf3, arg0_1, arg1_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.optim class DiceWithLogitsLoss(nn.Module): def __init__(self, smooth=1.0): super(DiceWithLogitsLoss, self).__init__() self.smooth = smooth def _dice_coeff(self, pred, target): """ Args: pred: [N, 1] within [0, 1] target: [N, 1] Returns: """ smooth = self.smooth inter = torch.sum(pred * target) z = pred.sum() + target.sum() + smooth return (2 * inter + smooth) / z def forward(self, pred, target): pred_score = torch.sigmoid(pred) return 1.0 - self._dice_coeff(pred_score, target) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn import torch.optim assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_div_mul_rsub_sigmoid_sum_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp2 = tl.load(in_ptr1 + r0, None) tmp1 = tl.sigmoid(tmp0) tmp3 = tmp1 * tmp2 tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp7 = tl.broadcast_to(tmp1, [RBLOCK]) tmp9 = triton_helpers.promote_to_tensor(tl.sum(tmp7, 0)) tmp10 = tl.broadcast_to(tmp2, [RBLOCK]) tmp12 = triton_helpers.promote_to_tensor(tl.sum(tmp10, 0)) tmp13 = 2.0 tmp14 = tmp6 * tmp13 tmp15 = 1.0 tmp16 = tmp14 + tmp15 tmp17 = tmp9 + tmp12 tmp18 = tmp17 + tmp15 tmp19 = tmp16 / tmp18 tmp20 = tmp15 - tmp19 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp20, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf3 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_div_mul_rsub_sigmoid_sum_0[grid(1)](buf3, arg0_1, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf3, class DiceWithLogitsLossNew(nn.Module): def __init__(self, smooth=1.0): super(DiceWithLogitsLossNew, self).__init__() self.smooth = smooth def _dice_coeff(self, pred, target): """ Args: pred: [N, 1] within [0, 1] target: [N, 1] Returns: """ smooth = self.smooth inter = torch.sum(pred * target) z = pred.sum() + target.sum() + smooth return (2 * inter + smooth) / z def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	Bobholamovic/SimpleCV	DiceWithLogitsLoss	false	7,803	[ "MIT" ]	44	f4edacf088d0155725a469e227de847820bdfa53	https://github.com/Bobholamovic/SimpleCV/tree/f4edacf088d0155725a469e227de847820bdfa53	import torch import torch.nn as nn import torch.optim class Model(nn.Module): def __init__(self, smooth=1.0): super().__init__() self.smooth = smooth def _dice_coeff(self, pred, target): """ Args: pred: [N, 1] within [0, 1] target: [N, 1] Returns: """ smooth = self.smooth inter = torch.sum(pred * target) z = pred.sum() + target.sum() + smooth return (2 * inter + smooth) / z def forward(self, pred, target): pred_score = torch.sigmoid(pred) return 1.0 - self._dice_coeff(pred_score, target) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
SigmoidRange	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/4h/c4heumda4laowk2bm7of22awexiuvxyseppiagv4nk3bfae6rmrd.py # Topologically Sorted Source Nodes: [sigmoid, mul, add], Original ATen: [aten.sigmoid, aten.mul, aten.add] # Source node to ATen node mapping: # add => add # mul => mul # sigmoid => sigmoid # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%arg0_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, 0), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, 4), kwargs = {}) triton_poi_fused_add_mul_sigmoid_0 = async_compile.triton('triton_poi_fused_add_mul_sigmoid_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_sigmoid_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_sigmoid_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.sigmoid(tmp0) tmp2 = 0.0 tmp3 = tmp1 * tmp2 tmp4 = 4.0 tmp5 = tmp3 + tmp4 tl.store(out_ptr0 + (x0), tmp5, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sigmoid, mul, add], Original ATen: [aten.sigmoid, aten.mul, aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_mul_sigmoid_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch def sigmoid_range(x, low, high): """Sigmoid function with range `(low, high)`""" return torch.sigmoid(x) * (high - low) + low class SigmoidRange(torch.nn.Module): """Sigmoid module with range `(low, x_max)`""" def __init__(self, low, high): super(SigmoidRange, self).__init__() self.low, self.high = low, high def forward(self, x): return sigmoid_range(x, self.low, self.high) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'low': 4, 'high': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_mul_sigmoid_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.sigmoid(tmp0) tmp2 = 0.0 tmp3 = tmp1 * tmp2 tmp4 = 4.0 tmp5 = tmp3 + tmp4 tl.store(out_ptr0 + x0, tmp5, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_mul_sigmoid_0[grid(256)](arg0_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, def sigmoid_range(x, low, high): """Sigmoid function with range `(low, high)`""" return torch.sigmoid(x) * (high - low) + low class SigmoidRangeNew(torch.nn.Module): """Sigmoid module with range `(low, x_max)`""" def __init__(self, low, high): super(SigmoidRangeNew, self).__init__() self.low, self.high = low, high def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	BojarLab/glycowork	SigmoidRange	false	7,804	[ "MIT" ]	22	72d37d406ad70bb9def4a5632a6605778e295fbb	https://github.com/BojarLab/glycowork/tree/72d37d406ad70bb9def4a5632a6605778e295fbb	import torch def sigmoid_range(x, low, high): """Sigmoid function with range `(low, high)`""" return torch.sigmoid(x) * (high - low) + low class Model(torch.nn.Module): """Sigmoid module with range `(low, x_max)`""" def __init__(self, low, high): super().__init__() self.low, self.high = low, high def forward(self, x): return sigmoid_range(x, self.low, self.high) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
SCS_Cell	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/xc/cxceqiy6okvqxrjbwoo7ygc4plr32q3u54opf7nc2ufvkbmb4dzh.py # Topologically Sorted Source Nodes: [ctrl_in], Original ATen: [aten.cat] # Source node to ATen node mapping: # ctrl_in => cat # Graph fragment: # %cat : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %primals_2], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 512 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 16) % 8 x0 = xindex % 16 x2 = (xindex // 128) x3 = xindex tmp0 = x1 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x0 + (16x1) + (64x2)), tmp4 & xmask, other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + (x0 + (16((-4) + x1)) + (64x2)), tmp6 & xmask, other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x3), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/re/crembu2hzkegl5b4oseerj75fmtknplqpbq3dvs33c3nk3ydnanh.py # Topologically Sorted Source Nodes: [conv2d, data_out, conv2d_1, ctrl_out, mul], Original ATen: [aten.convolution, aten.tanh, aten.sigmoid, aten.mul] # Source node to ATen node mapping: # conv2d => convolution # conv2d_1 => convolution_1 # ctrl_out => sigmoid # data_out => tanh # mul => mul # Graph fragment: # %convolution : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_2, %primals_3, %primals_4, [1, 1], [2, 2], [1, 1], False, [0, 0], 1), kwargs = {}) # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%convolution,), kwargs = {}) # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%cat, %primals_5, %primals_6, [1, 1], [2, 2], [1, 1], False, [0, 0], 1), kwargs = {}) # %sigmoid : [num_users=2] = call_function[target=torch.ops.aten.sigmoid.default](args = (%convolution_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %tanh), kwargs = {}) triton_poi_fused_convolution_mul_sigmoid_tanh_1 = async_compile.triton('triton_poi_fused_convolution_mul_sigmoid_tanh_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_mul_sigmoid_tanh_1', 'mutated_arg_names': ['in_out_ptr0', 'in_out_ptr1'], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_mul_sigmoid_tanh_1(in_out_ptr0, in_out_ptr1, in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 400 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 25) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_out_ptr1 + (x3), xmask) tmp4 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tl.sigmoid(tmp5) tmp7 = libdevice.tanh(tmp2) tmp8 = tmp6 * tmp7 tl.store(in_out_ptr0 + (x3), tmp2, xmask) tl.store(in_out_ptr1 + (x3), tmp6, xmask) tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, ), (1, )) assert_size_stride(primals_5, (4, 8, 4, 4), (128, 16, 4, 1)) assert_size_stride(primals_6, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 8, 4, 4), (128, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [ctrl_in], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_1, primals_2, buf0, 512, grid=grid(512), stream=stream0) del primals_1 # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(primals_2, primals_3, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 5, 5), (100, 25, 5, 1)) # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf3 = extern_kernels.convolution(buf0, primals_5, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 4, 5, 5), (100, 25, 5, 1)) buf2 = buf1; del buf1 # reuse buf4 = buf3; del buf3 # reuse buf5 = empty_strided_cuda((4, 4, 5, 5), (100, 25, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [conv2d, data_out, conv2d_1, ctrl_out, mul], Original ATen: [aten.convolution, aten.tanh, aten.sigmoid, aten.mul] triton_poi_fused_convolution_mul_sigmoid_tanh_1.run(buf2, buf4, primals_4, primals_6, buf5, 400, grid=grid(400), stream=stream0) del primals_4 del primals_6 return (buf5, buf4, primals_2, primals_3, primals_5, buf0, buf2, buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, 8, 4, 4), (128, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import random import torch import torch.nn.init from torch import nn from torch.autograd import Variable import torch.utils.data class SCS_Cell(nn.Module): def __init__(self, input_size, input_dim, hidden_dim, kernel_size, bias, p_TD): super(SCS_Cell, self).__init__() self.height, self.width = input_size self.input_dim = input_dim self.hidden_dim = hidden_dim self.kernel_size = kernel_size self.padding = kernel_size[0] // 2, kernel_size[1] // 2 self.bias = bias self.p_TD = p_TD self.data_cnn = nn.Conv2d(in_channels=self.input_dim, out_channels= self.hidden_dim, kernel_size=self.kernel_size, padding=self. padding, bias=self.bias) self.ctrl_cnn = nn.Conv2d(in_channels=self.input_dim + self. hidden_dim, out_channels=self.hidden_dim, kernel_size=self. kernel_size, padding=self.padding, bias=self.bias) def forward(self, input_tensor, cur_state): rate = random.random() c = cur_state data_x = input_tensor ctrl_x = input_tensor.detach() if rate < self.p_TD else input_tensor ctrl_in = torch.cat((c, ctrl_x), dim=1) data_out = torch.tanh(self.data_cnn(data_x)) ctrl_out = torch.sigmoid(self.ctrl_cnn(ctrl_in)) return ctrl_out * data_out, ctrl_out def init_hidden(self, batch_size): return Variable(torch.zeros(batch_size, self.hidden_dim, self. height, self.width)) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_size': [4, 4], 'input_dim': 4, 'hidden_dim': 4, 'kernel_size': [4, 4], 'bias': 4, 'p_TD': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn.init from torch import nn from torch.autograd import Variable import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 512 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 16 % 8 x0 = xindex % 16 x2 = xindex // 128 x3 = xindex tmp0 = x1 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x0 + 16 * x1 + 64 * x2), tmp4 & xmask, other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr1 + (x0 + 16 * (-4 + x1) + 64 * x2), tmp6 & xmask, other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x3, tmp10, xmask) @triton.jit def triton_poi_fused_convolution_mul_sigmoid_tanh_1(in_out_ptr0, in_out_ptr1, in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 400 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 25 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_out_ptr1 + x3, xmask) tmp4 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tl.sigmoid(tmp5) tmp7 = libdevice.tanh(tmp2) tmp8 = tmp6 * tmp7 tl.store(in_out_ptr0 + x3, tmp2, xmask) tl.store(in_out_ptr1 + x3, tmp6, xmask) tl.store(out_ptr0 + x3, tmp8, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4,), (1,)) assert_size_stride(primals_5, (4, 8, 4, 4), (128, 16, 4, 1)) assert_size_stride(primals_6, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 8, 4, 4), (128, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(512)](primals_1, primals_2, buf0, 512, XBLOCK=256, num_warps=4, num_stages=1) del primals_1 buf1 = extern_kernels.convolution(primals_2, primals_3, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 5, 5), (100, 25, 5, 1)) buf3 = extern_kernels.convolution(buf0, primals_5, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 4, 5, 5), (100, 25, 5, 1)) buf2 = buf1 del buf1 buf4 = buf3 del buf3 buf5 = empty_strided_cuda((4, 4, 5, 5), (100, 25, 5, 1), torch.float32) triton_poi_fused_convolution_mul_sigmoid_tanh_1[grid(400)](buf2, buf4, primals_4, primals_6, buf5, 400, XBLOCK=256, num_warps=4, num_stages=1) del primals_4 del primals_6 return buf5, buf4, primals_2, primals_3, primals_5, buf0, buf2, buf4 class SCS_CellNew(nn.Module): def __init__(self, input_size, input_dim, hidden_dim, kernel_size, bias, p_TD): super(SCS_CellNew, self).__init__() self.height, self.width = input_size self.input_dim = input_dim self.hidden_dim = hidden_dim self.kernel_size = kernel_size self.padding = kernel_size[0] // 2, kernel_size[1] // 2 self.bias = bias self.p_TD = p_TD self.data_cnn = nn.Conv2d(in_channels=self.input_dim, out_channels= self.hidden_dim, kernel_size=self.kernel_size, padding=self. padding, bias=self.bias) self.ctrl_cnn = nn.Conv2d(in_channels=self.input_dim + self. hidden_dim, out_channels=self.hidden_dim, kernel_size=self. kernel_size, padding=self.padding, bias=self.bias) def init_hidden(self, batch_size): return Variable(torch.zeros(batch_size, self.hidden_dim, self. height, self.width)) def forward(self, input_0, input_1): primals_1 = self.data_cnn.weight primals_4 = self.data_cnn.bias primals_5 = self.ctrl_cnn.weight primals_6 = self.ctrl_cnn.bias primals_2 = input_0 primals_3 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return output[0], output[1]	BoPang1996/Semi-Coupled-Structure-for-visual-sequental-tasks	SCS_Cell	false	7,805	[ "Apache-2.0" ]	13	c6fe7c77d08928bb30cc8683123f978b0e877394	https://github.com/BoPang1996/Semi-Coupled-Structure-for-visual-sequental-tasks/tree/c6fe7c77d08928bb30cc8683123f978b0e877394	import random import torch import torch.nn.init from torch import nn from torch.autograd import Variable import torch.utils.data class Model(nn.Module): def __init__(self, input_size, input_dim, hidden_dim, kernel_size, bias, p_TD): super().__init__() self.height, self.width = input_size self.input_dim = input_dim self.hidden_dim = hidden_dim self.kernel_size = kernel_size self.padding = kernel_size[0] // 2, kernel_size[1] // 2 self.bias = bias self.p_TD = p_TD self.data_cnn = nn.Conv2d(in_channels=self.input_dim, out_channels= self.hidden_dim, kernel_size=self.kernel_size, padding=self. padding, bias=self.bias) self.ctrl_cnn = nn.Conv2d(in_channels=self.input_dim + self. hidden_dim, out_channels=self.hidden_dim, kernel_size=self. kernel_size, padding=self.padding, bias=self.bias) def forward(self, input_tensor, cur_state): rate = random.random() c = cur_state data_x = input_tensor ctrl_x = input_tensor.detach() if rate < self.p_TD else input_tensor ctrl_in = torch.cat((c, ctrl_x), dim=1) data_out = torch.tanh(self.data_cnn(data_x)) ctrl_out = torch.sigmoid(self.ctrl_cnn(ctrl_in)) return ctrl_out * data_out, ctrl_out def init_hidden(self, batch_size): return Variable(torch.zeros(batch_size, self.hidden_dim, self. height, self.width)) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_size': [4, 4], 'input_dim': 4, 'hidden_dim': 4, 'kernel_size': [4, 4], 'bias': 4, 'p_TD': 4}]
RelativeL1	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/um/cumctucfzdumwyd4kcwjk33gst63fe3vnerfvpte7mvqck3grsiz.py # Topologically Sorted Source Nodes: [base, truediv, truediv_1, l1_loss], Original ATen: [aten.add, aten.div, aten.sub, aten.abs, aten.mean] # Source node to ATen node mapping: # base => add # l1_loss => abs_1, mean, sub # truediv => div # truediv_1 => div_1 # Graph fragment: # %add : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%arg0_1, 0.01), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%arg1_1, %add), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%arg0_1, %add), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%div, %div_1), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_1,), kwargs = {}) triton_per_fused_abs_add_div_mean_sub_0 = async_compile.triton('triton_per_fused_abs_add_div_mean_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_abs_add_div_mean_sub_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_abs_add_div_mean_sub_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp2 = 0.01 tmp3 = tmp1 + tmp2 tmp4 = tmp0 / tmp3 tmp5 = tmp1 / tmp3 tmp6 = tmp4 - tmp5 tmp7 = tl_math.abs(tmp6) tmp8 = tl.broadcast_to(tmp7, [RBLOCK]) tmp10 = triton_helpers.promote_to_tensor(tl.sum(tmp8, 0)) tmp11 = 256.0 tmp12 = tmp10 / tmp11 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp12, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [base, truediv, truediv_1, l1_loss], Original ATen: [aten.add, aten.div, aten.sub, aten.abs, aten.mean] stream0 = get_raw_stream(0) triton_per_fused_abs_add_div_mean_sub_0.run(buf1, arg1_1, arg0_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data from torch import nn import torch.jit class RelativeL1(nn.Module): def __init__(self): super().__init__() self.criterion = torch.nn.L1Loss() def forward(self, input, target): base = target + 0.01 return self.criterion(input / base, target / base) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.utils.data from torch import nn import torch.jit assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_abs_add_div_mean_sub_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp2 = 0.01 tmp3 = tmp1 + tmp2 tmp4 = tmp0 / tmp3 tmp5 = tmp1 / tmp3 tmp6 = tmp4 - tmp5 tmp7 = tl_math.abs(tmp6) tmp8 = tl.broadcast_to(tmp7, [RBLOCK]) tmp10 = triton_helpers.promote_to_tensor(tl.sum(tmp8, 0)) tmp11 = 256.0 tmp12 = tmp10 / tmp11 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp12, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_abs_add_div_mean_sub_0[grid(1)](buf1, arg1_1, arg0_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf1, class RelativeL1New(nn.Module): def __init__(self): super().__init__() self.criterion = torch.nn.L1Loss() def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	BlueAmulet/BasicSR	RelativeL1	false	7,806	[ "Apache-2.0" ]	12	7040913d8659a05af4c2428feb71c260efbf1e9c	https://github.com/BlueAmulet/BasicSR/tree/7040913d8659a05af4c2428feb71c260efbf1e9c	import torch import torch.utils.data from torch import nn import torch.jit class Model(nn.Module): def __init__(self): super().__init__() self.criterion = torch.nn.L1Loss() def forward(self, input, target): base = target + 0.01 return self.criterion(input / base, target / base) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
ScaledDotProductAttention	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/nz/cnzsokmlqxwx37f5dw7wqbn7z7nhtobiaphcevx4nrcsu33ma56z.py # Topologically Sorted Source Nodes: [truediv], Original ATen: [aten.div] # Source node to ATen node mapping: # truediv => div # Graph fragment: # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%arg0_1, 4), kwargs = {}) triton_poi_fused_div_0 = async_compile.triton('triton_poi_fused_div_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_div_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 0.25 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/om/com5a2jdtzsd2gxozlfy64n7thpakjehaajnnx7weffss4gxj2sy.py # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] # Source node to ATen node mapping: # softmax => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_2, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_2, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/5m/c5mma4y56ura3imiphserxkqyervoqe3bptp4i4swvp3yenvzn36.py # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] # Source node to ATen node mapping: # softmax => div_1, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) # %div_1 : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_2 = async_compile.triton('triton_poi_fused__softmax_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [truediv], Original ATen: [aten.div] stream0 = get_raw_stream(0) triton_poi_fused_div_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 buf1 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [attn], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(arg1_1, (16, 4, 4), (16, 1, 4), 0), out=buf1) del arg1_1 buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf1, buf2, 256, grid=grid(256), stream=stream0) buf3 = reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf2, buf3, 256, grid=grid(256), stream=stream0) buf4 = reinterpret_tensor(buf2, (16, 4, 4), (16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [output], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf3, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(arg2_1, (16, 4, 4), (16, 4, 1), 0), out=buf4) del arg2_1 return (reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0), buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg2_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1, arg2_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class ScaledDotProductAttention(nn.Module): """ Scaled Dot-Product Attention """ def __init__(self, temperature, attn_dropout=0.1): super().__init__() self.temperature = temperature self.dropout = nn.Dropout(attn_dropout) def forward(self, q, k, v, mask=None): attn = torch.matmul(q / self.temperature, k.transpose(2, 3)) if mask is not None: attn = attn.masked_fill(mask == 0, -1000000000.0) attn = self.dropout(F.softmax(attn, dim=-1)) output = torch.matmul(attn, v) return output, attn def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return [[], {'temperature': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_div_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 0.25 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_div_0[grid(256)](arg0_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 buf1 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf0, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(arg1_1, (16, 4, 4), (16, 1, 4), 0), out=buf1 ) del arg1_1 buf2 = buf0 del buf0 triton_poi_fused__softmax_1[grid(256)](buf1, buf2, 256, XBLOCK=256, num_warps=4, num_stages=1) buf3 = reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf1 triton_poi_fused__softmax_2[grid(256)](buf2, buf3, 256, XBLOCK=256, num_warps=4, num_stages=1) buf4 = reinterpret_tensor(buf2, (16, 4, 4), (16, 4, 1), 0) del buf2 extern_kernels.bmm(reinterpret_tensor(buf3, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(arg2_1, (16, 4, 4), (16, 4, 1), 0), out=buf4 ) del arg2_1 return reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0), buf3 class ScaledDotProductAttentionNew(nn.Module): """ Scaled Dot-Product Attention """ def __init__(self, temperature, attn_dropout=0.1): super().__init__() self.temperature = temperature self.dropout = nn.Dropout(attn_dropout) def forward(self, input_0, input_1, input_2): arg0_1 = input_0 arg1_1 = input_1 arg2_1 = input_2 output = call([arg0_1, arg1_1, arg2_1]) return output[0], output[1]	BlackNoodle/TUCORE-GCN	ScaledDotProductAttention	false	7,807	[ "MIT" ]	27	16fb37d81c5b1182a31fcf7da08a9c0013b20cd6	https://github.com/BlackNoodle/TUCORE-GCN/tree/16fb37d81c5b1182a31fcf7da08a9c0013b20cd6	import torch import torch.nn as nn import torch.nn.functional as F class Model(nn.Module): """ Scaled Dot-Product Attention """ def __init__(self, temperature, attn_dropout=0.1): super().__init__() self.temperature = temperature self.dropout = nn.Dropout(attn_dropout) def forward(self, q, k, v, mask=None): attn = torch.matmul(q / self.temperature, k.transpose(2, 3)) if mask is not None: attn = attn.masked_fill(mask == 0, -1000000000.0) attn = self.dropout(F.softmax(attn, dim=-1)) output = torch.matmul(attn, v) return output, attn def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return [4]
MultiHeadAttention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/5u/c5unrkijpnfl35aopgtsl5fkwxeu35c4ca3r5gcqfmuz7y5mmlr7.py # Topologically Sorted Source Nodes: [truediv, attn], Original ATen: [aten.div, aten.clone] # Source node to ATen node mapping: # attn => clone # truediv => div # Graph fragment: # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%permute_3, 2.0), kwargs = {}) # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_div_0 = async_compile.triton('triton_poi_fused_clone_div_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_div_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_div_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) % 4 x2 = (xindex // 16) % 4 x3 = (xindex // 64) x4 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4x2) + (16x1) + (64x3)), xmask) tmp1 = 0.5 tmp2 = tmp0 tmp1 tl.store(out_ptr0 + (x4), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ba/cbanjdalincnmde2hitei4pjt6tx6h22a24dhbavlznbqpwpvdny.py # Topologically Sorted Source Nodes: [attn], Original ATen: [aten.clone] # Source node to ATen node mapping: # attn => clone_1 # Graph fragment: # %clone_1 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand_1,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_1 = async_compile.triton('triton_poi_fused_clone_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64, 4], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 64 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 16 y1 = (yindex // 16) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (16x2) + (64y1)), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + (4y3)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/kz/ckzqylporms4fvgcrqg44ypprwpanp6hf222rji24wskr3b44aga.py # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] # Source node to ATen node mapping: # softmax => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_11, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_11, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_2 = async_compile.triton('triton_poi_fused__softmax_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/4d/c4dndrlfjcamjfnn3ng5agjc3ahefdgw6jcsnn6hm4ljwpbfbe7h.py # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] # Source node to ATen node mapping: # softmax => div_1, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) # %div_1 : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_3 = async_compile.triton('triton_poi_fused__softmax_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_3(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/dj/cdjffwvn2idikuml44jvdav3vzvow2i4vqtqbymwksc7y55376j6.py # Topologically Sorted Source Nodes: [output], Original ATen: [aten.clone] # Source node to ATen node mapping: # output => clone_3 # Graph fragment: # %clone_3 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand_3,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_4 = async_compile.triton('triton_poi_fused_clone_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_4(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) % 4 x2 = (xindex // 16) % 4 x3 = (xindex // 64) x4 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4x2) + (16x1) + (64x3)), xmask) tl.store(out_ptr0 + (x4), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/yv/cyvu7b655f7w4y6fs3cr3d3vawpnn3vmcirao3tw5zgpuuobc2mb.py # Topologically Sorted Source Nodes: [q_4, q_5], Original ATen: [aten.add, aten.native_layer_norm] # Source node to ATen node mapping: # q_4 => add # q_5 => var_mean # Graph fragment: # %add : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_17, %primals_1), kwargs = {}) # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%add, [2]), kwargs = {correction: 0, keepdim: True}) triton_poi_fused_add_native_layer_norm_5 = async_compile.triton('triton_poi_fused_add_native_layer_norm_5', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_native_layer_norm_5', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_native_layer_norm_5(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (4x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr1 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 + tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 + tmp12 tmp14 = tmp10 + tmp13 tmp15 = 4.0 tmp16 = tmp14 / tmp15 tmp17 = tmp2 - tmp16 tmp18 = tmp17 * tmp17 tmp19 = tmp5 - tmp16 tmp20 = tmp19 * tmp19 tmp21 = tmp18 + tmp20 tmp22 = tmp9 - tmp16 tmp23 = tmp22 * tmp22 tmp24 = tmp21 + tmp23 tmp25 = tmp13 - tmp16 tmp26 = tmp25 * tmp25 tmp27 = tmp24 + tmp26 tmp28 = tmp27 / tmp15 tl.store(out_ptr0 + (x0), tmp16, xmask) tl.store(out_ptr1 + (x0), tmp28, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/vp/cvpnytcd63elpxtqh76kplkl3jxfvamymh4ywoa4fjucpelvtsp2.py # Topologically Sorted Source Nodes: [q_4, q_5], Original ATen: [aten.add, aten.native_layer_norm] # Source node to ATen node mapping: # q_4 => add # q_5 => add_1, add_2, mul, mul_1, rsqrt, sub_1 # Graph fragment: # %add : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_17, %primals_1), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-06), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_1,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add, %getitem_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_1, %rsqrt), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, %primals_8), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %primals_9), kwargs = {}) triton_poi_fused_add_native_layer_norm_6 = async_compile.triton('triton_poi_fused_add_native_layer_norm_6', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_native_layer_norm_6', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_native_layer_norm_6(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x2), xmask) tmp3 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (x1), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr4 + (x0), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr5 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 - tmp3 tmp6 = 1e-06 tmp7 = tmp5 + tmp6 tmp8 = libdevice.rsqrt(tmp7) tmp9 = tmp4 * tmp8 tmp11 = tmp9 * tmp10 tmp13 = tmp11 + tmp12 tl.store(out_ptr0 + (x2), tmp13, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_4, (16, 4), (4, 1)) assert_size_stride(primals_5, (16, 4), (4, 1)) assert_size_stride(primals_6, (16, 4), (4, 1)) assert_size_stride(primals_7, (4, 16), (16, 1)) assert_size_stride(primals_8, (4, ), (1, )) assert_size_stride(primals_9, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 16), (1, 4), 0), out=buf0) del primals_4 buf1 = empty_strided_cuda((16, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_2, (16, 4), (4, 1), 0), reinterpret_tensor(primals_5, (4, 16), (1, 4), 0), out=buf1) del primals_5 buf2 = empty_strided_cuda((16, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_2], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 16), (1, 4), 0), out=buf2) del primals_6 buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [truediv, attn], Original ATen: [aten.div, aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_div_0.run(buf0, buf3, 256, grid=grid(256), stream=stream0) buf4 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [attn], Original ATen: [aten.clone] triton_poi_fused_clone_1.run(buf1, buf4, 64, 4, grid=grid(64, 4), stream=stream0) buf5 = reinterpret_tensor(buf1, (16, 4, 4), (16, 4, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [attn], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf3, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf4, (16, 4, 4), (16, 4, 1), 0), out=buf5) buf6 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf5, buf6, 256, grid=grid(256), stream=stream0) buf7 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf5 # reuse # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] triton_poi_fused__softmax_3.run(buf6, buf7, 256, grid=grid(256), stream=stream0) buf8 = buf6; del buf6 # reuse # Topologically Sorted Source Nodes: [output], Original ATen: [aten.clone] triton_poi_fused_clone_4.run(buf2, buf8, 256, grid=grid(256), stream=stream0) buf9 = reinterpret_tensor(buf2, (16, 4, 4), (16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [output], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf7, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf8, (16, 4, 4), (16, 4, 1), 0), out=buf9) buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [contiguous], Original ATen: [aten.clone] triton_poi_fused_clone_4.run(buf9, buf10, 256, grid=grid(256), stream=stream0) del buf9 buf11 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_3], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf10, (16, 16), (16, 1), 0), reinterpret_tensor(primals_7, (16, 4), (1, 16), 0), out=buf11) buf12 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) buf13 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) # Topologically Sorted Source Nodes: [q_4, q_5], Original ATen: [aten.add, aten.native_layer_norm] triton_poi_fused_add_native_layer_norm_5.run(buf11, primals_1, buf12, buf13, 16, grid=grid(16), stream=stream0) buf14 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [q_4, q_5], Original ATen: [aten.add, aten.native_layer_norm] triton_poi_fused_add_native_layer_norm_6.run(buf11, primals_1, buf12, buf13, primals_8, primals_9, buf14, 64, grid=grid(64), stream=stream0) del buf12 del buf13 del primals_9 return (buf14, buf7, primals_1, primals_8, reinterpret_tensor(primals_2, (16, 4), (4, 1), 0), reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), buf7, reinterpret_tensor(buf10, (16, 16), (16, 1), 0), buf11, primals_7, reinterpret_tensor(buf8, (16, 4, 4), (16, 1, 4), 0), reinterpret_tensor(buf3, (16, 4, 4), (16, 1, 4), 0), reinterpret_tensor(buf4, (16, 4, 4), (16, 1, 4), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((16, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((16, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((16, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, 16), (16, 1), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class ScaledDotProductAttention(nn.Module): """ Scaled Dot-Product Attention """ def __init__(self, temperature, attn_dropout=0.1): super().__init__() self.temperature = temperature self.dropout = nn.Dropout(attn_dropout) def forward(self, q, k, v, mask=None): attn = torch.matmul(q / self.temperature, k.transpose(2, 3)) if mask is not None: attn = attn.masked_fill(mask == 0, -1000000000.0) attn = self.dropout(F.softmax(attn, dim=-1)) output = torch.matmul(attn, v) return output, attn class MultiHeadAttention(nn.Module): """ Multi-Head Attention module """ def __init__(self, n_head, d_model, d_k, d_v, dropout=0.1): super().__init__() self.n_head = n_head self.d_k = d_k self.d_v = d_v self.w_qs = nn.Linear(d_model, n_head * d_k, bias=False) self.w_ks = nn.Linear(d_model, n_head * d_k, bias=False) self.w_vs = nn.Linear(d_model, n_head * d_v, bias=False) self.fc = nn.Linear(n_head * d_v, d_model, bias=False) self.attention = ScaledDotProductAttention(temperature=d_k ** 0.5) self.dropout = nn.Dropout(dropout) self.layer_norm = nn.LayerNorm(d_model, eps=1e-06) def forward(self, q, k, v, mask=None): d_k, d_v, n_head = self.d_k, self.d_v, self.n_head sz_b, len_q, len_k, len_v = q.size(0), q.size(1), k.size(1), v.size(1) residual = q q = self.w_qs(q).view(sz_b, len_q, n_head, d_k) k = self.w_ks(k).view(sz_b, len_k, n_head, d_k) v = self.w_vs(v).view(sz_b, len_v, n_head, d_v) q, k, v = q.transpose(1, 2), k.transpose(1, 2), v.transpose(1, 2) if mask is not None: mask = mask.unsqueeze(1) q, attn = self.attention(q, k, v, mask=mask) q = q.transpose(1, 2).contiguous().view(sz_b, len_q, -1) q = self.dropout(self.fc(q)) q += residual q = self.layer_norm(q) return q, attn def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4]) ] def get_init_inputs(): return [[], {'n_head': 4, 'd_model': 4, 'd_k': 4, 'd_v': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.nn as nn import torch.nn.functional as F assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_clone_div_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 % 4 x3 = xindex // 64 x4 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * x2 + 16 * x1 + 64 * x3), xmask) tmp1 = 0.5 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x4, tmp2, xmask) @triton.jit def triton_poi_fused_clone_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 64 xnumel = 4 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex y0 = yindex % 16 y1 = yindex // 16 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 16 * x2 + 64 * y1), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + 4 * y3), tmp0, xmask & ymask) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_3(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_poi_fused_clone_4(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 % 4 x3 = xindex // 64 x4 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * x2 + 16 * x1 + 64 * x3), xmask) tl.store(out_ptr0 + x4, tmp0, xmask) @triton.jit def triton_poi_fused_add_native_layer_norm_5(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + 4 * x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp12 = tl.load(in_ptr1 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tmp2 + tmp5 tmp9 = tmp7 + tmp8 tmp10 = tmp6 + tmp9 tmp13 = tmp11 + tmp12 tmp14 = tmp10 + tmp13 tmp15 = 4.0 tmp16 = tmp14 / tmp15 tmp17 = tmp2 - tmp16 tmp18 = tmp17 * tmp17 tmp19 = tmp5 - tmp16 tmp20 = tmp19 * tmp19 tmp21 = tmp18 + tmp20 tmp22 = tmp9 - tmp16 tmp23 = tmp22 * tmp22 tmp24 = tmp21 + tmp23 tmp25 = tmp13 - tmp16 tmp26 = tmp25 * tmp25 tmp27 = tmp24 + tmp26 tmp28 = tmp27 / tmp15 tl.store(out_ptr0 + x0, tmp16, xmask) tl.store(out_ptr1 + x0, tmp28, xmask) @triton.jit def triton_poi_fused_add_native_layer_norm_6(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x2, xmask) tmp3 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + x1, xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr4 + x0, xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr5 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 - tmp3 tmp6 = 1e-06 tmp7 = tmp5 + tmp6 tmp8 = libdevice.rsqrt(tmp7) tmp9 = tmp4 * tmp8 tmp11 = tmp9 * tmp10 tmp13 = tmp11 + tmp12 tl.store(out_ptr0 + x2, tmp13, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9) = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_4, (16, 4), (4, 1)) assert_size_stride(primals_5, (16, 4), (4, 1)) assert_size_stride(primals_6, (16, 4), (4, 1)) assert_size_stride(primals_7, (4, 16), (16, 1)) assert_size_stride(primals_8, (4,), (1,)) assert_size_stride(primals_9, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 16), (16, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 16), (1, 4), 0), out=buf0) del primals_4 buf1 = empty_strided_cuda((16, 16), (16, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_2, (16, 4), (4, 1), 0), reinterpret_tensor(primals_5, (4, 16), (1, 4), 0), out=buf1) del primals_5 buf2 = empty_strided_cuda((16, 16), (16, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 16), (1, 4), 0), out=buf2) del primals_6 buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clone_div_0[grid(256)](buf0, buf3, 256, XBLOCK=256, num_warps=4, num_stages=1) buf4 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 triton_poi_fused_clone_1[grid(64, 4)](buf1, buf4, 64, 4, XBLOCK=4, YBLOCK=32, num_warps=4, num_stages=1) buf5 = reinterpret_tensor(buf1, (16, 4, 4), (16, 4, 1), 0) del buf1 extern_kernels.bmm(reinterpret_tensor(buf3, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf4, (16, 4, 4), (16, 4, 1), 0), out=buf5) buf6 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused__softmax_2[grid(256)](buf5, buf6, 256, XBLOCK=128, num_warps=4, num_stages=1) buf7 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf5 triton_poi_fused__softmax_3[grid(256)](buf6, buf7, 256, XBLOCK=256, num_warps=4, num_stages=1) buf8 = buf6 del buf6 triton_poi_fused_clone_4[grid(256)](buf2, buf8, 256, XBLOCK=128, num_warps=4, num_stages=1) buf9 = reinterpret_tensor(buf2, (16, 4, 4), (16, 4, 1), 0) del buf2 extern_kernels.bmm(reinterpret_tensor(buf7, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf8, (16, 4, 4), (16, 4, 1), 0), out=buf9) buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_clone_4[grid(256)](buf9, buf10, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf9 buf11 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf10, (16, 16), (16, 1), 0), reinterpret_tensor(primals_7, (16, 4), (1, 16), 0), out=buf11) buf12 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) buf13 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) triton_poi_fused_add_native_layer_norm_5[grid(16)](buf11, primals_1, buf12, buf13, 16, XBLOCK=16, num_warps=1, num_stages=1) buf14 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_add_native_layer_norm_6[grid(64)](buf11, primals_1, buf12, buf13, primals_8, primals_9, buf14, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf12 del buf13 del primals_9 return buf14, buf7, primals_1, primals_8, reinterpret_tensor(primals_2, (16, 4), (4, 1), 0), reinterpret_tensor(primals_3, (16, 4), (4, 1), 0 ), buf7, reinterpret_tensor(buf10, (16, 16), (16, 1), 0 ), buf11, primals_7, reinterpret_tensor(buf8, (16, 4, 4), (16, 1, 4), 0 ), reinterpret_tensor(buf3, (16, 4, 4), (16, 1, 4), 0 ), reinterpret_tensor(buf4, (16, 4, 4), (16, 1, 4), 0) class ScaledDotProductAttention(nn.Module): """ Scaled Dot-Product Attention """ def __init__(self, temperature, attn_dropout=0.1): super().__init__() self.temperature = temperature self.dropout = nn.Dropout(attn_dropout) def forward(self, q, k, v, mask=None): attn = torch.matmul(q / self.temperature, k.transpose(2, 3)) if mask is not None: attn = attn.masked_fill(mask == 0, -1000000000.0) attn = self.dropout(F.softmax(attn, dim=-1)) output = torch.matmul(attn, v) return output, attn class MultiHeadAttentionNew(nn.Module): """ Multi-Head Attention module """ def __init__(self, n_head, d_model, d_k, d_v, dropout=0.1): super().__init__() self.n_head = n_head self.d_k = d_k self.d_v = d_v self.w_qs = nn.Linear(d_model, n_head * d_k, bias=False) self.w_ks = nn.Linear(d_model, n_head * d_k, bias=False) self.w_vs = nn.Linear(d_model, n_head * d_v, bias=False) self.fc = nn.Linear(n_head * d_v, d_model, bias=False) self.attention = ScaledDotProductAttention(temperature=d_k ** 0.5) self.dropout = nn.Dropout(dropout) self.layer_norm = nn.LayerNorm(d_model, eps=1e-06) def forward(self, input_0, input_1, input_2): primals_4 = self.w_qs.weight primals_5 = self.w_ks.weight primals_6 = self.w_vs.weight primals_7 = self.fc.weight primals_8 = self.layer_norm.weight primals_9 = self.layer_norm.bias primals_1 = input_0 primals_2 = input_1 primals_3 = input_2 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9]) return output[0], output[1]	BlackNoodle/TUCORE-GCN	MultiHeadAttention	false	7,808	[ "MIT" ]	27	16fb37d81c5b1182a31fcf7da08a9c0013b20cd6	https://github.com/BlackNoodle/TUCORE-GCN/tree/16fb37d81c5b1182a31fcf7da08a9c0013b20cd6	import torch import torch.nn as nn import torch.nn.functional as F class ScaledDotProductAttention(nn.Module): """ Scaled Dot-Product Attention """ def __init__(self, temperature, attn_dropout=0.1): super().__init__() self.temperature = temperature self.dropout = nn.Dropout(attn_dropout) def forward(self, q, k, v, mask=None): attn = torch.matmul(q / self.temperature, k.transpose(2, 3)) if mask is not None: attn = attn.masked_fill(mask == 0, -1000000000.0) attn = self.dropout(F.softmax(attn, dim=-1)) output = torch.matmul(attn, v) return output, attn class Model(nn.Module): """ Multi-Head Attention module """ def __init__(self, n_head, d_model, d_k, d_v, dropout=0.1): super().__init__() self.n_head = n_head self.d_k = d_k self.d_v = d_v self.w_qs = nn.Linear(d_model, n_head * d_k, bias=False) self.w_ks = nn.Linear(d_model, n_head * d_k, bias=False) self.w_vs = nn.Linear(d_model, n_head * d_v, bias=False) self.fc = nn.Linear(n_head * d_v, d_model, bias=False) self.attention = ScaledDotProductAttention(temperature=d_k ** 0.5) self.dropout = nn.Dropout(dropout) self.layer_norm = nn.LayerNorm(d_model, eps=1e-06) def forward(self, q, k, v, mask=None): d_k, d_v, n_head = self.d_k, self.d_v, self.n_head sz_b, len_q, len_k, len_v = q.size(0), q.size(1), k.size(1), v.size(1) residual = q q = self.w_qs(q).view(sz_b, len_q, n_head, d_k) k = self.w_ks(k).view(sz_b, len_k, n_head, d_k) v = self.w_vs(v).view(sz_b, len_v, n_head, d_v) q, k, v = q.transpose(1, 2), k.transpose(1, 2), v.transpose(1, 2) if mask is not None: mask = mask.unsqueeze(1) q, attn = self.attention(q, k, v, mask=mask) q = q.transpose(1, 2).contiguous().view(sz_b, len_q, -1) q = self.dropout(self.fc(q)) q += residual q = self.layer_norm(q) return q, attn def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4]) ] def get_init_inputs(): return [4, 4, 4, 4]
Classifier	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/su/csu2rezngr34vxqpmhl62i4ntqxj64t76eyffwnf3hjvoxxnqjnn.py # Topologically Sorted Source Nodes: [sigmoid, sent_scores], Original ATen: [aten.sigmoid, aten.mul] # Source node to ATen node mapping: # sent_scores => mul # sigmoid => sigmoid # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%squeeze,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %primals_4), kwargs = {}) triton_poi_fused_mul_sigmoid_0 = async_compile.triton('triton_poi_fused_mul_sigmoid_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_sigmoid_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_sigmoid_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 64 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr1 + (x2), xmask) tmp1 = tl.sigmoid(tmp0) tmp3 = tmp1 * tmp2 tl.store(out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (1, 4), (4, 1)) assert_size_stride(primals_2, (1, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf1 = empty_strided_cuda((64, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.addmm] extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 1), (1, 4), 0), alpha=1, beta=1, out=buf1) del primals_1 del primals_2 buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sigmoid, sent_scores], Original ATen: [aten.sigmoid, aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_sigmoid_0.run(buf1, primals_4, buf2, 256, grid=grid(256), stream=stream0) return (buf2, primals_4, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((1, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.distributed import torch import torch.nn as nn class Classifier(nn.Module): def __init__(self, hidden_size): super(Classifier, self).__init__() self.linear1 = nn.Linear(hidden_size, 1) self.sigmoid = nn.Sigmoid() def forward(self, x, mask_cls): h = self.linear1(x).squeeze(-1) sent_scores = self.sigmoid(h) * mask_cls.float() return sent_scores def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'hidden_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.distributed import torch import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_mul_sigmoid_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 64 x2 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr1 + x2, xmask) tmp1 = tl.sigmoid(tmp0) tmp3 = tmp1 * tmp2 tl.store(out_ptr0 + x2, tmp3, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (1, 4), (4, 1)) assert_size_stride(primals_2, (1,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf1 = empty_strided_cuda((64, 1), (1, 1), torch.float32) extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 1), (1, 4), 0 ), alpha=1, beta=1, out=buf1) del primals_1 del primals_2 buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_sigmoid_0[grid(256)](buf1, primals_4, buf2, 256, XBLOCK=256, num_warps=4, num_stages=1) return buf2, primals_4, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), buf1 class ClassifierNew(nn.Module): def __init__(self, hidden_size): super(ClassifierNew, self).__init__() self.linear1 = nn.Linear(hidden_size, 1) self.sigmoid = nn.Sigmoid() def forward(self, input_0, input_1): primals_1 = self.linear1.weight primals_2 = self.linear1.bias primals_3 = input_0 primals_4 = input_1 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	BoonthichaSaejia/ThaiSum	Classifier	false	7,809	[ "Apache-2.0" ]	23	fdb99eab23e60a933acf4e84836f53ddf05b7c8b	https://github.com/BoonthichaSaejia/ThaiSum/tree/fdb99eab23e60a933acf4e84836f53ddf05b7c8b	import torch import torch.distributed import torch import torch.nn as nn class Model(nn.Module): def __init__(self, hidden_size): super().__init__() self.linear1 = nn.Linear(hidden_size, 1) self.sigmoid = nn.Sigmoid() def forward(self, x, mask_cls): h = self.linear1(x).squeeze(-1) sent_scores = self.sigmoid(h) * mask_cls.float() return sent_scores def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4]
Get_gradient_nopadding	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/2h/c2hopqupej6ktjle3cdrj7sx23d3eq7hpbrjoeiujn66vckjkhev.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.cat] # Source node to ATen node mapping: # x => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%sqrt, %sqrt_1, %sqrt_2, %sqrt_3], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'fp32', 8: 'fp32', 9: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7, 8, 9), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 16) % 4 x0 = xindex % 16 x2 = (xindex // 64) x3 = xindex tmp0 = x1 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x0 + (16x2)), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp5 tmp5 tmp7 = tl.load(in_ptr1 + (x0 + (16x2)), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp8 = tmp7 tmp7 tmp9 = tmp6 + tmp8 tmp10 = 1e-06 tmp11 = tmp9 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = tl.full(tmp12.shape, 0.0, tmp12.dtype) tmp14 = tl.where(tmp4, tmp12, tmp13) tmp15 = tmp0 >= tmp3 tmp16 = tl.full([1], 2, tl.int64) tmp17 = tmp0 < tmp16 tmp18 = tmp15 & tmp17 tmp19 = tl.load(in_ptr2 + (x0 + (16x2)), tmp18 & xmask, eviction_policy='evict_last', other=0.0) tmp20 = tmp19 tmp19 tmp21 = tl.load(in_ptr3 + (x0 + (16x2)), tmp18 & xmask, eviction_policy='evict_last', other=0.0) tmp22 = tmp21 tmp21 tmp23 = tmp20 + tmp22 tmp24 = tmp23 + tmp10 tmp25 = libdevice.sqrt(tmp24) tmp26 = tl.full(tmp25.shape, 0.0, tmp25.dtype) tmp27 = tl.where(tmp18, tmp25, tmp26) tmp28 = tmp0 >= tmp16 tmp29 = tl.full([1], 3, tl.int64) tmp30 = tmp0 < tmp29 tmp31 = tmp28 & tmp30 tmp32 = tl.load(in_ptr4 + (x0 + (16x2)), tmp31 & xmask, eviction_policy='evict_last', other=0.0) tmp33 = tmp32 tmp32 tmp34 = tl.load(in_ptr5 + (x0 + (16x2)), tmp31 & xmask, eviction_policy='evict_last', other=0.0) tmp35 = tmp34 tmp34 tmp36 = tmp33 + tmp35 tmp37 = tmp36 + tmp10 tmp38 = libdevice.sqrt(tmp37) tmp39 = tl.full(tmp38.shape, 0.0, tmp38.dtype) tmp40 = tl.where(tmp31, tmp38, tmp39) tmp41 = tmp0 >= tmp29 tmp42 = tl.full([1], 4, tl.int64) tmp43 = tmp0 < tmp42 tmp44 = tl.load(in_ptr6 + (x0 + (16x2)), tmp41 & xmask, eviction_policy='evict_last', other=0.0) tmp45 = tmp44 tmp44 tmp46 = tl.load(in_ptr7 + (x0 + (16x2)), tmp41 & xmask, eviction_policy='evict_last', other=0.0) tmp47 = tmp46 tmp46 tmp48 = tmp45 + tmp47 tmp49 = tmp48 + tmp10 tmp50 = libdevice.sqrt(tmp49) tmp51 = tl.full(tmp50.shape, 0.0, tmp50.dtype) tmp52 = tl.where(tmp41, tmp50, tmp51) tmp53 = tl.where(tmp31, tmp40, tmp52) tmp54 = tl.where(tmp18, tmp27, tmp53) tmp55 = tl.where(tmp4, tmp14, tmp54) tl.store(out_ptr0 + (x3), tmp55, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (1, 1, 3, 3), (9, 9, 3, 1)) assert_size_stride(arg2_1, (1, 1, 3, 3), (9, 9, 3, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [x_i_v], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 0), arg1_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 1, 4, 4), (16, 16, 4, 1)) # Topologically Sorted Source Nodes: [x_i_h], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 0), arg2_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 1, 4, 4), (16, 16, 4, 1)) # Topologically Sorted Source Nodes: [x_i_v_1], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 16), arg1_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 1, 4, 4), (16, 16, 4, 1)) # Topologically Sorted Source Nodes: [x_i_h_1], Original ATen: [aten.convolution] buf3 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 16), arg2_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 1, 4, 4), (16, 16, 4, 1)) # Topologically Sorted Source Nodes: [x_i_v_2], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 32), arg1_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 1, 4, 4), (16, 16, 4, 1)) # Topologically Sorted Source Nodes: [x_i_h_2], Original ATen: [aten.convolution] buf5 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 32), arg2_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 1, 4, 4), (16, 16, 4, 1)) # Topologically Sorted Source Nodes: [x_i_v_3], Original ATen: [aten.convolution] buf6 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 48), arg1_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 1, 4, 4), (16, 16, 4, 1)) del arg1_1 # Topologically Sorted Source Nodes: [x_i_h_3], Original ATen: [aten.convolution] buf7 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 48), arg2_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf7, (4, 1, 4, 4), (16, 16, 4, 1)) del arg0_1 del arg2_1 buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(buf0, buf1, buf2, buf3, buf4, buf5, buf6, buf7, buf8, 256, grid=grid(256), stream=stream0) del buf0 del buf1 del buf2 del buf3 del buf4 del buf5 del buf6 del buf7 return (buf8, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((1, 1, 3, 3), (9, 9, 3, 1), device='cuda:0', dtype=torch.float32) arg2_1 = rand_strided((1, 1, 3, 3), (9, 9, 3, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1, arg2_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data from torch import nn import torch.nn.functional as F import torch.jit class Get_gradient_nopadding(nn.Module): def __init__(self): super(Get_gradient_nopadding, self).__init__() kernel_v = [[0, -1, 0], [0, 0, 0], [0, 1, 0]] kernel_h = [[0, 0, 0], [-1, 0, 1], [0, 0, 0]] kernel_h = torch.FloatTensor(kernel_h).unsqueeze(0).unsqueeze(0) kernel_v = torch.FloatTensor(kernel_v).unsqueeze(0).unsqueeze(0) self.weight_h = nn.Parameter(data=kernel_h, requires_grad=False) self.weight_v = nn.Parameter(data=kernel_v, requires_grad=False) def forward(self, x): x_list = [] for i in range(x.shape[1]): x_i = x[:, i] x_i_v = F.conv2d(x_i.unsqueeze(1), self.weight_v, padding=1) x_i_h = F.conv2d(x_i.unsqueeze(1), self.weight_h, padding=1) x_i = torch.sqrt(torch.pow(x_i_v, 2) + torch.pow(x_i_h, 2) + 1e-06) x_list.append(x_i) x = torch.cat(x_list, dim=1) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.utils.data from torch import nn import torch.jit assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 16 % 4 x0 = xindex % 16 x2 = xindex // 64 x3 = xindex tmp0 = x1 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x0 + 16 * x2), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp5 * tmp5 tmp7 = tl.load(in_ptr1 + (x0 + 16 * x2), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp8 = tmp7 * tmp7 tmp9 = tmp6 + tmp8 tmp10 = 1e-06 tmp11 = tmp9 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = tl.full(tmp12.shape, 0.0, tmp12.dtype) tmp14 = tl.where(tmp4, tmp12, tmp13) tmp15 = tmp0 >= tmp3 tmp16 = tl.full([1], 2, tl.int64) tmp17 = tmp0 < tmp16 tmp18 = tmp15 & tmp17 tmp19 = tl.load(in_ptr2 + (x0 + 16 * x2), tmp18 & xmask, eviction_policy='evict_last', other=0.0) tmp20 = tmp19 * tmp19 tmp21 = tl.load(in_ptr3 + (x0 + 16 * x2), tmp18 & xmask, eviction_policy='evict_last', other=0.0) tmp22 = tmp21 * tmp21 tmp23 = tmp20 + tmp22 tmp24 = tmp23 + tmp10 tmp25 = libdevice.sqrt(tmp24) tmp26 = tl.full(tmp25.shape, 0.0, tmp25.dtype) tmp27 = tl.where(tmp18, tmp25, tmp26) tmp28 = tmp0 >= tmp16 tmp29 = tl.full([1], 3, tl.int64) tmp30 = tmp0 < tmp29 tmp31 = tmp28 & tmp30 tmp32 = tl.load(in_ptr4 + (x0 + 16 * x2), tmp31 & xmask, eviction_policy='evict_last', other=0.0) tmp33 = tmp32 * tmp32 tmp34 = tl.load(in_ptr5 + (x0 + 16 * x2), tmp31 & xmask, eviction_policy='evict_last', other=0.0) tmp35 = tmp34 * tmp34 tmp36 = tmp33 + tmp35 tmp37 = tmp36 + tmp10 tmp38 = libdevice.sqrt(tmp37) tmp39 = tl.full(tmp38.shape, 0.0, tmp38.dtype) tmp40 = tl.where(tmp31, tmp38, tmp39) tmp41 = tmp0 >= tmp29 tl.full([1], 4, tl.int64) tmp44 = tl.load(in_ptr6 + (x0 + 16 * x2), tmp41 & xmask, eviction_policy='evict_last', other=0.0) tmp45 = tmp44 * tmp44 tmp46 = tl.load(in_ptr7 + (x0 + 16 * x2), tmp41 & xmask, eviction_policy='evict_last', other=0.0) tmp47 = tmp46 * tmp46 tmp48 = tmp45 + tmp47 tmp49 = tmp48 + tmp10 tmp50 = libdevice.sqrt(tmp49) tmp51 = tl.full(tmp50.shape, 0.0, tmp50.dtype) tmp52 = tl.where(tmp41, tmp50, tmp51) tmp53 = tl.where(tmp31, tmp40, tmp52) tmp54 = tl.where(tmp18, tmp27, tmp53) tmp55 = tl.where(tmp4, tmp14, tmp54) tl.store(out_ptr0 + x3, tmp55, xmask) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (1, 1, 3, 3), (9, 9, 3, 1)) assert_size_stride(arg2_1, (1, 1, 3, 3), (9, 9, 3, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 0), arg1_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 1, 4, 4), (16, 16, 4, 1)) buf1 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 0), arg2_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 1, 4, 4), (16, 16, 4, 1)) buf2 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 16), arg1_1, stride=(1, 1), padding=(1, 1 ), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 1, 4, 4), (16, 16, 4, 1)) buf3 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 16), arg2_1, stride=(1, 1), padding=(1, 1 ), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 1, 4, 4), (16, 16, 4, 1)) buf4 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 32), arg1_1, stride=(1, 1), padding=(1, 1 ), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 1, 4, 4), (16, 16, 4, 1)) buf5 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 32), arg2_1, stride=(1, 1), padding=(1, 1 ), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 1, 4, 4), (16, 16, 4, 1)) buf6 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 48), arg1_1, stride=(1, 1), padding=(1, 1 ), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 1, 4, 4), (16, 16, 4, 1)) del arg1_1 buf7 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 48), arg2_1, stride=(1, 1), padding=(1, 1 ), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf7, (4, 1, 4, 4), (16, 16, 4, 1)) del arg0_1 del arg2_1 buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(256)](buf0, buf1, buf2, buf3, buf4, buf5, buf6, buf7, buf8, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf0 del buf1 del buf2 del buf3 del buf4 del buf5 del buf6 del buf7 return buf8, class Get_gradient_nopaddingNew(nn.Module): def __init__(self): super(Get_gradient_nopaddingNew, self).__init__() kernel_v = [[0, -1, 0], [0, 0, 0], [0, 1, 0]] kernel_h = [[0, 0, 0], [-1, 0, 1], [0, 0, 0]] kernel_h = torch.FloatTensor(kernel_h).unsqueeze(0).unsqueeze(0) kernel_v = torch.FloatTensor(kernel_v).unsqueeze(0).unsqueeze(0) self.weight_h = nn.Parameter(data=kernel_h, requires_grad=False) self.weight_v = nn.Parameter(data=kernel_v, requires_grad=False) def forward(self, input_0): arg1_1 = self.weight_h arg2_1 = self.weight_v arg0_1 = input_0 output = call([arg0_1, arg1_1, arg2_1]) return output[0]	BlueAmulet/BasicSR	Get_gradient_nopadding	false	7,811	[ "Apache-2.0" ]	12	7040913d8659a05af4c2428feb71c260efbf1e9c	https://github.com/BlueAmulet/BasicSR/tree/7040913d8659a05af4c2428feb71c260efbf1e9c	import torch import torch.utils.data from torch import nn import torch.nn.functional as F import torch.jit class Model(nn.Module): def __init__(self): super().__init__() kernel_v = [[0, -1, 0], [0, 0, 0], [0, 1, 0]] kernel_h = [[0, 0, 0], [-1, 0, 1], [0, 0, 0]] kernel_h = torch.FloatTensor(kernel_h).unsqueeze(0).unsqueeze(0) kernel_v = torch.FloatTensor(kernel_v).unsqueeze(0).unsqueeze(0) self.weight_h = nn.Parameter(data=kernel_h, requires_grad=False) self.weight_v = nn.Parameter(data=kernel_v, requires_grad=False) def forward(self, x): x_list = [] for i in range(x.shape[1]): x_i = x[:, i] x_i_v = F.conv2d(x_i.unsqueeze(1), self.weight_v, padding=1) x_i_h = F.conv2d(x_i.unsqueeze(1), self.weight_h, padding=1) x_i = torch.sqrt(torch.pow(x_i_v, 2) + torch.pow(x_i_h, 2) + 1e-06) x_list.append(x_i) x = torch.cat(x_list, dim=1) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
Quantinizer	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/fn/cfnx3ny2adavtm2yi37ii3xh7iowdbl7wnl6xveapdd6xnrmrqnm.py # Topologically Sorted Source Nodes: [one_hot, float_1], Original ATen: [aten.arange, aten.eq, aten._to_copy] # Source node to ATen node mapping: # float_1 => convert_element_type_2 # one_hot => convert_element_type_1, eq, iota # Graph fragment: # %iota : [num_users=1] = call_function[target=torch.ops.prims.iota.default](args = (4,), kwargs = {start: 0, step: 1, dtype: torch.int64, device: cuda:0, requires_grad: False}) # %eq : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%unsqueeze, %iota), kwargs = {}) # %convert_element_type_1 : [num_users=1] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%eq, torch.int64), kwargs = {}) # %convert_element_type_2 : [num_users=1] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%convert_element_type_1, torch.float32), kwargs = {}) triton_poi_fused__to_copy_arange_eq_0 = async_compile.triton('triton_poi_fused__to_copy_arange_eq_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__to_copy_arange_eq_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__to_copy_arange_eq_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 4) x0 = xindex % 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp1 = 4.0 tmp2 = tmp0 * tmp1 tmp3 = 0.999 tmp4 = tmp2 * tmp3 tmp5 = tmp4.to(tl.int64) tmp6 = x0 tmp7 = tmp5 == tmp6 tmp8 = tmp7.to(tl.int64) tmp9 = tmp8.to(tl.float32) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [one_hot, float_1], Original ATen: [aten.arange, aten.eq, aten._to_copy] stream0 = get_raw_stream(0) triton_poi_fused__to_copy_arange_eq_0.run(arg0_1, buf0, 1024, grid=grid(1024), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch class Quantinizer(torch.nn.Module): def __init__(self, size): super(Quantinizer, self).__init__() self.size = size def forward(self, x): x = (x * self.size * 0.999).long() return torch.nn.functional.one_hot(x, num_classes=self.size).float() def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'size': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused__to_copy_arange_eq_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 4 x0 = xindex % 4 x2 = xindex tmp0 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp1 = 4.0 tmp2 = tmp0 * tmp1 tmp3 = 0.999 tmp4 = tmp2 * tmp3 tmp5 = tmp4.to(tl.int64) tmp6 = x0 tmp7 = tmp5 == tmp6 tmp8 = tmp7.to(tl.int64) tmp9 = tmp8.to(tl.float32) tl.store(out_ptr0 + x2, tmp9, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused__to_copy_arange_eq_0[grid(1024)](arg0_1, buf0, 1024, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, class QuantinizerNew(torch.nn.Module): def __init__(self, size): super(QuantinizerNew, self).__init__() self.size = size def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	CODEJIN/SPEECHSPLIT	Quantinizer	false	7,812	[ "MIT" ]	13	b4201ca9822b2e73f98f60c160c00db3b49a0050	https://github.com/CODEJIN/SPEECHSPLIT/tree/b4201ca9822b2e73f98f60c160c00db3b49a0050	import torch class Model(torch.nn.Module): def __init__(self, size): super().__init__() self.size = size def forward(self, x): x = (x * self.size * 0.999).long() return torch.nn.functional.one_hot(x, num_classes=self.size).float() def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4]
CharbonnierLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/yz/cyzhi3bfyi46hlseeutjdzfahefdhxwk4jnn7zf2ee6ras66l5we.py # Topologically Sorted Source Nodes: [diff, mul, add, sqrt, loss, truediv], Original ATen: [aten.sub, aten.mul, aten.add, aten.sqrt, aten.sum, aten.div] # Source node to ATen node mapping: # add => add # diff => sub # loss => sum_1 # mul => mul # sqrt => sqrt # truediv => div # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg1_1, %arg0_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %sub), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, 1e-06), kwargs = {}) # %sqrt : [num_users=1] = call_function[target=torch.ops.aten.sqrt.default](args = (%add,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%sqrt,), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sum_1, 256), kwargs = {}) triton_per_fused_add_div_mul_sqrt_sub_sum_0 = async_compile.triton('triton_per_fused_add_div_mul_sqrt_sub_sum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_div_mul_sqrt_sub_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_div_mul_sqrt_sub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp4 = 1e-06 tmp5 = tmp3 + tmp4 tmp6 = libdevice.sqrt(tmp5) tmp7 = tl.broadcast_to(tmp6, [RBLOCK]) tmp9 = triton_helpers.promote_to_tensor(tl.sum(tmp7, 0)) tmp10 = 0.00390625 tmp11 = tmp9 * tmp10 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp11, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [diff, mul, add, sqrt, loss, truediv], Original ATen: [aten.sub, aten.mul, aten.add, aten.sqrt, aten.sum, aten.div] stream0 = get_raw_stream(0) triton_per_fused_add_div_mul_sqrt_sub_sum_0.run(buf1, arg1_1, arg0_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data from torch import nn import torch.jit class CharbonnierLoss(nn.Module): """Charbonnier Loss (L1)""" def __init__(self, eps=1e-06): super(CharbonnierLoss, self).__init__() self.eps = eps def forward(self, x, y): b, c, h, w = y.size() diff = x - y loss = torch.sum(torch.sqrt(diff * diff + self.eps)) return loss / (c * b * h * w) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice import torch.utils.data from torch import nn import torch.jit assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_add_div_mul_sqrt_sub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp4 = 1e-06 tmp5 = tmp3 + tmp4 tmp6 = libdevice.sqrt(tmp5) tmp7 = tl.broadcast_to(tmp6, [RBLOCK]) tmp9 = triton_helpers.promote_to_tensor(tl.sum(tmp7, 0)) tmp10 = 0.00390625 tmp11 = tmp9 * tmp10 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp11, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_div_mul_sqrt_sub_sum_0[grid(1)](buf1, arg1_1, arg0_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf1, class CharbonnierLossNew(nn.Module): """Charbonnier Loss (L1)""" def __init__(self, eps=1e-06): super(CharbonnierLossNew, self).__init__() self.eps = eps def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	BlueAmulet/BasicSR	CharbonnierLoss	false	7,813	[ "Apache-2.0" ]	12	7040913d8659a05af4c2428feb71c260efbf1e9c	https://github.com/BlueAmulet/BasicSR/tree/7040913d8659a05af4c2428feb71c260efbf1e9c	import torch import torch.utils.data from torch import nn import torch.jit class Model(nn.Module): """Charbonnier Loss (L1)""" def __init__(self, eps=1e-06): super().__init__() self.eps = eps def forward(self, x, y): b, c, h, w = y.size() diff = x - y loss = torch.sum(torch.sqrt(diff * diff + self.eps)) return loss / (c * b * h * w) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
SpatialCrossMapLRN	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/fp/cfpylbinohoan7yh5fcfp46fvbiwpo63lxt42umo3xnsuu3aeumz.py # Topologically Sorted Source Nodes: [mul, add, div_2, x], Original ATen: [aten.mul, aten.add, aten.pow, aten.div] # Source node to ATen node mapping: # add => add # div_2 => pow_2 # mul => mul # x => div # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze, 1.0), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, 1), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%add, 0.75), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%arg0_1, %pow_2), kwargs = {}) triton_poi_fused_add_div_mul_pow_0 = async_compile.triton('triton_poi_fused_add_div_mul_pow_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_div_mul_pow_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_div_mul_pow_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tmp0 * tmp0 tmp2 = 1.0 tmp3 = tmp1 * tmp2 tmp4 = tmp3 * tmp2 tmp5 = tmp4 + tmp2 tmp6 = 0.75 tmp7 = libdevice.pow(tmp5, tmp6) tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x0), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, add, div_2, x], Original ATen: [aten.mul, aten.add, aten.pow, aten.div] stream0 = get_raw_stream(0) triton_poi_fused_add_div_mul_pow_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.utils.data.dataloader import torch.utils.data import torch.backends.cudnn import torch.autograd import torch.nn class SpatialCrossMapLRN(nn.Module): def __init__(self, local_size=1, alpha=1.0, beta=0.75, k=1, ACROSS_CHANNELS=True): super(SpatialCrossMapLRN, self).__init__() self.ACROSS_CHANNELS = ACROSS_CHANNELS if ACROSS_CHANNELS: self.average = nn.AvgPool3d(kernel_size=(local_size, 1, 1), stride=1, padding=(int((local_size - 1.0) / 2), 0, 0)) else: self.average = nn.AvgPool2d(kernel_size=local_size, stride=1, padding=int((local_size - 1.0) / 2)) self.alpha = alpha self.beta = beta self.k = k def forward(self, x): if self.ACROSS_CHANNELS: div = x.pow(2).unsqueeze(1) div = self.average(div).squeeze(1) div = div.mul(self.alpha).add(self.k).pow(self.beta) else: div = x.pow(2) div = self.average(div) div = div.mul(self.alpha).add(self.k).pow(self.beta) x = x.div(div) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn import torch.utils.data.dataloader import torch.utils.data import torch.backends.cudnn import torch.autograd import torch.nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_div_mul_pow_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tmp0 * tmp0 tmp2 = 1.0 tmp3 = tmp1 * tmp2 tmp4 = tmp3 * tmp2 tmp5 = tmp4 + tmp2 tmp6 = 0.75 tmp7 = libdevice.pow(tmp5, tmp6) tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x0, tmp8, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_div_mul_pow_0[grid(256)](arg0_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, class SpatialCrossMapLRNNew(nn.Module): def __init__(self, local_size=1, alpha=1.0, beta=0.75, k=1, ACROSS_CHANNELS=True): super(SpatialCrossMapLRNNew, self).__init__() self.ACROSS_CHANNELS = ACROSS_CHANNELS if ACROSS_CHANNELS: self.average = nn.AvgPool3d(kernel_size=(local_size, 1, 1), stride=1, padding=(int((local_size - 1.0) / 2), 0, 0)) else: self.average = nn.AvgPool2d(kernel_size=local_size, stride=1, padding=int((local_size - 1.0) / 2)) self.alpha = alpha self.beta = beta self.k = k def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	CASIA-IVA-Lab/DCFST	SpatialCrossMapLRN	false	7,814	[ "Apache-2.0" ]	22	ca881ba3aae1ce00e4a7a6db01d99e5f6efff68b	https://github.com/CASIA-IVA-Lab/DCFST/tree/ca881ba3aae1ce00e4a7a6db01d99e5f6efff68b	import torch import torch.nn as nn import torch.utils.data.dataloader import torch.utils.data import torch.backends.cudnn import torch.autograd import torch.nn class Model(nn.Module): def __init__(self, local_size=1, alpha=1.0, beta=0.75, k=1, ACROSS_CHANNELS=True): super().__init__() self.ACROSS_CHANNELS = ACROSS_CHANNELS if ACROSS_CHANNELS: self.average = nn.AvgPool3d(kernel_size=(local_size, 1, 1), stride=1, padding=(int((local_size - 1.0) / 2), 0, 0)) else: self.average = nn.AvgPool2d(kernel_size=local_size, stride=1, padding=int((local_size - 1.0) / 2)) self.alpha = alpha self.beta = beta self.k = k def forward(self, x): if self.ACROSS_CHANNELS: div = x.pow(2).unsqueeze(1) div = self.average(div).squeeze(1) div = div.mul(self.alpha).add(self.k).pow(self.beta) else: div = x.pow(2) div = self.average(div) div = div.mul(self.alpha).add(self.k).pow(self.beta) x = x.div(div) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
PositionwiseFeedForward	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/4u/c4u3liwgy6ah3xlxfhvbczvvfare3yvkd7osc2eyowkxndto3p24.py # Topologically Sorted Source Nodes: [layer_norm], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # layer_norm => add, rsqrt, var_mean # Graph fragment: # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%primals_3, [3]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-06), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) triton_poi_fused_native_layer_norm_0 = async_compile.triton('triton_poi_fused_native_layer_norm_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_layer_norm_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_layer_norm_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp0 - tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp1 - tmp8 tmp12 = tmp11 * tmp11 tmp13 = tmp10 + tmp12 tmp14 = tmp3 - tmp8 tmp15 = tmp14 * tmp14 tmp16 = tmp13 + tmp15 tmp17 = tmp5 - tmp8 tmp18 = tmp17 * tmp17 tmp19 = tmp16 + tmp18 tmp20 = tmp19 / tmp7 tmp21 = 1e-06 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr0 + (x0), tmp8, xmask) tl.store(out_ptr1 + (x0), tmp23, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/gn/cgn3tpasui6fv3xxba47jzqip7bgipyrz4akedry64e2fx5k4rvd.py # Topologically Sorted Source Nodes: [layer_norm], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # layer_norm => add, add_1, mul, mul_1, rsqrt, sub, var_mean # Graph fragment: # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%primals_3, [3]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-06), kwargs = {}) # %rsqrt : [num_users=1] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_3, %getitem_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %rsqrt), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, %primals_1), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %primals_2), kwargs = {}) triton_poi_fused_native_layer_norm_1 = async_compile.triton('triton_poi_fused_native_layer_norm_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_native_layer_norm_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_native_layer_norm_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/j7/cj7j25upuelhazx47z6nn34kksu33alxa7vt5xu5egksq72vzstt.py # Topologically Sorted Source Nodes: [mul, pow_1, mul_1, add, mul_2, tanh, add_1, mul_3], Original ATen: [aten.mul, aten.pow, aten.add, aten.tanh] # Source node to ATen node mapping: # add => add_2 # add_1 => add_3 # mul => mul_2 # mul_1 => mul_3 # mul_2 => mul_4 # mul_3 => mul_5 # pow_1 => pow_1 # tanh => tanh # Graph fragment: # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, 0.5), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%view_1, 3), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%pow_1, 0.044715), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_1, %mul_3), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_2, 0.7978845608028654), kwargs = {}) # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%mul_4,), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%tanh, 1), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_2, %add_3), kwargs = {}) triton_poi_fused_add_mul_pow_tanh_2 = async_compile.triton('triton_poi_fused_add_mul_pow_tanh_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_pow_tanh_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_pow_tanh_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 0.5 tmp2 = tmp0 * tmp1 tmp3 = tmp0 * tmp0 tmp4 = tmp3 * tmp0 tmp5 = 0.044715 tmp6 = tmp4 * tmp5 tmp7 = tmp0 + tmp6 tmp8 = 0.7978845608028654 tmp9 = tmp7 * tmp8 tmp10 = libdevice.tanh(tmp9) tmp11 = 1.0 tmp12 = tmp10 + tmp11 tmp13 = tmp2 * tmp12 tl.store(out_ptr0 + (x0), tmp13, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/h3/ch3dkn75z5nv2s6poei22lobtkafusftzt2ks6goill4cq3nfbmj.py # Topologically Sorted Source Nodes: [add_2], Original ATen: [aten.add] # Source node to ATen node mapping: # add_2 => add_4 # Graph fragment: # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_3, %primals_3), kwargs = {}) triton_poi_fused_add_3 = async_compile.triton('triton_poi_fused_add_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_3', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_3(in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (x2), xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7 = args args.clear() assert_size_stride(primals_1, (4, ), (1, )) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) # Topologically Sorted Source Nodes: [layer_norm], Original ATen: [aten.native_layer_norm] stream0 = get_raw_stream(0) triton_poi_fused_native_layer_norm_0.run(primals_3, buf0, buf1, 64, grid=grid(64), stream=stream0) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [layer_norm], Original ATen: [aten.native_layer_norm] triton_poi_fused_native_layer_norm_1.run(primals_3, buf0, buf1, primals_1, primals_2, buf2, 256, grid=grid(256), stream=stream0) del buf0 del buf1 del primals_1 del primals_2 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_5 buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, pow_1, mul_1, add, mul_2, tanh, add_1, mul_3], Original ATen: [aten.mul, aten.pow, aten.add, aten.tanh] triton_poi_fused_add_mul_pow_tanh_2.run(buf3, buf4, 256, grid=grid(256), stream=stream0) buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf5) buf6 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf5 # reuse # Topologically Sorted Source Nodes: [add_2], Original ATen: [aten.add] triton_poi_fused_add_3.run(buf6, primals_7, primals_3, 256, grid=grid(256), stream=stream0) del primals_7 return (buf6, primals_3, reinterpret_tensor(buf2, (64, 4), (4, 1), 0), buf3, reinterpret_tensor(buf4, (64, 4), (4, 1), 0), primals_6, primals_4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import math import torch import torch.distributed import torch import torch.nn as nn def gelu(x): return 0.5 * x * (1 + torch.tanh(math.sqrt(2 / math.pi) * (x + 0.044715 * torch.pow(x, 3)))) class PositionwiseFeedForward(nn.Module): """ A two-layer Feed-Forward-Network with residual layer norm. Args: d_model (int): the size of input for the first-layer of the FFN. d_ff (int): the hidden layer size of the second-layer of the FNN. dropout (float): dropout probability in :math:`[0, 1)`. """ def __init__(self, d_model, d_ff, dropout=0.1): super(PositionwiseFeedForward, self).__init__() self.w_1 = nn.Linear(d_model, d_ff) self.w_2 = nn.Linear(d_ff, d_model) self.layer_norm = nn.LayerNorm(d_model, eps=1e-06) self.actv = gelu self.dropout_1 = nn.Dropout(dropout) self.dropout_2 = nn.Dropout(dropout) def forward(self, x): inter = self.dropout_1(self.actv(self.w_1(self.layer_norm(x)))) output = self.dropout_2(self.w_2(inter)) return output + x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'d_model': 4, 'd_ff': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import math import torch.distributed import torch import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_native_layer_norm_0(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 4.0 tmp8 = tmp6 / tmp7 tmp9 = tmp0 - tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp1 - tmp8 tmp12 = tmp11 * tmp11 tmp13 = tmp10 + tmp12 tmp14 = tmp3 - tmp8 tmp15 = tmp14 * tmp14 tmp16 = tmp13 + tmp15 tmp17 = tmp5 - tmp8 tmp18 = tmp17 * tmp17 tmp19 = tmp16 + tmp18 tmp20 = tmp19 / tmp7 tmp21 = 1e-06 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tl.store(out_ptr0 + x0, tmp8, xmask) tl.store(out_ptr1 + x0, tmp23, xmask) @triton.jit def triton_poi_fused_native_layer_norm_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 * tmp5 tmp8 = tmp6 + tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_poi_fused_add_mul_pow_tanh_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 0.5 tmp2 = tmp0 * tmp1 tmp3 = tmp0 * tmp0 tmp4 = tmp3 * tmp0 tmp5 = 0.044715 tmp6 = tmp4 * tmp5 tmp7 = tmp0 + tmp6 tmp8 = 0.7978845608028654 tmp9 = tmp7 * tmp8 tmp10 = libdevice.tanh(tmp9) tmp11 = 1.0 tmp12 = tmp10 + tmp11 tmp13 = tmp2 * tmp12 tl.store(out_ptr0 + x0, tmp13, xmask) @triton.jit def triton_poi_fused_add_3(in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + x2, xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tl.store(in_out_ptr0 + x2, tmp4, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7) = args args.clear() assert_size_stride(primals_1, (4,), (1,)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) get_raw_stream(0) triton_poi_fused_native_layer_norm_0[grid(64)](primals_3, buf0, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_native_layer_norm_1[grid(256)](primals_3, buf0, buf1, primals_1, primals_2, buf2, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf0 del buf1 del primals_1 del primals_2 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(buf2, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_5 buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_add_mul_pow_tanh_2[grid(256)](buf3, buf4, 256, XBLOCK=128, num_warps=4, num_stages=1) buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf5) buf6 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf5 triton_poi_fused_add_3[grid(256)](buf6, primals_7, primals_3, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_7 return buf6, primals_3, reinterpret_tensor(buf2, (64, 4), (4, 1), 0 ), buf3, reinterpret_tensor(buf4, (64, 4), (4, 1), 0 ), primals_6, primals_4 def gelu(x): return 0.5 * x * (1 + torch.tanh(math.sqrt(2 / math.pi) * (x + 0.044715 * torch.pow(x, 3)))) class PositionwiseFeedForwardNew(nn.Module): """ A two-layer Feed-Forward-Network with residual layer norm. Args: d_model (int): the size of input for the first-layer of the FFN. d_ff (int): the hidden layer size of the second-layer of the FNN. dropout (float): dropout probability in :math:`[0, 1)`. """ def __init__(self, d_model, d_ff, dropout=0.1): super(PositionwiseFeedForwardNew, self).__init__() self.w_1 = nn.Linear(d_model, d_ff) self.w_2 = nn.Linear(d_ff, d_model) self.layer_norm = nn.LayerNorm(d_model, eps=1e-06) self.actv = gelu self.dropout_1 = nn.Dropout(dropout) self.dropout_2 = nn.Dropout(dropout) def forward(self, input_0): primals_4 = self.w_1.weight primals_1 = self.w_1.bias primals_6 = self.w_2.weight primals_2 = self.w_2.bias primals_5 = self.layer_norm.weight primals_7 = self.layer_norm.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	BoonthichaSaejia/ThaiSum	PositionwiseFeedForward	false	7,815	[ "Apache-2.0" ]	23	fdb99eab23e60a933acf4e84836f53ddf05b7c8b	https://github.com/BoonthichaSaejia/ThaiSum/tree/fdb99eab23e60a933acf4e84836f53ddf05b7c8b	import math import torch import torch.distributed import torch import torch.nn as nn def gelu(x): return 0.5 * x * (1 + torch.tanh(math.sqrt(2 / math.pi) * (x + 0.044715 * torch.pow(x, 3)))) class Model(nn.Module): """ A two-layer Feed-Forward-Network with residual layer norm. Args: d_model (int): the size of input for the first-layer of the FFN. d_ff (int): the hidden layer size of the second-layer of the FNN. dropout (float): dropout probability in :math:`[0, 1)`. """ def __init__(self, d_model, d_ff, dropout=0.1): super().__init__() self.w_1 = nn.Linear(d_model, d_ff) self.w_2 = nn.Linear(d_ff, d_model) self.layer_norm = nn.LayerNorm(d_model, eps=1e-06) self.actv = gelu self.dropout_1 = nn.Dropout(dropout) self.dropout_2 = nn.Dropout(dropout) def forward(self, x): inter = self.dropout_1(self.actv(self.w_1(self.layer_norm(x)))) output = self.dropout_2(self.w_2(inter)) return output + x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
L1CosineSim	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/v4/cv4x2jnggqhwi6qqjbnurktove4nslwx5skure4we5g6ddngbtax.py # Topologically Sorted Source Nodes: [l1_loss, cosine_similarity], Original ATen: [aten.sub, aten.abs, aten.mean, aten.linalg_vector_norm, aten.clamp_min, aten.div, aten.mul] # Source node to ATen node mapping: # cosine_similarity => clamp_min, clamp_min_1, div, div_1, mul, pow_1, pow_2, pow_3, pow_4, sum_1, sum_2 # l1_loss => abs_1, mean_1, sub_1 # Graph fragment: # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg1_1, %arg0_1), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub_1,), kwargs = {}) # %mean_1 : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_1,), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%arg1_1, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [1], True), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_1, 0.5), kwargs = {}) # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%pow_2, 1e-20), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%arg1_1, %clamp_min), kwargs = {}) # %pow_3 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%arg0_1, 2), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_3, [1], True), kwargs = {}) # %pow_4 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_2, 0.5), kwargs = {}) # %clamp_min_1 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%pow_4, 1e-20), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%arg0_1, %clamp_min_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%div_1, %div), kwargs = {}) triton_per_fused_abs_clamp_min_div_linalg_vector_norm_mean_mul_sub_0 = async_compile.triton('triton_per_fused_abs_clamp_min_div_linalg_vector_norm_mean_mul_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {4: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 5), equal_to_1=(4,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_abs_clamp_min_div_linalg_vector_norm_mean_mul_sub_0', 'mutated_arg_names': [], 'no_x_dim': True, 'num_load': 10, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_abs_clamp_min_div_linalg_vector_norm_mean_mul_sub_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r0 = rindex r1 = rindex % 16 r3 = (rindex // 64) tmp0 = tl.load(in_ptr0 + (r0), None) tmp1 = tl.load(in_ptr1 + (r0), None) tmp7 = tl.load(in_ptr0 + (r1 + (64r3)), None, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (16 + r1 + (64r3)), None, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (32 + r1 + (64r3)), None, eviction_policy='evict_last') tmp15 = tl.load(in_ptr0 + (48 + r1 + (64r3)), None, eviction_policy='evict_last') tmp22 = tl.load(in_ptr1 + (r1 + (64r3)), None, eviction_policy='evict_last') tmp24 = tl.load(in_ptr1 + (16 + r1 + (64r3)), None, eviction_policy='evict_last') tmp27 = tl.load(in_ptr1 + (32 + r1 + (64r3)), None, eviction_policy='evict_last') tmp30 = tl.load(in_ptr1 + (48 + r1 + (64r3)), None, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp8 = tmp7 * tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp13 = tmp12 * tmp12 tmp14 = tmp11 + tmp13 tmp16 = tmp15 * tmp15 tmp17 = tmp14 + tmp16 tmp18 = libdevice.sqrt(tmp17) tmp19 = 1e-20 tmp20 = triton_helpers.maximum(tmp18, tmp19) tmp21 = tmp0 / tmp20 tmp23 = tmp22 * tmp22 tmp25 = tmp24 * tmp24 tmp26 = tmp23 + tmp25 tmp28 = tmp27 * tmp27 tmp29 = tmp26 + tmp28 tmp31 = tmp30 * tmp30 tmp32 = tmp29 + tmp31 tmp33 = libdevice.sqrt(tmp32) tmp34 = triton_helpers.maximum(tmp33, tmp19) tmp35 = tmp1 / tmp34 tmp36 = tmp21 * tmp35 tl.store(out_ptr1 + (tl.broadcast_to(r0, [RBLOCK])), tmp36, None) tl.store(out_ptr0 + (tl.full([1], 0, tl.int32)), tmp6, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/dw/cdwnhvnnd6e27bvz7pauif2tpteuenhudhwoxzekagsqtghucrw3.py # Topologically Sorted Source Nodes: [l1_loss, cosine_similarity, sub, cosine_term, mul, add], Original ATen: [aten.sub, aten.abs, aten.mean, aten.sum, aten.rsub, aten.mul, aten.add] # Source node to ATen node mapping: # add => add # cosine_similarity => sum_3 # cosine_term => mean # l1_loss => abs_1, mean_1, sub_1 # mul => mul_1 # sub => sub # Graph fragment: # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg1_1, %arg0_1), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub_1,), kwargs = {}) # %mean_1 : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%abs_1,), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [1]), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %sum_3), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%sub,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mean, 5), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mean_1, %mul_1), kwargs = {}) triton_per_fused_abs_add_mean_mul_rsub_sub_sum_1 = async_compile.triton('triton_per_fused_abs_add_mean_mul_rsub_sub_sum_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 64], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {2: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 3), equal_to_1=(2,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_abs_add_mean_mul_rsub_sub_sum_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_abs_add_mean_mul_rsub_sub_sum_1(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 64 RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = (rindex // 16) tmp0 = tl.load(in_ptr0 + (r0 + (64r1)), None) tmp1 = tl.load(in_ptr0 + (16 + r0 + (64r1)), None) tmp3 = tl.load(in_ptr0 + (32 + r0 + (64r1)), None) tmp5 = tl.load(in_ptr0 + (48 + r0 + (64r1)), None) tmp12 = tl.load(in_out_ptr0 + (0)) tmp13 = tl.broadcast_to(tmp12, [XBLOCK, 1]) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 1.0 tmp8 = tmp7 - tmp6 tmp9 = tl.broadcast_to(tmp8, [XBLOCK, RBLOCK]) tmp11 = tl.sum(tmp9, 1)[:, None] tmp14 = 256.0 tmp15 = tmp13 / tmp14 tmp16 = 64.0 tmp17 = tmp11 / tmp16 tmp18 = 5.0 tmp19 = tmp17 * tmp18 tmp20 = tmp15 + tmp19 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp20, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [l1_loss, cosine_similarity], Original ATen: [aten.sub, aten.abs, aten.mean, aten.linalg_vector_norm, aten.clamp_min, aten.div, aten.mul] stream0 = get_raw_stream(0) triton_per_fused_abs_clamp_min_div_linalg_vector_norm_mean_mul_sub_0.run(arg1_1, arg0_1, buf0, buf1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 buf3 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [l1_loss, cosine_similarity, sub, cosine_term, mul, add], Original ATen: [aten.sub, aten.abs, aten.mean, aten.sum, aten.rsub, aten.mul, aten.add] triton_per_fused_abs_add_mean_mul_rsub_sub_sum_1.run(buf3, buf1, 1, 64, grid=grid(1), stream=stream0) del buf1 return (buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data from torch import nn import torch.jit class L1CosineSim(nn.Module): def __init__(self, loss_lambda=5): super(L1CosineSim, self).__init__() self.similarity = torch.nn.CosineSimilarity(dim=1, eps=1e-20) self.l1_loss = nn.L1Loss() self.loss_lambda = loss_lambda def forward(self, x, y): cosine_term = (1 - self.similarity(x, y)).mean() return self.l1_loss(x, y) + self.loss_lambda * cosine_term def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.utils.data from torch import nn import torch.jit assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_abs_clamp_min_div_linalg_vector_norm_mean_mul_sub_0( in_ptr0, in_ptr1, out_ptr0, out_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r0 = rindex r1 = rindex % 16 r3 = rindex // 64 tmp0 = tl.load(in_ptr0 + r0, None) tmp1 = tl.load(in_ptr1 + r0, None) tmp7 = tl.load(in_ptr0 + (r1 + 64 * r3), None, eviction_policy='evict_last' ) tmp9 = tl.load(in_ptr0 + (16 + r1 + 64 * r3), None, eviction_policy= 'evict_last') tmp12 = tl.load(in_ptr0 + (32 + r1 + 64 * r3), None, eviction_policy= 'evict_last') tmp15 = tl.load(in_ptr0 + (48 + r1 + 64 * r3), None, eviction_policy= 'evict_last') tmp22 = tl.load(in_ptr1 + (r1 + 64 * r3), None, eviction_policy= 'evict_last') tmp24 = tl.load(in_ptr1 + (16 + r1 + 64 * r3), None, eviction_policy= 'evict_last') tmp27 = tl.load(in_ptr1 + (32 + r1 + 64 * r3), None, eviction_policy= 'evict_last') tmp30 = tl.load(in_ptr1 + (48 + r1 + 64 * r3), None, eviction_policy= 'evict_last') tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp8 = tmp7 * tmp7 tmp10 = tmp9 * tmp9 tmp11 = tmp8 + tmp10 tmp13 = tmp12 * tmp12 tmp14 = tmp11 + tmp13 tmp16 = tmp15 * tmp15 tmp17 = tmp14 + tmp16 tmp18 = libdevice.sqrt(tmp17) tmp19 = 1e-20 tmp20 = triton_helpers.maximum(tmp18, tmp19) tmp21 = tmp0 / tmp20 tmp23 = tmp22 * tmp22 tmp25 = tmp24 * tmp24 tmp26 = tmp23 + tmp25 tmp28 = tmp27 * tmp27 tmp29 = tmp26 + tmp28 tmp31 = tmp30 * tmp30 tmp32 = tmp29 + tmp31 tmp33 = libdevice.sqrt(tmp32) tmp34 = triton_helpers.maximum(tmp33, tmp19) tmp35 = tmp1 / tmp34 tmp36 = tmp21 * tmp35 tl.store(out_ptr1 + tl.broadcast_to(r0, [RBLOCK]), tmp36, None) tl.store(out_ptr0 + tl.full([1], 0, tl.int32), tmp6, None) @triton.jit def triton_per_fused_abs_add_mean_mul_rsub_sub_sum_1(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 64 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex % 16 r1 = rindex // 16 tmp0 = tl.load(in_ptr0 + (r0 + 64 * r1), None) tmp1 = tl.load(in_ptr0 + (16 + r0 + 64 * r1), None) tmp3 = tl.load(in_ptr0 + (32 + r0 + 64 * r1), None) tmp5 = tl.load(in_ptr0 + (48 + r0 + 64 * r1), None) tmp12 = tl.load(in_out_ptr0 + 0) tmp13 = tl.broadcast_to(tmp12, [XBLOCK, 1]) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 1.0 tmp8 = tmp7 - tmp6 tmp9 = tl.broadcast_to(tmp8, [XBLOCK, RBLOCK]) tmp11 = tl.sum(tmp9, 1)[:, None] tmp14 = 256.0 tmp15 = tmp13 / tmp14 tmp16 = 64.0 tmp17 = tmp11 / tmp16 tmp18 = 5.0 tmp19 = tmp17 * tmp18 tmp20 = tmp15 + tmp19 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp20, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((), (), torch.float32) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_per_fused_abs_clamp_min_div_linalg_vector_norm_mean_mul_sub_0[ grid(1)](arg1_1, arg0_1, buf0, buf1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 buf3 = buf0 del buf0 triton_per_fused_abs_add_mean_mul_rsub_sub_sum_1[grid(1)](buf3, buf1, 1, 64, XBLOCK=1, num_warps=2, num_stages=1) del buf1 return buf3, class L1CosineSimNew(nn.Module): def __init__(self, loss_lambda=5): super(L1CosineSimNew, self).__init__() self.similarity = torch.nn.CosineSimilarity(dim=1, eps=1e-20) self.l1_loss = nn.L1Loss() self.loss_lambda = loss_lambda def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	BlueAmulet/BasicSR	L1CosineSim	false	7,816	[ "Apache-2.0" ]	12	7040913d8659a05af4c2428feb71c260efbf1e9c	https://github.com/BlueAmulet/BasicSR/tree/7040913d8659a05af4c2428feb71c260efbf1e9c	import torch import torch.utils.data from torch import nn import torch.jit class Model(nn.Module): def __init__(self, loss_lambda=5): super().__init__() self.similarity = torch.nn.CosineSimilarity(dim=1, eps=1e-20) self.l1_loss = nn.L1Loss() self.loss_lambda = loss_lambda def forward(self, x, y): cosine_term = (1 - self.similarity(x, y)).mean() return self.l1_loss(x, y) + self.loss_lambda * cosine_term def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
statm_loss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/7f/c7fequtewyyumb6i6j3rrvf5f3u56e4mlexmunj3gqmbnqklfkfc.py # Topologically Sorted Source Nodes: [x_mean], Original ATen: [aten.mean] # Source node to ATen node mapping: # x_mean => mean # Graph fragment: # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%view, [2]), kwargs = {}) triton_per_fused_mean_0 = async_compile.triton('triton_per_fused_mean_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_mean_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_mean_0(in_ptr0, out_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (16x0)), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tl.store(out_ptr0 + (x0), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/vn/cvnpcrklof5chx2qwjolq2ixeyntw7xb6vuss7ux6zw4gcojorsn.py # Topologically Sorted Source Nodes: [x_mean, y_mean, sub, pow_1, mean_gap, mean_3], Original ATen: [aten.mean, aten.sub, aten.pow] # Source node to ATen node mapping: # mean_3 => mean_3 # mean_gap => mean_2 # pow_1 => pow_1 # sub => sub # x_mean => mean # y_mean => mean_1 # Graph fragment: # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%view, [2]), kwargs = {}) # %mean_1 : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%view_1, [2]), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mean, %mean_1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 2), kwargs = {}) # %mean_2 : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%pow_1, [1]), kwargs = {}) # %mean_3 : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%mean_2,), kwargs = {}) triton_per_fused_mean_pow_sub_1 = async_compile.triton('triton_per_fused_mean_pow_sub_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 4], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_mean_pow_sub_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_mean_pow_sub_1(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 4 RBLOCK: tl.constexpr = 4 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + (4r0), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (4r0), None, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (1 + (4r0)), None, eviction_policy='evict_last') tmp9 = tl.load(in_ptr1 + (1 + (4r0)), None, eviction_policy='evict_last') tmp14 = tl.load(in_ptr0 + (2 + (4r0)), None, eviction_policy='evict_last') tmp16 = tl.load(in_ptr1 + (2 + (4r0)), None, eviction_policy='evict_last') tmp21 = tl.load(in_ptr0 + (3 + (4r0)), None, eviction_policy='evict_last') tmp23 = tl.load(in_ptr1 + (3 + (4r0)), None, eviction_policy='evict_last') tmp1 = 16.0 tmp2 = tmp0 / tmp1 tmp4 = tmp3 / tmp1 tmp5 = tmp2 - tmp4 tmp6 = tmp5 * tmp5 tmp8 = tmp7 / tmp1 tmp10 = tmp9 / tmp1 tmp11 = tmp8 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp6 + tmp12 tmp15 = tmp14 / tmp1 tmp17 = tmp16 / tmp1 tmp18 = tmp15 - tmp17 tmp19 = tmp18 * tmp18 tmp20 = tmp13 + tmp19 tmp22 = tmp21 / tmp1 tmp24 = tmp23 / tmp1 tmp25 = tmp22 - tmp24 tmp26 = tmp25 * tmp25 tmp27 = tmp20 + tmp26 tmp28 = 4.0 tmp29 = tmp27 / tmp28 tmp30 = tl.broadcast_to(tmp29, [XBLOCK, RBLOCK]) tmp32 = tl.sum(tmp30, 1)[:, None] tmp33 = tmp32 / tmp28 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp33, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_mean], Original ATen: [aten.mean] stream0 = get_raw_stream(0) triton_per_fused_mean_0.run(arg0_1, buf0, 16, 16, grid=grid(16), stream=stream0) del arg0_1 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [y_mean], Original ATen: [aten.mean] triton_per_fused_mean_0.run(arg1_1, buf1, 16, 16, grid=grid(16), stream=stream0) del arg1_1 buf2 = empty_strided_cuda((), (), torch.float32) buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [x_mean, y_mean, sub, pow_1, mean_gap, mean_3], Original ATen: [aten.mean, aten.sub, aten.pow] triton_per_fused_mean_pow_sub_1.run(buf3, buf0, buf1, 1, 4, grid=grid(1), stream=stream0) del buf0 del buf1 return (buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class statm_loss(nn.Module): def __init__(self, eps=2): super(statm_loss, self).__init__() self.eps = eps def forward(self, x, y): x = x.view(x.size(0), x.size(1), -1) y = y.view(y.size(0), y.size(1), -1) x_mean = x.mean(dim=2) y_mean = y.mean(dim=2) mean_gap = (x_mean - y_mean).pow(2).mean(1) return mean_gap.mean() def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_per_fused_mean_0(in_ptr0, out_ptr0, xnumel, rnumel, XBLOCK: tl. constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tl.store(out_ptr0 + x0, tmp4, xmask) @triton.jit def triton_per_fused_mean_pow_sub_1(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel, XBLOCK: tl.constexpr): RBLOCK: tl.constexpr = 4 xoffset = tl.program_id(0) * XBLOCK xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r0 = rindex tmp0 = tl.load(in_ptr0 + 4 * r0, None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + 4 * r0, None, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (1 + 4 * r0), None, eviction_policy='evict_last') tmp9 = tl.load(in_ptr1 + (1 + 4 * r0), None, eviction_policy='evict_last') tmp14 = tl.load(in_ptr0 + (2 + 4 * r0), None, eviction_policy='evict_last') tmp16 = tl.load(in_ptr1 + (2 + 4 * r0), None, eviction_policy='evict_last') tmp21 = tl.load(in_ptr0 + (3 + 4 * r0), None, eviction_policy='evict_last') tmp23 = tl.load(in_ptr1 + (3 + 4 * r0), None, eviction_policy='evict_last') tmp1 = 16.0 tmp2 = tmp0 / tmp1 tmp4 = tmp3 / tmp1 tmp5 = tmp2 - tmp4 tmp6 = tmp5 * tmp5 tmp8 = tmp7 / tmp1 tmp10 = tmp9 / tmp1 tmp11 = tmp8 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp6 + tmp12 tmp15 = tmp14 / tmp1 tmp17 = tmp16 / tmp1 tmp18 = tmp15 - tmp17 tmp19 = tmp18 * tmp18 tmp20 = tmp13 + tmp19 tmp22 = tmp21 / tmp1 tmp24 = tmp23 / tmp1 tmp25 = tmp22 - tmp24 tmp26 = tmp25 * tmp25 tmp27 = tmp20 + tmp26 tmp28 = 4.0 tmp29 = tmp27 / tmp28 tmp30 = tl.broadcast_to(tmp29, [XBLOCK, RBLOCK]) tmp32 = tl.sum(tmp30, 1)[:, None] tmp33 = tmp32 / tmp28 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp33, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) get_raw_stream(0) triton_per_fused_mean_0[grid(16)](arg0_1, buf0, 16, 16, XBLOCK=8, num_warps=2, num_stages=1) del arg0_1 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) triton_per_fused_mean_0[grid(16)](arg1_1, buf1, 16, 16, XBLOCK=8, num_warps=2, num_stages=1) del arg1_1 buf2 = empty_strided_cuda((), (), torch.float32) buf3 = buf2 del buf2 triton_per_fused_mean_pow_sub_1[grid(1)](buf3, buf0, buf1, 1, 4, XBLOCK=1, num_warps=2, num_stages=1) del buf0 del buf1 return buf3, class statm_lossNew(nn.Module): def __init__(self, eps=2): super(statm_lossNew, self).__init__() self.eps = eps def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	COMP6248-Reproducability-Challenge/KD_SRRL	statm_loss	false	7,817	[ "MIT" ]	27	958c8f9fbeb7893f9bd866aff5b065b2bde87f23	https://github.com/COMP6248-Reproducability-Challenge/KD_SRRL/tree/958c8f9fbeb7893f9bd866aff5b065b2bde87f23	import torch import torch.nn as nn class Model(nn.Module): def __init__(self, eps=2): super().__init__() self.eps = eps def forward(self, x, y): x = x.view(x.size(0), x.size(1), -1) y = y.view(y.size(0), y.size(1), -1) x_mean = x.mean(dim=2) y_mean = y.mean(dim=2) mean_gap = (x_mean - y_mean).pow(2).mean(1) return mean_gap.mean() def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
resblock	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/nh/cnho3csu6wlnwck7klpsx5zuyb2dfceyqzfl5gfy4f2omhms5eot.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.maximum, aten.eq, aten.gt, aten.lt] # Source node to ATen node mapping: # out => maximum # Graph fragment: # %maximum : [num_users=2] = call_function[target=torch.ops.aten.maximum.default](args = (%getitem, %getitem_1), kwargs = {}) # %eq_2 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%getitem, %getitem_1), kwargs = {}) # %gt_1 : [num_users=1] = call_function[target=torch.ops.aten.gt.Tensor](args = (%getitem, %getitem_1), kwargs = {}) # %lt_1 : [num_users=1] = call_function[target=torch.ops.aten.lt.Tensor](args = (%getitem, %getitem_1), kwargs = {}) triton_poi_fused_eq_gt_lt_maximum_0 = async_compile.triton('triton_poi_fused_eq_gt_lt_maximum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i1', 4: 'i1', 5: 'i1', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_eq_gt_lt_maximum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_eq_gt_lt_maximum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = (xindex // 64) x3 = xindex % 64 x1 = (xindex // 16) % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + (128x2)), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (64 + x3 + (128x2)), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp7 = tmp2 == tmp5 tmp8 = tmp2 > tmp5 tmp9 = tmp2 < tmp5 tl.store(out_ptr0 + (x4), tmp6, xmask) tl.store(out_ptr1 + (x4), tmp7, xmask) tl.store(out_ptr2 + (x4), tmp8, xmask) tl.store(out_ptr3 + (x4), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/o3/co3fpfhgyidx46rhecwiskvcxs3zjzsozilxl72bqwa4pxh2vmkm.py # Topologically Sorted Source Nodes: [out_1, out_2], Original ATen: [aten.maximum, aten.add, aten.eq, aten.gt, aten.lt] # Source node to ATen node mapping: # out_1 => maximum_1 # out_2 => add # Graph fragment: # %maximum_1 : [num_users=1] = call_function[target=torch.ops.aten.maximum.default](args = (%getitem_2, %getitem_3), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%maximum_1, %primals_1), kwargs = {}) # %eq : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%getitem_2, %getitem_3), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Tensor](args = (%getitem_2, %getitem_3), kwargs = {}) # %lt : [num_users=1] = call_function[target=torch.ops.aten.lt.Tensor](args = (%getitem_2, %getitem_3), kwargs = {}) triton_poi_fused_add_eq_gt_lt_maximum_1 = async_compile.triton('triton_poi_fused_add_eq_gt_lt_maximum_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i1', 5: 'i1', 6: 'i1', 7: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_eq_gt_lt_maximum_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_eq_gt_lt_maximum_1(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, out_ptr2, out_ptr3, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = (xindex // 64) x3 = xindex % 64 x1 = (xindex // 16) % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + (128x2)), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (64 + x3 + (128x2)), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr2 + (x4), xmask) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp8 = tmp6 + tmp7 tmp9 = tmp2 == tmp5 tmp10 = tmp2 > tmp5 tmp11 = tmp2 < tmp5 tl.store(out_ptr0 + (x4), tmp8, xmask) tl.store(out_ptr1 + (x4), tmp9, xmask) tl.store(out_ptr2 + (x4), tmp10, xmask) tl.store(out_ptr3 + (x4), tmp11, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (8, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_3, (8, ), (1, )) assert_size_stride(primals_4, (8, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_5, (8, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_1, primals_2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 8, 4, 4), (128, 16, 4, 1)) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf7 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.maximum, aten.eq, aten.gt, aten.lt] stream0 = get_raw_stream(0) triton_poi_fused_eq_gt_lt_maximum_0.run(buf0, primals_3, buf1, buf7, buf8, buf9, 256, grid=grid(256), stream=stream0) del buf0 del primals_3 # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(buf1, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 8, 4, 4), (128, 16, 4, 1)) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf5 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf6 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [out_1, out_2], Original ATen: [aten.maximum, aten.add, aten.eq, aten.gt, aten.lt] triton_poi_fused_add_eq_gt_lt_maximum_1.run(buf2, primals_5, primals_1, buf3, buf4, buf5, buf6, 256, grid=grid(256), stream=stream0) del buf2 del primals_5 return (buf3, primals_1, primals_2, primals_4, buf1, buf4, buf5, buf6, buf7, buf8, buf9, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((8, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((8, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class mfm(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=3, stride=1, padding=1, type=1): super(mfm, self).__init__() self.out_channels = out_channels if type == 1: self.filter = nn.Conv2d(in_channels, 2 * out_channels, kernel_size=kernel_size, stride=stride, padding=padding) else: self.filter = nn.Linear(in_channels, 2 * out_channels) def forward(self, x): x = self.filter(x) out = torch.split(x, self.out_channels, 1) return torch.max(out[0], out[1]) class resblock(nn.Module): def __init__(self, in_channels, out_channels): super(resblock, self).__init__() self.conv1 = mfm(in_channels, out_channels, kernel_size=3, stride=1, padding=1) self.conv2 = mfm(out_channels, out_channels, kernel_size=3, stride= 1, padding=1) def forward(self, x): res = x out = self.conv1(x) out = self.conv2(out) out = out + res return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_eq_gt_lt_maximum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex // 64 x3 = xindex % 64 x1 = xindex // 16 % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + 128 * x2), xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (64 + x3 + 128 * x2), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp7 = tmp2 == tmp5 tmp8 = tmp2 > tmp5 tmp9 = tmp2 < tmp5 tl.store(out_ptr0 + x4, tmp6, xmask) tl.store(out_ptr1 + x4, tmp7, xmask) tl.store(out_ptr2 + x4, tmp8, xmask) tl.store(out_ptr3 + x4, tmp9, xmask) @triton.jit def triton_poi_fused_add_eq_gt_lt_maximum_1(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, out_ptr2, out_ptr3, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex // 64 x3 = xindex % 64 x1 = xindex // 16 % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + 128 * x2), xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (64 + x3 + 128 * x2), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr2 + x4, xmask) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp8 = tmp6 + tmp7 tmp9 = tmp2 == tmp5 tmp10 = tmp2 > tmp5 tmp11 = tmp2 < tmp5 tl.store(out_ptr0 + x4, tmp8, xmask) tl.store(out_ptr1 + x4, tmp9, xmask) tl.store(out_ptr2 + x4, tmp10, xmask) tl.store(out_ptr3 + x4, tmp11, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (8, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_3, (8,), (1,)) assert_size_stride(primals_4, (8, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_5, (8,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_1, primals_2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 8, 4, 4), (128, 16, 4, 1)) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf7 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_eq_gt_lt_maximum_0[grid(256)](buf0, primals_3, buf1, buf7, buf8, buf9, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf0 del primals_3 buf2 = extern_kernels.convolution(buf1, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 8, 4, 4), (128, 16, 4, 1)) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf5 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf6 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_add_eq_gt_lt_maximum_1[grid(256)](buf2, primals_5, primals_1, buf3, buf4, buf5, buf6, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf2 del primals_5 return (buf3, primals_1, primals_2, primals_4, buf1, buf4, buf5, buf6, buf7, buf8, buf9) class mfm(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=3, stride=1, padding=1, type=1): super(mfm, self).__init__() self.out_channels = out_channels if type == 1: self.filter = nn.Conv2d(in_channels, 2 * out_channels, kernel_size=kernel_size, stride=stride, padding=padding) else: self.filter = nn.Linear(in_channels, 2 * out_channels) def forward(self, x): x = self.filter(x) out = torch.split(x, self.out_channels, 1) return torch.max(out[0], out[1]) class resblockNew(nn.Module): def __init__(self, in_channels, out_channels): super(resblockNew, self).__init__() self.conv1 = mfm(in_channels, out_channels, kernel_size=3, stride=1, padding=1) self.conv2 = mfm(out_channels, out_channels, kernel_size=3, stride= 1, padding=1) def forward(self, input_0): primals_2 = self.conv1.filter.weight primals_3 = self.conv1.filter.bias primals_4 = self.conv2.filter.weight primals_5 = self.conv2.filter.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	BradyFU/DVG-Face	resblock	false	7,818	[ "MIT" ]	33	16d51fe7da6e4a52d144e938afb3072eb8e4e8de	https://github.com/BradyFU/DVG-Face/tree/16d51fe7da6e4a52d144e938afb3072eb8e4e8de	import torch import torch.nn as nn class mfm(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=3, stride=1, padding=1, type=1): super().__init__() self.out_channels = out_channels if type == 1: self.filter = nn.Conv2d(in_channels, 2 * out_channels, kernel_size=kernel_size, stride=stride, padding=padding) else: self.filter = nn.Linear(in_channels, 2 * out_channels) def forward(self, x): x = self.filter(x) out = torch.split(x, self.out_channels, 1) return torch.max(out[0], out[1]) class Model(nn.Module): def __init__(self, in_channels, out_channels): super().__init__() self.conv1 = mfm(in_channels, out_channels, kernel_size=3, stride=1, padding=1) self.conv2 = mfm(out_channels, out_channels, kernel_size=3, stride= 1, padding=1) def forward(self, x): res = x out = self.conv1(x) out = self.conv2(out) out = out + res return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
group	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/nh/cnho3csu6wlnwck7klpsx5zuyb2dfceyqzfl5gfy4f2omhms5eot.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.maximum, aten.eq, aten.gt, aten.lt] # Source node to ATen node mapping: # x_1 => maximum # Graph fragment: # %maximum : [num_users=2] = call_function[target=torch.ops.aten.maximum.default](args = (%getitem, %getitem_1), kwargs = {}) # %eq_2 : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%getitem, %getitem_1), kwargs = {}) # %gt_1 : [num_users=1] = call_function[target=torch.ops.aten.gt.Tensor](args = (%getitem, %getitem_1), kwargs = {}) # %lt_1 : [num_users=1] = call_function[target=torch.ops.aten.lt.Tensor](args = (%getitem, %getitem_1), kwargs = {}) triton_poi_fused_eq_gt_lt_maximum_0 = async_compile.triton('triton_poi_fused_eq_gt_lt_maximum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i1', 4: 'i1', 5: 'i1', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_eq_gt_lt_maximum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_eq_gt_lt_maximum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = (xindex // 64) x3 = xindex % 64 x1 = (xindex // 16) % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + (128x2)), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (64 + x3 + (128x2)), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp7 = tmp2 == tmp5 tmp8 = tmp2 > tmp5 tmp9 = tmp2 < tmp5 tl.store(out_ptr0 + (x4), tmp6, xmask) tl.store(out_ptr1 + (x4), tmp7, xmask) tl.store(out_ptr2 + (x4), tmp8, xmask) tl.store(out_ptr3 + (x4), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/if/cifsmswhetzj3ip424g7hjk4ujymnxvhipe7rl7nrfmcttemygid.py # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.maximum, aten.eq, aten.gt, aten.lt] # Source node to ATen node mapping: # x_3 => maximum_1 # Graph fragment: # %maximum_1 : [num_users=1] = call_function[target=torch.ops.aten.maximum.default](args = (%getitem_2, %getitem_3), kwargs = {}) # %eq : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%getitem_2, %getitem_3), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Tensor](args = (%getitem_2, %getitem_3), kwargs = {}) # %lt : [num_users=1] = call_function[target=torch.ops.aten.lt.Tensor](args = (%getitem_2, %getitem_3), kwargs = {}) triton_poi_fused_eq_gt_lt_maximum_1 = async_compile.triton('triton_poi_fused_eq_gt_lt_maximum_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[2048], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i1', 4: 'i1', 5: 'i1', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_eq_gt_lt_maximum_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_eq_gt_lt_maximum_1(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, xnumel, XBLOCK : tl.constexpr): xnumel = 1296 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = (xindex // 324) x3 = xindex % 324 x1 = (xindex // 81) % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + (648x2)), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (324 + x3 + (648x2)), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp7 = tmp2 == tmp5 tmp8 = tmp2 > tmp5 tmp9 = tmp2 < tmp5 tl.store(out_ptr0 + (x4), tmp6, xmask) tl.store(out_ptr1 + (x4), tmp7, xmask) tl.store(out_ptr2 + (x4), tmp8, xmask) tl.store(out_ptr3 + (x4), tmp9, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (8, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (8, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (8, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_5, (8, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 8, 4, 4), (128, 16, 4, 1)) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf7 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.maximum, aten.eq, aten.gt, aten.lt] stream0 = get_raw_stream(0) triton_poi_fused_eq_gt_lt_maximum_0.run(buf0, primals_2, buf1, buf7, buf8, buf9, 256, grid=grid(256), stream=stream0) del buf0 del primals_2 # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(buf1, primals_4, stride=(1, 1), padding=(4, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 8, 9, 9), (648, 81, 9, 1)) buf3 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.float32) buf4 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.bool) buf5 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.bool) buf6 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.bool) # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.maximum, aten.eq, aten.gt, aten.lt] triton_poi_fused_eq_gt_lt_maximum_1.run(buf2, primals_5, buf3, buf4, buf5, buf6, 1296, grid=grid(1296), stream=stream0) del buf2 del primals_5 return (buf3, primals_1, primals_3, primals_4, buf1, buf4, buf5, buf6, buf7, buf8, buf9, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((8, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((8, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class mfm(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=3, stride=1, padding=1, type=1): super(mfm, self).__init__() self.out_channels = out_channels if type == 1: self.filter = nn.Conv2d(in_channels, 2 * out_channels, kernel_size=kernel_size, stride=stride, padding=padding) else: self.filter = nn.Linear(in_channels, 2 * out_channels) def forward(self, x): x = self.filter(x) out = torch.split(x, self.out_channels, 1) return torch.max(out[0], out[1]) class group(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding ): super(group, self).__init__() self.conv_a = mfm(in_channels, in_channels, 1, 1, 0) self.conv = mfm(in_channels, out_channels, kernel_size, stride, padding ) def forward(self, x): x = self.conv_a(x) x = self.conv(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4, 'stride': 1, 'padding': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_eq_gt_lt_maximum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex // 64 x3 = xindex % 64 x1 = xindex // 16 % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + 128 * x2), xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (64 + x3 + 128 * x2), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp7 = tmp2 == tmp5 tmp8 = tmp2 > tmp5 tmp9 = tmp2 < tmp5 tl.store(out_ptr0 + x4, tmp6, xmask) tl.store(out_ptr1 + x4, tmp7, xmask) tl.store(out_ptr2 + x4, tmp8, xmask) tl.store(out_ptr3 + x4, tmp9, xmask) @triton.jit def triton_poi_fused_eq_gt_lt_maximum_1(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, xnumel, XBLOCK: tl.constexpr): xnumel = 1296 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex // 324 x3 = xindex % 324 x1 = xindex // 81 % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + 648 * x2), xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (324 + x3 + 648 * x2), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp7 = tmp2 == tmp5 tmp8 = tmp2 > tmp5 tmp9 = tmp2 < tmp5 tl.store(out_ptr0 + x4, tmp6, xmask) tl.store(out_ptr1 + x4, tmp7, xmask) tl.store(out_ptr2 + x4, tmp8, xmask) tl.store(out_ptr3 + x4, tmp9, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (8, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (8,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (8, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_5, (8,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 8, 4, 4), (128, 16, 4, 1)) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf7 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_eq_gt_lt_maximum_0[grid(256)](buf0, primals_2, buf1, buf7, buf8, buf9, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf0 del primals_2 buf2 = extern_kernels.convolution(buf1, primals_4, stride=(1, 1), padding=(4, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 8, 9, 9), (648, 81, 9, 1)) buf3 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.float32) buf4 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.bool) buf5 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.bool) buf6 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.bool) triton_poi_fused_eq_gt_lt_maximum_1[grid(1296)](buf2, primals_5, buf3, buf4, buf5, buf6, 1296, XBLOCK=128, num_warps=4, num_stages=1 ) del buf2 del primals_5 return (buf3, primals_1, primals_3, primals_4, buf1, buf4, buf5, buf6, buf7, buf8, buf9) class mfm(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=3, stride=1, padding=1, type=1): super(mfm, self).__init__() self.out_channels = out_channels if type == 1: self.filter = nn.Conv2d(in_channels, 2 * out_channels, kernel_size=kernel_size, stride=stride, padding=padding) else: self.filter = nn.Linear(in_channels, 2 * out_channels) def forward(self, x): x = self.filter(x) out = torch.split(x, self.out_channels, 1) return torch.max(out[0], out[1]) class groupNew(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding ): super(groupNew, self).__init__() self.conv_a = mfm(in_channels, in_channels, 1, 1, 0) self.conv = mfm(in_channels, out_channels, kernel_size, stride, padding ) def forward(self, input_0): primals_1 = self.conv_a.filter.weight primals_2 = self.conv_a.filter.bias primals_4 = self.conv.filter.weight primals_5 = self.conv.filter.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	BradyFU/DVG-Face	group	false	7,819	[ "MIT" ]	33	16d51fe7da6e4a52d144e938afb3072eb8e4e8de	https://github.com/BradyFU/DVG-Face/tree/16d51fe7da6e4a52d144e938afb3072eb8e4e8de	import torch import torch.nn as nn class mfm(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=3, stride=1, padding=1, type=1): super().__init__() self.out_channels = out_channels if type == 1: self.filter = nn.Conv2d(in_channels, 2 * out_channels, kernel_size=kernel_size, stride=stride, padding=padding) else: self.filter = nn.Linear(in_channels, 2 * out_channels) def forward(self, x): x = self.filter(x) out = torch.split(x, self.out_channels, 1) return torch.max(out[0], out[1]) class Model(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding ): super().__init__() self.conv_a = mfm(in_channels, in_channels, 1, 1, 0) self.conv = mfm(in_channels, out_channels, kernel_size, stride, padding ) def forward(self, x): x = self.conv_a(x) x = self.conv(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4, 'stride': 1, 'padding': 4}]
biLinearModel	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/st/cstkd4kfk4q3izxhlmwqjt2hssivdn4juckkuywif223ag5wgdjq.py # Topologically Sorted Source Nodes: [sent_group_scores], Original ATen: [aten.mul] # Source node to ATen node mapping: # sent_group_scores => mul # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze, %primals_5), kwargs = {}) triton_poi_fused_mul_0 = async_compile.triton('triton_poi_fused_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 64 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp4 = tl.load(in_ptr2 + (x2), xmask) tmp3 = tmp0 + tmp2 tmp5 = tmp3 * tmp4 tl.store(out_ptr0 + (x2), tmp5, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (1, 4, 4), (16, 4, 1)) assert_size_stride(primals_4, (1, ), (1, )) assert_size_stride(primals_5, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [h_0], Original ATen: [aten._trilinear] buf0 = torch.ops.aten._trilinear.default(reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), primals_3, reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), [1, 3], [0], [1, 2], [2, 3]) del primals_3 buf1 = buf0 del buf0 buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sent_group_scores], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(buf1, primals_4, primals_5, buf2, 256, grid=grid(256), stream=stream0) del buf1 del primals_4 return (buf2, primals_5, reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((1, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((1, ), (1, ), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.distributed import torch import torch.nn as nn class biLinearModel(nn.Module): """Currently just for a pair""" def __init__(self, hidden_size): super(biLinearModel, self).__init__() self.bilinear = nn.Bilinear(hidden_size, hidden_size, 1) def forward(self, doc_emb, group_embs, candi_sent_masks): """ doc_emb: batch_size, 1, emb_dim group_emb: batch_size, max_sent_count, emb_dim candi_sent_masks: batch_size, max_group_count """ doc_emb = doc_emb.expand_as(group_embs) h_0 = self.bilinear(group_embs.contiguous(), doc_emb.contiguous()) sent_group_scores = h_0.squeeze(-1) * candi_sent_masks.float() return sent_group_scores def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return [[], {'hidden_size': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.distributed import torch import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_mul_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 64 x2 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp4 = tl.load(in_ptr2 + x2, xmask) tmp3 = tmp0 + tmp2 tmp5 = tmp3 * tmp4 tl.store(out_ptr0 + x2, tmp5, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (1, 4, 4), (16, 4, 1)) assert_size_stride(primals_4, (1,), (1,)) assert_size_stride(primals_5, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = torch.ops.aten._trilinear.default(reinterpret_tensor( primals_2, (64, 4), (4, 1), 0), primals_3, reinterpret_tensor( primals_1, (64, 4), (4, 1), 0), [1, 3], [0], [1, 2], [2, 3]) del primals_3 buf1 = buf0 del buf0 buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_0[grid(256)](buf1, primals_4, primals_5, buf2, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf1 del primals_4 return buf2, primals_5, reinterpret_tensor(primals_2, (64, 4), (4, 1), 0 ), reinterpret_tensor(primals_1, (64, 4), (4, 1), 0) class biLinearModelNew(nn.Module): """Currently just for a pair""" def __init__(self, hidden_size): super(biLinearModelNew, self).__init__() self.bilinear = nn.Bilinear(hidden_size, hidden_size, 1) def forward(self, input_0, input_1, input_2): primals_3 = self.bilinear.weight primals_4 = self.bilinear.bias primals_1 = input_0 primals_2 = input_1 primals_5 = input_2 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	BoonthichaSaejia/ThaiSum	biLinearModel	false	7,820	[ "Apache-2.0" ]	23	fdb99eab23e60a933acf4e84836f53ddf05b7c8b	https://github.com/BoonthichaSaejia/ThaiSum/tree/fdb99eab23e60a933acf4e84836f53ddf05b7c8b	import torch import torch.distributed import torch import torch.nn as nn class Model(nn.Module): """Currently just for a pair""" def __init__(self, hidden_size): super().__init__() self.bilinear = nn.Bilinear(hidden_size, hidden_size, 1) def forward(self, doc_emb, group_embs, candi_sent_masks): """ doc_emb: batch_size, 1, emb_dim group_emb: batch_size, max_sent_count, emb_dim candi_sent_masks: batch_size, max_group_count """ doc_emb = doc_emb.expand_as(group_embs) h_0 = self.bilinear(group_embs.contiguous(), doc_emb.contiguous()) sent_group_scores = h_0.squeeze(-1) * candi_sent_masks.float() return sent_group_scores def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return [4]
FiLM	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/g3/cg3iezyzyss5q2limvkgg66xf7h4me63cq42fwwwgtwlpl4gxlon.py # Topologically Sorted Source Nodes: [mul, x], Original ATen: [aten.mul, aten.add] # Source node to ATen node mapping: # mul => mul # x => add # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%unsqueeze_1, %primals_6), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %unsqueeze_3), kwargs = {}) triton_poi_fused_add_mul_0 = async_compile.triton('triton_poi_fused_add_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4096 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x4 = (xindex // 16) x1 = (xindex // 16) % 4 x5 = xindex % 256 x6 = xindex tmp0 = tl.load(in_ptr0 + (x4), None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x1), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x5), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (x4), None, eviction_policy='evict_last') tmp6 = tl.load(in_ptr4 + (x1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 * tmp3 tmp7 = tmp5 + tmp6 tmp8 = tmp4 + tmp7 tl.store(out_ptr0 + (x6), tmp8, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) del primals_4 buf2 = empty_strided_cuda((4, 4, 4, 4, 4, 4), (1024, 256, 64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, x], Original ATen: [aten.mul, aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_mul_0.run(buf0, primals_2, primals_6, buf1, primals_5, buf2, 4096, grid=grid(4096), stream=stream0) del buf0 del buf1 del primals_2 del primals_5 return (buf2, primals_6, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class FiLM(nn.Module): def __init__(self, zdim, maskdim): super(FiLM, self).__init__() self.gamma = nn.Linear(zdim, maskdim) self.beta = nn.Linear(zdim, maskdim) def forward(self, x, z): gamma = self.gamma(z).unsqueeze(-1).unsqueeze(-1) beta = self.beta(z).unsqueeze(-1).unsqueeze(-1) x = gamma * x + beta return x def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'zdim': 4, 'maskdim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_add_mul_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, out_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x4 = xindex // 16 x1 = xindex // 16 % 4 x5 = xindex % 256 x6 = xindex tmp0 = tl.load(in_ptr0 + x4, None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + x1, None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x5, None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + x4, None, eviction_policy='evict_last') tmp6 = tl.load(in_ptr4 + x1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 * tmp3 tmp7 = tmp5 + tmp6 tmp8 = tmp4 + tmp7 tl.store(out_ptr0 + x6, tmp8, None) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) del primals_4 buf2 = empty_strided_cuda((4, 4, 4, 4, 4, 4), (1024, 256, 64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_mul_0[grid(4096)](buf0, primals_2, primals_6, buf1, primals_5, buf2, 4096, XBLOCK=128, num_warps=4, num_stages=1) del buf0 del buf1 del primals_2 del primals_5 return buf2, primals_6, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0) class FiLMNew(nn.Module): def __init__(self, zdim, maskdim): super(FiLMNew, self).__init__() self.gamma = nn.Linear(zdim, maskdim) self.beta = nn.Linear(zdim, maskdim) def forward(self, input_0, input_1): primals_1 = self.gamma.weight primals_2 = self.gamma.bias primals_4 = self.beta.weight primals_5 = self.beta.bias primals_3 = input_0 primals_6 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return output[0]	CPJKU/audio_conditioned_unet	FiLM	false	7,821	[ "MIT" ]	20	68f20f5280079e99be260f9fe9933c0064eb2d7f	https://github.com/CPJKU/audio_conditioned_unet/tree/68f20f5280079e99be260f9fe9933c0064eb2d7f	import torch import torch.nn as nn class Model(nn.Module): def __init__(self, zdim, maskdim): super().__init__() self.gamma = nn.Linear(zdim, maskdim) self.beta = nn.Linear(zdim, maskdim) def forward(self, x, z): gamma = self.gamma(z).unsqueeze(-1).unsqueeze(-1) beta = self.beta(z).unsqueeze(-1).unsqueeze(-1) x = gamma * x + beta return x def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
Swish	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/ih/cihaiv6nadlw5leqmuxpmbmrhzyekxbv33t3jhwizo2zgmapx4bu.py # Topologically Sorted Source Nodes: [mul, sigmoid, mul_1, mul_2], Original ATen: [aten.mul, aten.sigmoid] # Source node to ATen node mapping: # mul => mul # mul_1 => mul_1 # mul_2 => mul_2 # sigmoid => sigmoid # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, %primals_2), kwargs = {}) # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%mul,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_2, %sigmoid), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_1, 1.67653251702), kwargs = {}) triton_poi_fused_mul_sigmoid_0 = async_compile.triton('triton_poi_fused_mul_sigmoid_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_sigmoid_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_sigmoid_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr1 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp2 * tmp0 tmp4 = tl.sigmoid(tmp3) tmp5 = tmp0 * tmp4 tmp6 = 1.67653251702 tmp7 = tmp5 * tmp6 tl.store(out_ptr0 + (x0), tmp7, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (), ()) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, sigmoid, mul_1, mul_2], Original ATen: [aten.mul, aten.sigmoid] stream0 = get_raw_stream(0) triton_poi_fused_mul_sigmoid_0.run(primals_2, primals_1, buf0, 256, grid=grid(256), stream=stream0) return (buf0, primals_1, primals_2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((), (), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data from torch import nn import torch.jit def swish_func(x, beta=1.0): """ "Swish: a Self-Gated Activation Function" Searching for Activation Functions (https://arxiv.org/abs/1710.05941) If beta=1 applies the Sigmoid Linear Unit (SiLU) function element-wise If beta=0, Swish becomes the scaled linear function (identity activation) f(x) = x/2 As beta -> ∞, the sigmoid component converges to approach a 0-1 function (unit step), and multiplying that by x gives us f(x)=2max(0,x), which is the ReLU multiplied by a constant factor of 2, so Swish becomes like the ReLU function. Including beta, Swish can be loosely viewed as a smooth function that nonlinearly interpolate between identity (linear) and ReLU function. The degree of interpolation can be controlled by the model if beta is set as a trainable parameter. Alt: 1.78718727865 * (x * sigmoid(x) - 0.20662096414) """ """ result = x.clone() torch.sigmoid_(betax) x = result return x #""" return x * torch.sigmoid(beta * x) class Swish(nn.Module): __constants__ = ['beta', 'slope', 'inplace'] def __init__(self, beta=1.0, slope=1.67653251702, inplace=False): """ Shape: - Input: (N, ) where means, any number of additional dimensions - Output: (N, ), same shape as the input """ super().__init__() self.inplace = inplace self.beta = torch.nn.Parameter(torch.tensor(beta)) self.beta.requiresGrad = True self.slope = slope / 2 def forward(self, input): """ # Disabled, using inplace causes: # "RuntimeError: one of the variables needed for gradient computation has been modified by an inplace operation" if self.inplace: input.mul_(torch.sigmoid(self.betainput)) return 2 * self.slope * input else: return 2 * self.slope * swish_func(input, self.beta) """ return 2 * self.slope * swish_func(input, self.beta) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.utils.data from torch import nn import torch.jit assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_mul_sigmoid_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr1 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp3 = tmp2 * tmp0 tmp4 = tl.sigmoid(tmp3) tmp5 = tmp0 * tmp4 tmp6 = 1.67653251702 tmp7 = tmp5 * tmp6 tl.store(out_ptr0 + x0, tmp7, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (), ()) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_sigmoid_0[grid(256)](primals_2, primals_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) return buf0, primals_1, primals_2 def swish_func(x, beta=1.0): """ "Swish: a Self-Gated Activation Function" Searching for Activation Functions (https://arxiv.org/abs/1710.05941) If beta=1 applies the Sigmoid Linear Unit (SiLU) function element-wise If beta=0, Swish becomes the scaled linear function (identity activation) f(x) = x/2 As beta -> ∞, the sigmoid component converges to approach a 0-1 function (unit step), and multiplying that by x gives us f(x)=2max(0,x), which is the ReLU multiplied by a constant factor of 2, so Swish becomes like the ReLU function. Including beta, Swish can be loosely viewed as a smooth function that nonlinearly interpolate between identity (linear) and ReLU function. The degree of interpolation can be controlled by the model if beta is set as a trainable parameter. Alt: 1.78718727865 * (x * sigmoid(x) - 0.20662096414) """ """ result = x.clone() torch.sigmoid_(betax) x = result return x #""" return x * torch.sigmoid(beta * x) class SwishNew(nn.Module): __constants__ = ['beta', 'slope', 'inplace'] def __init__(self, beta=1.0, slope=1.67653251702, inplace=False): """ Shape: - Input: (N, ) where means, any number of additional dimensions - Output: (N, *), same shape as the input """ super().__init__() self.inplace = inplace self.beta = torch.nn.Parameter(torch.tensor(beta)) self.beta.requiresGrad = True self.slope = slope / 2 def forward(self, input_0): primals_1 = self.beta primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	BlueAmulet/BasicSR	Swish	false	7,822	[ "Apache-2.0" ]	12	7040913d8659a05af4c2428feb71c260efbf1e9c	https://github.com/BlueAmulet/BasicSR/tree/7040913d8659a05af4c2428feb71c260efbf1e9c	import torch import torch.utils.data from torch import nn import torch.jit def swish_func(x, beta=1.0): """ "Swish: a Self-Gated Activation Function" Searching for Activation Functions (https://arxiv.org/abs/1710.05941) If beta=1 applies the Sigmoid Linear Unit (SiLU) function element-wise If beta=0, Swish becomes the scaled linear function (identity activation) f(x) = x/2 As beta -> ∞, the sigmoid component converges to approach a 0-1 function (unit step), and multiplying that by x gives us f(x)=2max(0,x), which is the ReLU multiplied by a constant factor of 2, so Swish becomes like the ReLU function. Including beta, Swish can be loosely viewed as a smooth function that nonlinearly interpolate between identity (linear) and ReLU function. The degree of interpolation can be controlled by the model if beta is set as a trainable parameter. Alt: 1.78718727865 * (x * sigmoid(x) - 0.20662096414) """ """ result = x.clone() torch.sigmoid_(betax) x = result return x #""" return x * torch.sigmoid(beta * x) class Model(nn.Module): __constants__ = ['beta', 'slope', 'inplace'] def __init__(self, beta=1.0, slope=1.67653251702, inplace=False): """ Shape: - Input: (N, ) where means, any number of additional dimensions - Output: (N, ), same shape as the input """ super().__init__() self.inplace = inplace self.beta = torch.nn.Parameter(torch.tensor(beta)) self.beta.requiresGrad = True self.slope = slope / 2 def forward(self, input): """ # Disabled, using inplace causes: # "RuntimeError: one of the variables needed for gradient computation has been modified by an inplace operation" if self.inplace: input.mul_(torch.sigmoid(self.betainput)) return 2 * self.slope * input else: return 2 * self.slope * swish_func(input, self.beta) """ return 2 * self.slope * swish_func(input, self.beta) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
ResBlock	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/gq/cgqaaujbd3negrd7hmcrhek3kzy5sohtyhy6r6uqf7bf5zhv6f7y.py # Topologically Sorted Source Nodes: [group_norm, out], Original ATen: [aten.native_group_norm, aten.relu] # Source node to ATen node mapping: # group_norm => add, add_1, mul_1, rsqrt, var_mean # out => relu # Graph fragment: # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view, [2, 3]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=2] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, %unsqueeze_5), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %unsqueeze_2), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_1,), kwargs = {}) triton_per_fused_native_group_norm_relu_0 = async_compile.triton('triton_per_fused_native_group_norm_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32', 7: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_native_group_norm_relu_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 4, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_native_group_norm_relu_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr2, out_ptr3, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex x2 = xindex % 4 tmp0 = tl.load(in_ptr0 + (r1 + (16x0)), xmask, other=0.0) tmp24 = tl.load(in_ptr1 + (x2), xmask, eviction_policy='evict_last') tmp26 = tl.load(in_ptr2 + (x2), xmask, eviction_policy='evict_last') tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp6 = tl.where(xmask, tmp4, 0) tmp7 = tl.sum(tmp6, 1)[:, None] tmp8 = tl.full([XBLOCK, 1], 16, tl.int32) tmp9 = tmp8.to(tl.float32) tmp10 = tmp7 / tmp9 tmp11 = tmp1 - tmp10 tmp12 = tmp11 tmp11 tmp13 = tl.broadcast_to(tmp12, [XBLOCK, RBLOCK]) tmp15 = tl.where(xmask, tmp13, 0) tmp16 = tl.sum(tmp15, 1)[:, None] tmp17 = tmp0 - tmp10 tmp18 = 16.0 tmp19 = tmp16 / tmp18 tmp20 = 1e-05 tmp21 = tmp19 + tmp20 tmp22 = libdevice.rsqrt(tmp21) tmp23 = tmp17 * tmp22 tmp25 = tmp23 * tmp24 tmp27 = tmp25 + tmp26 tmp28 = tl.full([1, 1], 0, tl.int32) tmp29 = triton_helpers.maximum(tmp28, tmp27) tl.store(out_ptr2 + (r1 + (16x0)), tmp29, xmask) tl.store(out_ptr3 + (x0), tmp22, xmask) tl.store(out_ptr0 + (x0), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/2f/c2fjqh4rkxd5m4ofss2fb5di4n3m7oktsce2obpg6r6id2jwywin.py # Topologically Sorted Source Nodes: [add], Original ATen: [aten.add] # Source node to ATen node mapping: # add => add_4 # Graph fragment: # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution_1, %primals_1), kwargs = {}) triton_poi_fused_add_1 = async_compile.triton('triton_poi_fused_add_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask) tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, ), (1, )) assert_size_stride(primals_7, (4, 4, 3, 3), (36, 9, 3, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf12 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) # Topologically Sorted Source Nodes: [group_norm, out], Original ATen: [aten.native_group_norm, aten.relu] stream0 = get_raw_stream(0) triton_per_fused_native_group_norm_relu_0.run(primals_1, primals_2, primals_3, buf0, buf3, buf12, 16, 16, grid=grid(16), stream=stream0) del primals_2 del primals_3 # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(buf3, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 4, 4, 4), (64, 16, 4, 1)) buf5 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf8 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) # Topologically Sorted Source Nodes: [out_2, out_3], Original ATen: [aten.native_group_norm, aten.relu] triton_per_fused_native_group_norm_relu_0.run(buf4, primals_5, primals_6, buf5, buf9, buf8, 16, 16, grid=grid(16), stream=stream0) del primals_6 # Topologically Sorted Source Nodes: [out_4], Original ATen: [aten.convolution] buf10 = extern_kernels.convolution(buf9, primals_7, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf10, (4, 4, 4, 4), (64, 16, 4, 1)) buf11 = buf10; del buf10 # reuse # Topologically Sorted Source Nodes: [add], Original ATen: [aten.add] triton_poi_fused_add_1.run(buf11, primals_1, 256, grid=grid(256), stream=stream0) return (buf11, primals_1, primals_4, primals_5, primals_7, buf3, buf4, reinterpret_tensor(buf5, (4, 4), (4, 1), 0), reinterpret_tensor(buf8, (4, 4), (4, 1), 0), buf9, reinterpret_tensor(buf0, (4, 4, 1), (4, 1, 1), 0), reinterpret_tensor(buf12, (4, 4, 1), (4, 1, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn def conv3x3(in_planes, out_planes, stride=1): """3x3 convolution with padding""" return nn.Conv2d(in_planes, out_planes, kernel_size=3, stride=stride, padding=1, bias=False) def norm(dim): return nn.GroupNorm(min(32, dim), dim) class ResBlock(nn.Module): expansion = 1 def __init__(self, inplanes, planes, stride=1, downsample=None): super(ResBlock, self).__init__() self.norm1 = norm(inplanes) self.relu = nn.ReLU(inplace=True) self.downsample = downsample self.conv1 = conv3x3(inplanes, planes, stride) self.norm2 = norm(planes) self.conv2 = conv3x3(planes, planes) def forward(self, x): shortcut = x out = self.relu(self.norm1(x)) if self.downsample is not None: shortcut = self.downsample(out) out = self.conv1(out) out = self.norm2(out) out = self.relu(out) out = self.conv2(out) return out + shortcut def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'inplanes': 4, 'planes': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_per_fused_native_group_norm_relu_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr2, out_ptr3, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex x2 = xindex % 4 tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp24 = tl.load(in_ptr1 + x2, xmask, eviction_policy='evict_last') tmp26 = tl.load(in_ptr2 + x2, xmask, eviction_policy='evict_last') tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tl.where(xmask, tmp1, 0) tmp4 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp6 = tl.where(xmask, tmp4, 0) tmp7 = tl.sum(tmp6, 1)[:, None] tmp8 = tl.full([XBLOCK, 1], 16, tl.int32) tmp9 = tmp8.to(tl.float32) tmp10 = tmp7 / tmp9 tmp11 = tmp1 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tl.broadcast_to(tmp12, [XBLOCK, RBLOCK]) tmp15 = tl.where(xmask, tmp13, 0) tmp16 = tl.sum(tmp15, 1)[:, None] tmp17 = tmp0 - tmp10 tmp18 = 16.0 tmp19 = tmp16 / tmp18 tmp20 = 1e-05 tmp21 = tmp19 + tmp20 tmp22 = libdevice.rsqrt(tmp21) tmp23 = tmp17 * tmp22 tmp25 = tmp23 * tmp24 tmp27 = tmp25 + tmp26 tmp28 = tl.full([1, 1], 0, tl.int32) tmp29 = triton_helpers.maximum(tmp28, tmp27) tl.store(out_ptr2 + (r1 + 16 * x0), tmp29, xmask) tl.store(out_ptr3 + x0, tmp22, xmask) tl.store(out_ptr0 + x0, tmp10, xmask) @triton.jit def triton_poi_fused_add_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask) tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x0, tmp2, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7) = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4,), (1,)) assert_size_stride(primals_7, (4, 4, 3, 3), (36, 9, 3, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf12 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) get_raw_stream(0) triton_per_fused_native_group_norm_relu_0[grid(16)](primals_1, primals_2, primals_3, buf0, buf3, buf12, 16, 16, XBLOCK=8, num_warps=2, num_stages=1) del primals_2 del primals_3 buf4 = extern_kernels.convolution(buf3, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 4, 4, 4), (64, 16, 4, 1)) buf5 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf8 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) triton_per_fused_native_group_norm_relu_0[grid(16)](buf4, primals_5, primals_6, buf5, buf9, buf8, 16, 16, XBLOCK=8, num_warps=2, num_stages=1) del primals_6 buf10 = extern_kernels.convolution(buf9, primals_7, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf10, (4, 4, 4, 4), (64, 16, 4, 1)) buf11 = buf10 del buf10 triton_poi_fused_add_1[grid(256)](buf11, primals_1, 256, XBLOCK=128, num_warps=4, num_stages=1) return (buf11, primals_1, primals_4, primals_5, primals_7, buf3, buf4, reinterpret_tensor(buf5, (4, 4), (4, 1), 0), reinterpret_tensor( buf8, (4, 4), (4, 1), 0), buf9, reinterpret_tensor(buf0, (4, 4, 1), (4, 1, 1), 0), reinterpret_tensor(buf12, (4, 4, 1), (4, 1, 1), 0)) def conv3x3(in_planes, out_planes, stride=1): """3x3 convolution with padding""" return nn.Conv2d(in_planes, out_planes, kernel_size=3, stride=stride, padding=1, bias=False) def norm(dim): return nn.GroupNorm(min(32, dim), dim) class ResBlockNew(nn.Module): expansion = 1 def __init__(self, inplanes, planes, stride=1, downsample=None): super(ResBlockNew, self).__init__() self.norm1 = norm(inplanes) self.relu = nn.ReLU(inplace=True) self.downsample = downsample self.conv1 = conv3x3(inplanes, planes, stride) self.norm2 = norm(planes) self.conv2 = conv3x3(planes, planes) def forward(self, input_0): primals_2 = self.norm1.weight primals_3 = self.norm1.bias primals_4 = self.conv1.weight primals_5 = self.norm2.weight primals_6 = self.norm2.bias primals_7 = self.conv2.weight primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	BoyanJIANG/4D-Compositional-Representation	ResBlock	false	7,823	[ "Apache-2.0" ]	12	64d5f4bbd6b8e6bc3bfd8f76736f6d468c71a73c	https://github.com/BoyanJIANG/4D-Compositional-Representation/tree/64d5f4bbd6b8e6bc3bfd8f76736f6d468c71a73c	import torch from torch import nn def conv3x3(in_planes, out_planes, stride=1): """3x3 convolution with padding""" return nn.Conv2d(in_planes, out_planes, kernel_size=3, stride=stride, padding=1, bias=False) def norm(dim): return nn.GroupNorm(min(32, dim), dim) class Model(nn.Module): expansion = 1 def __init__(self, inplanes, planes, stride=1, downsample=None): super().__init__() self.norm1 = norm(inplanes) self.relu = nn.ReLU(inplace=True) self.downsample = downsample self.conv1 = conv3x3(inplanes, planes, stride) self.norm2 = norm(planes) self.conv2 = conv3x3(planes, planes) def forward(self, x): shortcut = x out = self.relu(self.norm1(x)) if self.downsample is not None: shortcut = self.downsample(out) out = self.conv1(out) out = self.norm2(out) out = self.relu(out) out = self.conv2(out) return out + shortcut def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
convblock	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/cl/ccllfctpd4ckwafnag7te376zg6555uza7cqietw7eymxpdojgfp.py # Topologically Sorted Source Nodes: [x, x_1, x_2], Original ATen: [aten.convolution, aten._native_batch_norm_legit, aten.leaky_relu, aten.leaky_relu_backward] # Source node to ATen node mapping: # x => convolution # x_1 => add, rsqrt, var_mean # x_2 => gt, mul_1, where # Graph fragment: # %convolution : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [4, 4], [1, 1], False, [0, 0], 1), kwargs = {}) # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view, [0, 2, 3]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=2] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%view_1, 0), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, 0.2), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %view_1, %mul_1), kwargs = {}) # %gt_1 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%view_8, 0), kwargs = {}) triton_per_fused__native_batch_norm_legit_convolution_leaky_relu_leaky_relu_backward_0 = async_compile.triton('triton_per_fused__native_batch_norm_legit_convolution_leaky_relu_leaky_relu_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 128], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'i1', 5: 'fp32', 6: 'i32', 7: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused__native_batch_norm_legit_convolution_leaky_relu_leaky_relu_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 4, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused__native_batch_norm_legit_convolution_leaky_relu_leaky_relu_backward_0(in_out_ptr0, in_ptr0, out_ptr0, out_ptr2, out_ptr3, out_ptr4, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 81 RBLOCK: tl.constexpr = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = rindex < rnumel r2 = rindex x3 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (r2 + (81x3)), rmask & xmask, other=0.0) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tmp5 = tl.where(rmask & xmask, tmp3, 0) tmp6 = tl.broadcast_to(tmp3, [XBLOCK, RBLOCK]) tmp8 = tl.where(rmask & xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 81, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp3 - tmp12 tmp14 = tmp13 tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(rmask & xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = tmp2 - tmp12 tmp20 = 81.0 tmp21 = tmp18 / tmp20 tmp22 = 1e-05 tmp23 = tmp21 + tmp22 tmp24 = libdevice.rsqrt(tmp23) tmp25 = tmp19 * tmp24 tmp26 = 0.0 tmp27 = tmp25 > tmp26 tmp28 = 0.2 tmp29 = tmp25 * tmp28 tmp30 = tl.where(tmp27, tmp25, tmp29) tmp31 = tmp30 > tmp26 tl.store(in_out_ptr0 + (r2 + (81x3)), tmp2, rmask & xmask) tl.store(out_ptr2 + (r2 + (81x3)), tmp30, rmask & xmask) tl.store(out_ptr3 + (r2 + (81*x3)), tmp31, rmask & xmask) tl.store(out_ptr4 + (x3), tmp24, xmask) tl.store(out_ptr0 + (x3), tmp12, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(4, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 9, 9), (324, 81, 9, 1)) buf1 = buf0; del buf0 # reuse buf2 = empty_strided_cuda((1, 16, 1, 1), (16, 1, 16, 16), torch.float32) buf6 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.float32) buf7 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.bool) buf5 = empty_strided_cuda((1, 16, 1, 1), (16, 1, 16, 16), torch.float32) # Topologically Sorted Source Nodes: [x, x_1, x_2], Original ATen: [aten.convolution, aten._native_batch_norm_legit, aten.leaky_relu, aten.leaky_relu_backward] stream0 = get_raw_stream(0) triton_per_fused__native_batch_norm_legit_convolution_leaky_relu_leaky_relu_backward_0.run(buf1, primals_2, buf2, buf6, buf7, buf5, 16, 81, grid=grid(16), stream=stream0) del primals_2 return (buf6, primals_1, primals_3, buf1, reinterpret_tensor(buf5, (16, ), (1, ), 0), buf7, reinterpret_tensor(buf2, (1, 16, 1, 1), (16, 1, 1, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class AdaptiveInstanceNorm2d(nn.Module): def __init__(self, num_features, eps=1e-05, momentum=0.1): super(AdaptiveInstanceNorm2d, self).__init__() self.num_features = num_features self.eps = eps self.momentum = momentum self.weight = None self.bias = None self.register_buffer('running_mean', torch.zeros(num_features)) self.register_buffer('running_var', torch.ones(num_features)) def forward(self, x): assert self.weight is not None and self.bias is not None, 'Please assign weight and bias before calling AdaIN!' b, c = x.size(0), x.size(1) running_mean = self.running_mean.repeat(b) running_var = self.running_var.repeat(b) x_reshaped = x.contiguous().view(1, b * c, x.size()[2:]) out = F.batch_norm(x_reshaped, running_mean, running_var, self. weight, self.bias, True, self.momentum, self.eps) return out.view(b, c, x.size()[2:]) def __repr__(self): return self.__class__.__name__ + '(' + str(self.num_features) + ')' class convblock(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, stride, padding, norm='in'): super(convblock, self).__init__() self.conv = nn.Conv2d(input_dim, output_dim, kernel_size, stride, padding) if norm == 'bn': self.norm = nn.BatchNorm2d(output_dim) elif norm == 'in': self.norm = nn.InstanceNorm2d(output_dim) elif norm == 'adain': self.norm = AdaptiveInstanceNorm2d(output_dim) self.activation = nn.LeakyReLU(0.2, inplace=True) def forward(self, x): x = self.conv(x) x = self.norm(x) x = self.activation(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'output_dim': 4, 'kernel_size': 4, 'stride': 1, 'padding': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.nn as nn import torch.nn.functional as F assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_per_fused__native_batch_norm_legit_convolution_leaky_relu_leaky_relu_backward_0( in_out_ptr0, in_ptr0, out_ptr0, out_ptr2, out_ptr3, out_ptr4, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 rnumel = 81 RBLOCK: tl.constexpr = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] rmask = rindex < rnumel r2 = rindex x3 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (r2 + 81 * x3), rmask & xmask, other=0.0) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tl.where(rmask & xmask, tmp3, 0) tmp6 = tl.broadcast_to(tmp3, [XBLOCK, RBLOCK]) tmp8 = tl.where(rmask & xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 81, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp3 - tmp12 tmp14 = tmp13 * tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(rmask & xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = tmp2 - tmp12 tmp20 = 81.0 tmp21 = tmp18 / tmp20 tmp22 = 1e-05 tmp23 = tmp21 + tmp22 tmp24 = libdevice.rsqrt(tmp23) tmp25 = tmp19 * tmp24 tmp26 = 0.0 tmp27 = tmp25 > tmp26 tmp28 = 0.2 tmp29 = tmp25 * tmp28 tmp30 = tl.where(tmp27, tmp25, tmp29) tmp31 = tmp30 > tmp26 tl.store(in_out_ptr0 + (r2 + 81 * x3), tmp2, rmask & xmask) tl.store(out_ptr2 + (r2 + 81 * x3), tmp30, rmask & xmask) tl.store(out_ptr3 + (r2 + 81 * x3), tmp31, rmask & xmask) tl.store(out_ptr4 + x3, tmp24, xmask) tl.store(out_ptr0 + x3, tmp12, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(4, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 9, 9), (324, 81, 9, 1)) buf1 = buf0 del buf0 buf2 = empty_strided_cuda((1, 16, 1, 1), (16, 1, 16, 16), torch.float32 ) buf6 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.float32) buf7 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.bool) buf5 = empty_strided_cuda((1, 16, 1, 1), (16, 1, 16, 16), torch.float32 ) get_raw_stream(0) triton_per_fused__native_batch_norm_legit_convolution_leaky_relu_leaky_relu_backward_0[ grid(16)](buf1, primals_2, buf2, buf6, buf7, buf5, 16, 81, XBLOCK=1, num_warps=2, num_stages=1) del primals_2 return buf6, primals_1, primals_3, buf1, reinterpret_tensor(buf5, (16,), (1,), 0), buf7, reinterpret_tensor(buf2, (1, 16, 1, 1), (16, 1, 1, 1), 0) class AdaptiveInstanceNorm2d(nn.Module): def __init__(self, num_features, eps=1e-05, momentum=0.1): super(AdaptiveInstanceNorm2d, self).__init__() self.num_features = num_features self.eps = eps self.momentum = momentum self.weight = None self.bias = None self.register_buffer('running_mean', torch.zeros(num_features)) self.register_buffer('running_var', torch.ones(num_features)) def forward(self, x): assert self.weight is not None and self.bias is not None, 'Please assign weight and bias before calling AdaIN!' b, c = x.size(0), x.size(1) running_mean = self.running_mean.repeat(b) running_var = self.running_var.repeat(b) x_reshaped = x.contiguous().view(1, b * c, x.size()[2:]) out = F.batch_norm(x_reshaped, running_mean, running_var, self. weight, self.bias, True, self.momentum, self.eps) return out.view(b, c, x.size()[2:]) def __repr__(self): return self.__class__.__name__ + '(' + str(self.num_features) + ')' class convblockNew(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, stride, padding, norm='in'): super(convblockNew, self).__init__() self.conv = nn.Conv2d(input_dim, output_dim, kernel_size, stride, padding) if norm == 'bn': self.norm = nn.BatchNorm2d(output_dim) elif norm == 'in': self.norm = nn.InstanceNorm2d(output_dim) elif norm == 'adain': self.norm = AdaptiveInstanceNorm2d(output_dim) self.activation = nn.LeakyReLU(0.2, inplace=True) def forward(self, input_0): primals_1 = self.conv.weight primals_2 = self.conv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	BradyFU/DVG-Face	convblock	false	7,824	[ "MIT" ]	33	16d51fe7da6e4a52d144e938afb3072eb8e4e8de	https://github.com/BradyFU/DVG-Face/tree/16d51fe7da6e4a52d144e938afb3072eb8e4e8de	import torch import torch.nn as nn import torch.nn.functional as F class AdaptiveInstanceNorm2d(nn.Module): def __init__(self, num_features, eps=1e-05, momentum=0.1): super().__init__() self.num_features = num_features self.eps = eps self.momentum = momentum self.weight = None self.bias = None self.register_buffer('running_mean', torch.zeros(num_features)) self.register_buffer('running_var', torch.ones(num_features)) def forward(self, x): assert self.weight is not None and self.bias is not None, 'Please assign weight and bias before calling AdaIN!' b, c = x.size(0), x.size(1) running_mean = self.running_mean.repeat(b) running_var = self.running_var.repeat(b) x_reshaped = x.contiguous().view(1, b * c, x.size()[2:]) out = F.batch_norm(x_reshaped, running_mean, running_var, self. weight, self.bias, True, self.momentum, self.eps) return out.view(b, c, x.size()[2:]) def __repr__(self): return self.__class__.__name__ + '(' + str(self.num_features) + ')' class Model(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, stride, padding, norm='in'): super().__init__() self.conv = nn.Conv2d(input_dim, output_dim, kernel_size, stride, padding) if norm == 'bn': self.norm = nn.BatchNorm2d(output_dim) elif norm == 'in': self.norm = nn.InstanceNorm2d(output_dim) elif norm == 'adain': self.norm = AdaptiveInstanceNorm2d(output_dim) self.activation = nn.LeakyReLU(0.2, inplace=True) def forward(self, x): x = self.conv(x) x = self.norm(x) x = self.activation(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'output_dim': 4, 'kernel_size': 4, 'stride': 1, 'padding': 4}]
SirenLayer	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/o7/co7af2xesxseewpmo35vo2e5yidxka6ep4ewxm24wiummfjhkrtl.py # Topologically Sorted Source Nodes: [mul, sin], Original ATen: [aten.mul, aten.sin] # Source node to ATen node mapping: # mul => mul # sin => sin # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, 30), kwargs = {}) # %sin : [num_users=1] = call_function[target=torch.ops.aten.sin.default](args = (%mul,), kwargs = {}) triton_poi_fused_mul_sin_0 = async_compile.triton('triton_poi_fused_mul_sin_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_sin_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_sin_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = 30.0 tmp2 = tmp0 * tmp1 tmp3 = tl_math.sin(tmp2) tl.store(out_ptr0 + (x0), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.addmm] extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf0) del primals_1 del primals_2 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, sin], Original ATen: [aten.mul, aten.sin] stream0 = get_raw_stream(0) triton_poi_fused_mul_sin_0.run(buf0, buf1, 256, grid=grid(256), stream=stream0) return (buf1, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import numpy as np import torch.nn as nn class SirenLayer(nn.Module): def __init__(self, in_f, out_f, w0=30, is_first=False, is_last=False): super().__init__() self.in_f = in_f self.w0 = w0 self.linear = nn.Linear(in_f, out_f) self.is_first = is_first self.is_last = is_last self.init_weights() def init_weights(self): b = 1 / self.in_f if self.is_first else np.sqrt(6 / self.in_f ) / self.w0 with torch.no_grad(): self.linear.weight.uniform_(-b, b) def forward(self, x): x = self.linear(x) return x if self.is_last else torch.sin(self.w0 * x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_f': 4, 'out_f': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import math as tl_math import numpy as np import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_mul_sin_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = 30.0 tmp2 = tmp0 * tmp1 tmp3 = tl_math.sin(tmp2) tl.store(out_ptr0 + x0, tmp3, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4), (1, 4), 0 ), alpha=1, beta=1, out=buf0) del primals_1 del primals_2 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_sin_0[grid(256)](buf0, buf1, 256, XBLOCK=128, num_warps=4, num_stages=1) return buf1, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf0 class SirenLayerNew(nn.Module): def __init__(self, in_f, out_f, w0=30, is_first=False, is_last=False): super().__init__() self.in_f = in_f self.w0 = w0 self.linear = nn.Linear(in_f, out_f) self.is_first = is_first self.is_last = is_last self.init_weights() def init_weights(self): b = 1 / self.in_f if self.is_first else np.sqrt(6 / self.in_f ) / self.w0 with torch.no_grad(): self.linear.weight.uniform_(-b, b) def forward(self, input_0): primals_1 = self.linear.weight primals_2 = self.linear.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	BoyuanChen/neural-state-variables	SirenLayer	false	7,825	[ "MIT" ]	17	10483d93ac8c006f3786c434fb57d70d9ab465ec	https://github.com/BoyuanChen/neural-state-variables/tree/10483d93ac8c006f3786c434fb57d70d9ab465ec	import torch import numpy as np import torch.nn as nn class Model(nn.Module): def __init__(self, in_f, out_f, w0=30, is_first=False, is_last=False): super().__init__() self.in_f = in_f self.w0 = w0 self.linear = nn.Linear(in_f, out_f) self.is_first = is_first self.is_last = is_last self.init_weights() def init_weights(self): b = 1 / self.in_f if self.is_first else np.sqrt(6 / self.in_f ) / self.w0 with torch.no_grad(): self.linear.weight.uniform_(-b, b) def forward(self, x): x = self.linear(x) return x if self.is_last else torch.sin(self.w0 * x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
ConstantODE	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/mq/cmq3qklb7ci7hbtgehl2cuwis26edsnlyu64j7tvd3eips42vmsi.py # Topologically Sorted Source Nodes: [mul, add, sub, pow_1, add_1], Original ATen: [aten.mul, aten.add, aten.sub, aten.pow] # Source node to ATen node mapping: # add => add # add_1 => add_1 # mul => mul # pow_1 => pow_1 # sub => sub # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, %primals_2), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %primals_3), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_4, %add), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 5), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_1, %pow_1), kwargs = {}) triton_poi_fused_add_mul_pow_sub_0 = async_compile.triton('triton_poi_fused_add_mul_pow_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_mul_pow_sub_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_mul_pow_sub_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (0)) tmp1 = tl.broadcast_to(tmp0, [XBLOCK]) tmp2 = tl.load(in_ptr1 + (x0), xmask) tmp3 = tl.load(in_ptr2 + (x0), xmask) tmp5 = tl.load(in_ptr3 + (0)) tmp6 = tl.broadcast_to(tmp5, [XBLOCK]) tmp4 = tmp1 * tmp3 tmp7 = tmp4 + tmp6 tmp8 = tmp2 - tmp7 tmp9 = tmp8 * tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp10 * tmp8 tmp12 = tmp1 + tmp11 tl.store(out_ptr0 + (x0), tmp12, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (), ()) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (), ()) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, add, sub, pow_1, add_1], Original ATen: [aten.mul, aten.add, aten.sub, aten.pow] stream0 = get_raw_stream(0) triton_poi_fused_add_mul_pow_sub_0.run(primals_1, primals_4, primals_2, primals_3, buf0, 256, grid=grid(256), stream=stream0) return (buf0, primals_1, primals_2, primals_3, primals_4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((), (), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((), (), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch class ConstantODE(torch.nn.Module): def __init__(self, device): super(ConstantODE, self).__init__() self.a = torch.nn.Parameter(torch.tensor(0.2)) self.b = torch.nn.Parameter(torch.tensor(3.0)) def forward(self, t, y): return self.a + (y - (self.a * t + self.b)) ** 5 def y_exact(self, t): return self.a * t + self.b def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'device': 0}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_mul_pow_sub_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK]) tmp2 = tl.load(in_ptr1 + x0, xmask) tmp3 = tl.load(in_ptr2 + x0, xmask) tmp5 = tl.load(in_ptr3 + 0) tmp6 = tl.broadcast_to(tmp5, [XBLOCK]) tmp4 = tmp1 * tmp3 tmp7 = tmp4 + tmp6 tmp8 = tmp2 - tmp7 tmp9 = tmp8 * tmp8 tmp10 = tmp9 * tmp9 tmp11 = tmp10 * tmp8 tmp12 = tmp1 + tmp11 tl.store(out_ptr0 + x0, tmp12, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (), ()) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (), ()) assert_size_stride(primals_4, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_mul_pow_sub_0[grid(256)](primals_1, primals_4, primals_2, primals_3, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) return buf0, primals_1, primals_2, primals_3, primals_4 class ConstantODENew(torch.nn.Module): def __init__(self, device): super(ConstantODENew, self).__init__() self.a = torch.nn.Parameter(torch.tensor(0.2)) self.b = torch.nn.Parameter(torch.tensor(3.0)) def y_exact(self, t): return self.a * t + self.b def forward(self, input_0, input_1): primals_1 = self.a primals_3 = self.b primals_2 = input_0 primals_4 = input_1 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	BoyanJIANG/4D-Compositional-Representation	ConstantODE	false	7,826	[ "Apache-2.0" ]	12	64d5f4bbd6b8e6bc3bfd8f76736f6d468c71a73c	https://github.com/BoyanJIANG/4D-Compositional-Representation/tree/64d5f4bbd6b8e6bc3bfd8f76736f6d468c71a73c	import torch class Model(torch.nn.Module): def __init__(self, device): super().__init__() self.a = torch.nn.Parameter(torch.tensor(0.2)) self.b = torch.nn.Parameter(torch.tensor(3.0)) def forward(self, t, y): return self.a + (y - (self.a * t + self.b)) ** 5 def y_exact(self, t): return self.a * t + self.b def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [0]
LatentPredModel	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/mq/cmqm3suuynnwkfqoknn7pebys5fdi25dk6nzx35cuywydel6rhnu.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %le_4 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_relu_threshold_backward_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[2048], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 2048 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 32 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, None) tl.store(out_ptr0 + (x2), tmp6, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/zz/czzrxxhl2o4ccklbrp6azx2d2wvxkahfwpcwuzllbsuzdoz3ea5k.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x_1 => relu_1 # Graph fragment: # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_3,), kwargs = {}) # %le_3 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_1, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_1 = async_compile.triton('triton_poi_fused_relu_threshold_backward_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4096 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_out_ptr0 + (x2), None) tmp1 = tl.load(in_ptr0 + (x0), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, None) tl.store(out_ptr0 + (x2), tmp6, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13 = args args.clear() assert_size_stride(primals_1, (32, 4), (4, 1)) assert_size_stride(primals_2, (32, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (64, 32), (32, 1)) assert_size_stride(primals_5, (64, ), (1, )) assert_size_stride(primals_6, (64, 64), (64, 1)) assert_size_stride(primals_7, (64, ), (1, )) assert_size_stride(primals_8, (64, 64), (64, 1)) assert_size_stride(primals_9, (64, ), (1, )) assert_size_stride(primals_10, (32, 64), (64, 1)) assert_size_stride(primals_11, (32, ), (1, )) assert_size_stride(primals_12, (4, 32), (32, 1)) assert_size_stride(primals_13, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 32), (32, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 32), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 32), (512, 128, 32, 1), 0); del buf0 # reuse buf15 = empty_strided_cuda((4, 4, 4, 32), (512, 128, 32, 1), torch.bool) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_2, buf15, 2048, grid=grid(2048), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 64), (64, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (64, 32), (32, 1), 0), reinterpret_tensor(primals_4, (32, 64), (1, 32), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 64), (1024, 256, 64, 1), 0); del buf2 # reuse buf14 = empty_strided_cuda((4, 4, 4, 64), (1024, 256, 64, 1), torch.bool) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_1.run(buf3, primals_5, buf14, 4096, grid=grid(4096), stream=stream0) del primals_5 buf4 = empty_strided_cuda((64, 64), (64, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf3, (64, 64), (64, 1), 0), reinterpret_tensor(primals_6, (64, 64), (1, 64), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 64), (1024, 256, 64, 1), 0); del buf4 # reuse buf13 = empty_strided_cuda((4, 4, 4, 64), (1024, 256, 64, 1), torch.bool) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_1.run(buf5, primals_7, buf13, 4096, grid=grid(4096), stream=stream0) del primals_7 buf6 = empty_strided_cuda((64, 64), (64, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf5, (64, 64), (64, 1), 0), reinterpret_tensor(primals_8, (64, 64), (1, 64), 0), out=buf6) buf7 = reinterpret_tensor(buf6, (4, 4, 4, 64), (1024, 256, 64, 1), 0); del buf6 # reuse buf12 = empty_strided_cuda((4, 4, 4, 64), (1024, 256, 64, 1), torch.bool) # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_1.run(buf7, primals_9, buf12, 4096, grid=grid(4096), stream=stream0) del primals_9 buf8 = empty_strided_cuda((64, 32), (32, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf7, (64, 64), (64, 1), 0), reinterpret_tensor(primals_10, (64, 32), (1, 64), 0), out=buf8) buf9 = reinterpret_tensor(buf8, (4, 4, 4, 32), (512, 128, 32, 1), 0); del buf8 # reuse buf11 = empty_strided_cuda((4, 4, 4, 32), (512, 128, 32, 1), torch.bool) # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_0.run(buf9, primals_11, buf11, 2048, grid=grid(2048), stream=stream0) del primals_11 buf10 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.addmm] extern_kernels.addmm(primals_13, reinterpret_tensor(buf9, (64, 32), (32, 1), 0), reinterpret_tensor(primals_12, (32, 4), (1, 32), 0), alpha=1, beta=1, out=buf10) del primals_13 return (reinterpret_tensor(buf10, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 32), (32, 1), 0), reinterpret_tensor(buf3, (64, 64), (64, 1), 0), reinterpret_tensor(buf5, (64, 64), (64, 1), 0), reinterpret_tensor(buf7, (64, 64), (64, 1), 0), reinterpret_tensor(buf9, (64, 32), (32, 1), 0), primals_12, buf11, primals_10, buf12, primals_8, buf13, primals_6, buf14, primals_4, buf15, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((32, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((64, 32), (32, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((64, 64), (64, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((64, 64), (64, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((32, 64), (64, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((4, 32), (32, 1), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class LatentPredModel(torch.nn.Module): def __init__(self, in_channels): super(LatentPredModel, self).__init__() self.layer1 = nn.Linear(in_channels, 32) self.relu1 = nn.ReLU() self.layer2 = nn.Linear(32, 64) self.relu2 = nn.ReLU() self.layer3 = nn.Linear(64, 64) self.relu3 = nn.ReLU() self.layer4 = nn.Linear(64, 64) self.relu4 = nn.ReLU() self.layer5 = nn.Linear(64, 32) self.relu5 = nn.ReLU() self.layer6 = nn.Linear(32, in_channels) def forward(self, x): x = self.relu1(self.layer1(x)) x = self.relu2(self.layer2(x)) x = self.relu3(self.layer3(x)) x = self.relu4(self.layer4(x)) x = self.relu5(self.layer5(x)) x = self.layer6(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_threshold_backward_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 32 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, None) tl.store(out_ptr0 + x2, tmp6, None) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] tl.full([XBLOCK], True, tl.int1) x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_out_ptr0 + x2, None) tmp1 = tl.load(in_ptr0 + x0, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, None) tl.store(out_ptr0 + x2, tmp6, None) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13) = args args.clear() assert_size_stride(primals_1, (32, 4), (4, 1)) assert_size_stride(primals_2, (32,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (64, 32), (32, 1)) assert_size_stride(primals_5, (64,), (1,)) assert_size_stride(primals_6, (64, 64), (64, 1)) assert_size_stride(primals_7, (64,), (1,)) assert_size_stride(primals_8, (64, 64), (64, 1)) assert_size_stride(primals_9, (64,), (1,)) assert_size_stride(primals_10, (32, 64), (64, 1)) assert_size_stride(primals_11, (32,), (1,)) assert_size_stride(primals_12, (4, 32), (32, 1)) assert_size_stride(primals_13, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 32), (32, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 32), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 32), (512, 128, 32, 1), 0) del buf0 buf15 = empty_strided_cuda((4, 4, 4, 32), (512, 128, 32, 1), torch.bool ) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(2048)](buf1, primals_2, buf15, 2048, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 64), (64, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 32), (32, 1), 0), reinterpret_tensor(primals_4, (32, 64), (1, 32), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 64), (1024, 256, 64, 1), 0) del buf2 buf14 = empty_strided_cuda((4, 4, 4, 64), (1024, 256, 64, 1), torch .bool) triton_poi_fused_relu_threshold_backward_1[grid(4096)](buf3, primals_5, buf14, 4096, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf4 = empty_strided_cuda((64, 64), (64, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf3, (64, 64), (64, 1), 0), reinterpret_tensor(primals_6, (64, 64), (1, 64), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 64), (1024, 256, 64, 1), 0) del buf4 buf13 = empty_strided_cuda((4, 4, 4, 64), (1024, 256, 64, 1), torch .bool) triton_poi_fused_relu_threshold_backward_1[grid(4096)](buf5, primals_7, buf13, 4096, XBLOCK=128, num_warps=4, num_stages=1) del primals_7 buf6 = empty_strided_cuda((64, 64), (64, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf5, (64, 64), (64, 1), 0), reinterpret_tensor(primals_8, (64, 64), (1, 64), 0), out=buf6) buf7 = reinterpret_tensor(buf6, (4, 4, 4, 64), (1024, 256, 64, 1), 0) del buf6 buf12 = empty_strided_cuda((4, 4, 4, 64), (1024, 256, 64, 1), torch .bool) triton_poi_fused_relu_threshold_backward_1[grid(4096)](buf7, primals_9, buf12, 4096, XBLOCK=128, num_warps=4, num_stages=1) del primals_9 buf8 = empty_strided_cuda((64, 32), (32, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf7, (64, 64), (64, 1), 0), reinterpret_tensor(primals_10, (64, 32), (1, 64), 0), out=buf8) buf9 = reinterpret_tensor(buf8, (4, 4, 4, 32), (512, 128, 32, 1), 0) del buf8 buf11 = empty_strided_cuda((4, 4, 4, 32), (512, 128, 32, 1), torch.bool ) triton_poi_fused_relu_threshold_backward_0[grid(2048)](buf9, primals_11, buf11, 2048, XBLOCK=128, num_warps=4, num_stages=1) del primals_11 buf10 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_13, reinterpret_tensor(buf9, (64, 32), (32, 1), 0), reinterpret_tensor(primals_12, (32, 4), (1, 32), 0 ), alpha=1, beta=1, out=buf10) del primals_13 return (reinterpret_tensor(buf10, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 32), (32, 1), 0), reinterpret_tensor( buf3, (64, 64), (64, 1), 0), reinterpret_tensor(buf5, (64, 64), (64, 1), 0), reinterpret_tensor(buf7, (64, 64), (64, 1), 0), reinterpret_tensor(buf9, (64, 32), (32, 1), 0), primals_12, buf11, primals_10, buf12, primals_8, buf13, primals_6, buf14, primals_4, buf15 ) class LatentPredModelNew(torch.nn.Module): def __init__(self, in_channels): super(LatentPredModelNew, self).__init__() self.layer1 = nn.Linear(in_channels, 32) self.relu1 = nn.ReLU() self.layer2 = nn.Linear(32, 64) self.relu2 = nn.ReLU() self.layer3 = nn.Linear(64, 64) self.relu3 = nn.ReLU() self.layer4 = nn.Linear(64, 64) self.relu4 = nn.ReLU() self.layer5 = nn.Linear(64, 32) self.relu5 = nn.ReLU() self.layer6 = nn.Linear(32, in_channels) def forward(self, input_0): primals_1 = self.layer1.weight primals_2 = self.layer1.bias primals_4 = self.layer2.weight primals_5 = self.layer2.bias primals_6 = self.layer3.weight primals_7 = self.layer3.bias primals_8 = self.layer4.weight primals_9 = self.layer4.bias primals_10 = self.layer5.weight primals_11 = self.layer5.bias primals_12 = self.layer6.weight primals_13 = self.layer6.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12, primals_13]) return output[0]	BoyuanChen/neural-state-variables	LatentPredModel	false	7,827	[ "MIT" ]	17	10483d93ac8c006f3786c434fb57d70d9ab465ec	https://github.com/BoyuanChen/neural-state-variables/tree/10483d93ac8c006f3786c434fb57d70d9ab465ec	import torch import torch.nn as nn class Model(torch.nn.Module): def __init__(self, in_channels): super().__init__() self.layer1 = nn.Linear(in_channels, 32) self.relu1 = nn.ReLU() self.layer2 = nn.Linear(32, 64) self.relu2 = nn.ReLU() self.layer3 = nn.Linear(64, 64) self.relu3 = nn.ReLU() self.layer4 = nn.Linear(64, 64) self.relu4 = nn.ReLU() self.layer5 = nn.Linear(64, 32) self.relu5 = nn.ReLU() self.layer6 = nn.Linear(32, in_channels) def forward(self, x): x = self.relu1(self.layer1(x)) x = self.relu2(self.layer2(x)) x = self.relu3(self.layer3(x)) x = self.relu4(self.layer4(x)) x = self.relu5(self.layer5(x)) x = self.layer6(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4]
GatedConv2d	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/3e/c3et5k7md2gz6cf4fno7jcqmnvp4xfkrafawd527dqvose27ftk7.py # Topologically Sorted Source Nodes: [temps], Original ATen: [aten.convolution] # Source node to ATen node mapping: # temps => convolution # Graph fragment: # %convolution : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [4, 4], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_0 = async_compile.triton('triton_poi_fused_convolution_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[4096], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 2592 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 81) % 8 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + (x3), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/go/cgobmxsufiw5zxvuig5xzi3dwum5saxc4ndmiekozgy7afvjlrew.py # Topologically Sorted Source Nodes: [outputs], Original ATen: [aten.glu] # Source node to ATen node mapping: # outputs => glu # Graph fragment: # %glu : [num_users=1] = call_function[target=torch.ops.aten.glu.default](args = (%convolution, 1), kwargs = {}) triton_poi_fused_glu_1 = async_compile.triton('triton_poi_fused_glu_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[2048], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_glu_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_glu_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1296 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 324 x1 = (xindex // 324) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (648x1)), xmask) tmp1 = tl.load(in_ptr0 + (324 + x0 + (648x1)), xmask) tmp2 = tl.sigmoid(tmp1) tmp3 = tmp0 * tmp2 tl.store(out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (8, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (8, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [temps], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(4, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 8, 9, 9), (648, 81, 9, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [temps], Original ATen: [aten.convolution] stream0 = get_raw_stream(0) triton_poi_fused_convolution_0.run(buf1, primals_2, 2592, grid=grid(2592), stream=stream0) del primals_2 buf2 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.float32) # Topologically Sorted Source Nodes: [outputs], Original ATen: [aten.glu] triton_poi_fused_glu_1.run(buf1, buf2, 1296, grid=grid(1296), stream=stream0) return (buf2, primals_1, primals_3, buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((8, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn from torch.nn import functional as F import torch.utils import torch.distributions class GatedConv2d(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding, dilation=1): super(GatedConv2d, self).__init__() self.conv = nn.Conv2d(in_channels, 2 * out_channels, kernel_size, stride, padding, dilation) def forward(self, inputs): temps = self.conv(inputs) outputs = F.glu(temps, dim=1) return outputs def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4, 'stride': 1, 'padding': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch import nn import torch.utils import torch.distributions assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 2592 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 81 % 8 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(in_out_ptr0 + x3, tmp2, xmask) @triton.jit def triton_poi_fused_glu_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 1296 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 324 x1 = xindex // 324 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 648 * x1), xmask) tmp1 = tl.load(in_ptr0 + (324 + x0 + 648 * x1), xmask) tmp2 = tl.sigmoid(tmp1) tmp3 = tmp0 * tmp2 tl.store(out_ptr0 + x2, tmp3, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (8, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (8,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(4, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 8, 9, 9), (648, 81, 9, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_0[grid(2592)](buf1, primals_2, 2592, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((4, 4, 9, 9), (324, 81, 9, 1), torch.float32) triton_poi_fused_glu_1[grid(1296)](buf1, buf2, 1296, XBLOCK=128, num_warps=4, num_stages=1) return buf2, primals_1, primals_3, buf1 class GatedConv2dNew(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding, dilation=1): super(GatedConv2dNew, self).__init__() self.conv = nn.Conv2d(in_channels, 2 * out_channels, kernel_size, stride, padding, dilation) def forward(self, input_0): primals_1 = self.conv.weight primals_2 = self.conv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	Butters-cloud/denoising-normalizing-flow	GatedConv2d	false	7,828	[ "MIT" ]	12	12d56a0d069e10a744acabf5e78fdbfba8df54ee	https://github.com/Butters-cloud/denoising-normalizing-flow/tree/12d56a0d069e10a744acabf5e78fdbfba8df54ee	import torch from torch import nn from torch.nn import functional as F import torch.utils import torch.distributions class Model(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, stride, padding, dilation=1): super().__init__() self.conv = nn.Conv2d(in_channels, 2 * out_channels, kernel_size, stride, padding, dilation) def forward(self, inputs): temps = self.conv(inputs) outputs = F.glu(temps, dim=1) return outputs def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4, 'kernel_size': 4, 'stride': 1, 'padding': 4}]
GlobalAttention	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/wz/cwzlgmghy6nxuchbiog4puo46i4tq7yhd3qu6ftkgjf3gwib6hxn.py # Topologically Sorted Source Nodes: [align_vectors], Original ATen: [aten._softmax] # Source node to ATen node mapping: # align_vectors => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_0 = async_compile.triton('triton_poi_fused__softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/yh/cyhf6bhaqimi2pucos5fnrpvhrt4vuaetbxnooyr5pvgjt7s6fgo.py # Topologically Sorted Source Nodes: [align_vectors], Original ATen: [aten._softmax] # Source node to ATen node mapping: # align_vectors => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [-1], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_1 = async_compile.triton('triton_poi_fused__softmax_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ph/cph7lssg6ok5pn3rbmbprurourgd72q6n57v7b4qu2gqs3wcxbt7.py # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%bmm_1, %primals_1], 2), kwargs = {}) triton_poi_fused_cat_2 = async_compile.triton('triton_poi_fused_cat_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = (xindex // 8) x2 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x1) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + ((4x1) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x2), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/5n/c5nzoru25qhqsfq2ae2hsnhwroe2und6kjr6h7td35tqeg7qekch.py # Topologically Sorted Source Nodes: [attn_h_2], Original ATen: [aten.clone] # Source node to ATen node mapping: # attn_h_2 => clone # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute_2,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_3 = async_compile.triton('triton_poi_fused_clone_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_3(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) % 4 x2 = (xindex // 16) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4x2) + (16x1)), xmask) tmp1 = libdevice.tanh(tmp0) tl.store(out_ptr0 + (x3), tmp1, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/sx/csxt2z4nihjsbxcckhpeiwgke5usifqk6ao5saydggkozmd2prcm.py # Topologically Sorted Source Nodes: [align_vectors_2], Original ATen: [aten.clone] # Source node to ATen node mapping: # align_vectors_2 => clone_1 # Graph fragment: # %clone_1 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute_3,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_4 = async_compile.triton('triton_poi_fused_clone_4', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_4', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_4(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = (xindex // 4) % 4 x2 = (xindex // 16) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4x2) + (16x1)), xmask) tl.store(out_ptr0 + (x3), tmp0, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4, 8), (8, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [align], Original ATen: [aten.bmm] extern_kernels.bmm(primals_1, reinterpret_tensor(primals_2, (4, 4, 4), (16, 1, 4), 0), out=buf0) buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [align_vectors], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(buf0, buf1, 64, grid=grid(64), stream=stream0) buf2 = reinterpret_tensor(buf0, (16, 4), (4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [align_vectors], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf1, buf2, 64, grid=grid(64), stream=stream0) buf3 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [c], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf2, (4, 4, 4), (16, 4, 1), 0), primals_2, out=buf3) del primals_2 buf4 = empty_strided_cuda((4, 4, 8), (32, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] triton_poi_fused_cat_2.run(buf3, primals_1, buf4, 128, grid=grid(128), stream=stream0) del primals_1 buf5 = reinterpret_tensor(buf3, (16, 4), (4, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf4, (16, 8), (8, 1), 0), reinterpret_tensor(primals_3, (8, 4), (1, 8), 0), out=buf5) del primals_3 buf6 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [attn_h_2], Original ATen: [aten.clone] triton_poi_fused_clone_3.run(buf5, buf6, 64, grid=grid(64), stream=stream0) buf7 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [align_vectors_2], Original ATen: [aten.clone] triton_poi_fused_clone_4.run(buf2, buf7, 64, grid=grid(64), stream=stream0) del buf2 return (buf6, buf7, reinterpret_tensor(buf4, (16, 8), (8, 1), 0), buf5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 8), (8, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.distributed import torch import torch.nn as nn import torch.nn.functional as F def sequence_mask(lengths, max_len=None): """ Creates a boolean mask from sequence lengths. """ batch_size = lengths.numel() max_len = max_len or lengths.max() return torch.arange(0, max_len).type_as(lengths).repeat(batch_size, 1).lt( lengths.unsqueeze(1)) class GlobalAttention(nn.Module): """ Global attention takes a matrix and a query vector. It then computes a parameterized convex combination of the matrix based on the input query. Constructs a unit mapping a query `q` of size `dim` and a source matrix `H` of size `n x dim`, to an output of size `dim`. .. mermaid:: graph BT A[Query] subgraph RNN C[H 1] D[H 2] E[H N] end F[Attn] G[Output] A --> F C --> F D --> F E --> F C -.-> G D -.-> G E -.-> G F --> G All models compute the output as :math:`c = sum_{j=1}^{SeqLength} a_j H_j` where :math:`a_j` is the softmax of a score function. Then then apply a projection layer to [q, c]. However they differ on how they compute the attention score. * Luong Attention (dot, general): * dot: :math:`score(H_j,q) = H_j^T q` * general: :math:`score(H_j, q) = H_j^T W_a q` * Bahdanau Attention (mlp): * :math:`score(H_j, q) = v_a^T tanh(W_a q + U_a h_j)` Args: dim (int): dimensionality of query and key coverage (bool): use coverage term attn_type (str): type of attention to use, options [dot,general,mlp] """ def __init__(self, dim, attn_type='dot'): super(GlobalAttention, self).__init__() self.dim = dim assert attn_type in ['dot', 'general', 'mlp' ], 'Please select a valid attention type.' self.attn_type = attn_type if self.attn_type == 'general': self.linear_in = nn.Linear(dim, dim, bias=False) elif self.attn_type == 'mlp': self.linear_context = nn.Linear(dim, dim, bias=False) self.linear_query = nn.Linear(dim, dim, bias=True) self.v = nn.Linear(dim, 1, bias=False) out_bias = self.attn_type == 'mlp' self.linear_out = nn.Linear(dim * 2, dim, bias=out_bias) def score(self, h_t, h_s): """ Args: h_t (`FloatTensor`): sequence of queries `[batch x tgt_len x dim]` h_s (`FloatTensor`): sequence of sources `[batch x src_len x dim]` Returns: :obj:`FloatTensor`: raw attention scores (unnormalized) for each src index `[batch x tgt_len x src_len]` """ src_batch, src_len, _src_dim = h_s.size() tgt_batch, tgt_len, tgt_dim = h_t.size() if self.attn_type in ['general', 'dot']: if self.attn_type == 'general': h_t_ = h_t.view(tgt_batch * tgt_len, tgt_dim) h_t_ = self.linear_in(h_t_) h_t = h_t_.view(tgt_batch, tgt_len, tgt_dim) h_s_ = h_s.transpose(1, 2) return torch.bmm(h_t, h_s_) else: dim = self.dim wq = self.linear_query(h_t.view(-1, dim)) wq = wq.view(tgt_batch, tgt_len, 1, dim) wq = wq.expand(tgt_batch, tgt_len, src_len, dim) uh = self.linear_context(h_s.contiguous().view(-1, dim)) uh = uh.view(src_batch, 1, src_len, dim) uh = uh.expand(src_batch, tgt_len, src_len, dim) wquh = torch.tanh(wq + uh) return self.v(wquh.view(-1, dim)).view(tgt_batch, tgt_len, src_len) def forward(self, source, memory_bank, memory_lengths=None, memory_masks=None): """ Args: source (`FloatTensor`): query vectors `[batch x tgt_len x dim]` memory_bank (`FloatTensor`): source vectors `[batch x src_len x dim]` memory_lengths (`LongTensor`): the source context lengths `[batch]` coverage (`FloatTensor`): None (not supported yet) Returns: (`FloatTensor`, `FloatTensor`): * Computed vector `[tgt_len x batch x dim]` * Attention distribtutions for each query `[tgt_len x batch x src_len]` """ if source.dim() == 2: one_step = True source = source.unsqueeze(1) else: one_step = False batch, source_l, dim = memory_bank.size() batch_, target_l, dim_ = source.size() align = self.score(source, memory_bank) if memory_masks is not None: memory_masks = memory_masks.transpose(0, 1) memory_masks = memory_masks.transpose(1, 2) align.masked_fill_(1 - memory_masks.byte(), -float('inf')) if memory_lengths is not None: mask = sequence_mask(memory_lengths, max_len=align.size(-1)) mask = mask.unsqueeze(1) align.masked_fill_(1 - mask, -float('inf')) align_vectors = F.softmax(align.view(batch * target_l, source_l), -1) align_vectors = align_vectors.view(batch, target_l, source_l) c = torch.bmm(align_vectors, memory_bank) concat_c = torch.cat([c, source], 2).view(batch * target_l, dim * 2) attn_h = self.linear_out(concat_c).view(batch, target_l, dim) if self.attn_type in ['general', 'dot']: attn_h = torch.tanh(attn_h) if one_step: attn_h = attn_h.squeeze(1) align_vectors = align_vectors.squeeze(1) else: attn_h = attn_h.transpose(0, 1).contiguous() align_vectors = align_vectors.transpose(0, 1).contiguous() return attn_h, align_vectors def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math import torch.distributed import torch import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused__softmax_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_poi_fused_cat_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x1 = xindex // 8 x2 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x1 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr1 + (4 * x1 + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x2, tmp10, xmask) @triton.jit def triton_poi_fused_clone_3(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * x2 + 16 * x1), xmask) tmp1 = libdevice.tanh(tmp0) tl.store(out_ptr0 + x3, tmp1, xmask) @triton.jit def triton_poi_fused_clone_4(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * x2 + 16 * x1), xmask) tl.store(out_ptr0 + x3, tmp0, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4, 8), (8, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(primals_1, reinterpret_tensor(primals_2, (4, 4, 4), (16, 1, 4), 0), out=buf0) buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(64)](buf0, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) buf2 = reinterpret_tensor(buf0, (16, 4), (4, 1), 0) del buf0 triton_poi_fused__softmax_1[grid(64)](buf1, buf2, 64, XBLOCK=64, num_warps=1, num_stages=1) buf3 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0) del buf1 extern_kernels.bmm(reinterpret_tensor(buf2, (4, 4, 4), (16, 4, 1), 0), primals_2, out=buf3) del primals_2 buf4 = empty_strided_cuda((4, 4, 8), (32, 8, 1), torch.float32) triton_poi_fused_cat_2[grid(128)](buf3, primals_1, buf4, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_1 buf5 = reinterpret_tensor(buf3, (16, 4), (4, 1), 0) del buf3 extern_kernels.mm(reinterpret_tensor(buf4, (16, 8), (8, 1), 0), reinterpret_tensor(primals_3, (8, 4), (1, 8), 0), out=buf5) del primals_3 buf6 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_clone_3[grid(64)](buf5, buf6, 64, XBLOCK=64, num_warps=1, num_stages=1) buf7 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_clone_4[grid(64)](buf2, buf7, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf2 return buf6, buf7, reinterpret_tensor(buf4, (16, 8), (8, 1), 0), buf5 def sequence_mask(lengths, max_len=None): """ Creates a boolean mask from sequence lengths. """ batch_size = lengths.numel() max_len = max_len or lengths.max() return torch.arange(0, max_len).type_as(lengths).repeat(batch_size, 1).lt( lengths.unsqueeze(1)) class GlobalAttentionNew(nn.Module): """ Global attention takes a matrix and a query vector. It then computes a parameterized convex combination of the matrix based on the input query. Constructs a unit mapping a query `q` of size `dim` and a source matrix `H` of size `n x dim`, to an output of size `dim`. .. mermaid:: graph BT A[Query] subgraph RNN C[H 1] D[H 2] E[H N] end F[Attn] G[Output] A --> F C --> F D --> F E --> F C -.-> G D -.-> G E -.-> G F --> G All models compute the output as :math:`c = sum_{j=1}^{SeqLength} a_j H_j` where :math:`a_j` is the softmax of a score function. Then then apply a projection layer to [q, c]. However they differ on how they compute the attention score. * Luong Attention (dot, general): * dot: :math:`score(H_j,q) = H_j^T q` * general: :math:`score(H_j, q) = H_j^T W_a q` * Bahdanau Attention (mlp): * :math:`score(H_j, q) = v_a^T tanh(W_a q + U_a h_j)` Args: dim (int): dimensionality of query and key coverage (bool): use coverage term attn_type (str): type of attention to use, options [dot,general,mlp] """ def __init__(self, dim, attn_type='dot'): super(GlobalAttentionNew, self).__init__() self.dim = dim assert attn_type in ['dot', 'general', 'mlp' ], 'Please select a valid attention type.' self.attn_type = attn_type if self.attn_type == 'general': self.linear_in = nn.Linear(dim, dim, bias=False) elif self.attn_type == 'mlp': self.linear_context = nn.Linear(dim, dim, bias=False) self.linear_query = nn.Linear(dim, dim, bias=True) self.v = nn.Linear(dim, 1, bias=False) out_bias = self.attn_type == 'mlp' self.linear_out = nn.Linear(dim * 2, dim, bias=out_bias) def score(self, h_t, h_s): """ Args: h_t (`FloatTensor`): sequence of queries `[batch x tgt_len x dim]` h_s (`FloatTensor`): sequence of sources `[batch x src_len x dim]` Returns: :obj:`FloatTensor`: raw attention scores (unnormalized) for each src index `[batch x tgt_len x src_len]` """ src_batch, src_len, _src_dim = h_s.size() tgt_batch, tgt_len, tgt_dim = h_t.size() if self.attn_type in ['general', 'dot']: if self.attn_type == 'general': h_t_ = h_t.view(tgt_batch * tgt_len, tgt_dim) h_t_ = self.linear_in(h_t_) h_t = h_t_.view(tgt_batch, tgt_len, tgt_dim) h_s_ = h_s.transpose(1, 2) return torch.bmm(h_t, h_s_) else: dim = self.dim wq = self.linear_query(h_t.view(-1, dim)) wq = wq.view(tgt_batch, tgt_len, 1, dim) wq = wq.expand(tgt_batch, tgt_len, src_len, dim) uh = self.linear_context(h_s.contiguous().view(-1, dim)) uh = uh.view(src_batch, 1, src_len, dim) uh = uh.expand(src_batch, tgt_len, src_len, dim) wquh = torch.tanh(wq + uh) return self.v(wquh.view(-1, dim)).view(tgt_batch, tgt_len, src_len) def forward(self, input_0, input_1): primals_3 = self.linear_out.weight primals_1 = input_0 primals_2 = input_1 output = call([primals_1, primals_2, primals_3]) return output[0], output[1]	BoonthichaSaejia/ThaiSum	GlobalAttention	false	7,829	[ "Apache-2.0" ]	23	fdb99eab23e60a933acf4e84836f53ddf05b7c8b	https://github.com/BoonthichaSaejia/ThaiSum/tree/fdb99eab23e60a933acf4e84836f53ddf05b7c8b	import torch import torch.distributed import torch import torch.nn as nn import torch.nn.functional as F def sequence_mask(lengths, max_len=None): """ Creates a boolean mask from sequence lengths. """ batch_size = lengths.numel() max_len = max_len or lengths.max() return torch.arange(0, max_len).type_as(lengths).repeat(batch_size, 1).lt( lengths.unsqueeze(1)) class Model(nn.Module): """ Global attention takes a matrix and a query vector. It then computes a parameterized convex combination of the matrix based on the input query. Constructs a unit mapping a query `q` of size `dim` and a source matrix `H` of size `n x dim`, to an output of size `dim`. .. mermaid:: graph BT A[Query] subgraph RNN C[H 1] D[H 2] E[H N] end F[Attn] G[Output] A --> F C --> F D --> F E --> F C -.-> G D -.-> G E -.-> G F --> G All models compute the output as :math:`c = sum_{j=1}^{SeqLength} a_j H_j` where :math:`a_j` is the softmax of a score function. Then then apply a projection layer to [q, c]. However they differ on how they compute the attention score. * Luong Attention (dot, general): * dot: :math:`score(H_j,q) = H_j^T q` * general: :math:`score(H_j, q) = H_j^T W_a q` * Bahdanau Attention (mlp): * :math:`score(H_j, q) = v_a^T tanh(W_a q + U_a h_j)` Args: dim (int): dimensionality of query and key coverage (bool): use coverage term attn_type (str): type of attention to use, options [dot,general,mlp] """ def __init__(self, dim, attn_type='dot'): super().__init__() self.dim = dim assert attn_type in ['dot', 'general', 'mlp' ], 'Please select a valid attention type.' self.attn_type = attn_type if self.attn_type == 'general': self.linear_in = nn.Linear(dim, dim, bias=False) elif self.attn_type == 'mlp': self.linear_context = nn.Linear(dim, dim, bias=False) self.linear_query = nn.Linear(dim, dim, bias=True) self.v = nn.Linear(dim, 1, bias=False) out_bias = self.attn_type == 'mlp' self.linear_out = nn.Linear(dim * 2, dim, bias=out_bias) def score(self, h_t, h_s): """ Args: h_t (`FloatTensor`): sequence of queries `[batch x tgt_len x dim]` h_s (`FloatTensor`): sequence of sources `[batch x src_len x dim]` Returns: :obj:`FloatTensor`: raw attention scores (unnormalized) for each src index `[batch x tgt_len x src_len]` """ src_batch, src_len, _src_dim = h_s.size() tgt_batch, tgt_len, tgt_dim = h_t.size() if self.attn_type in ['general', 'dot']: if self.attn_type == 'general': h_t_ = h_t.view(tgt_batch * tgt_len, tgt_dim) h_t_ = self.linear_in(h_t_) h_t = h_t_.view(tgt_batch, tgt_len, tgt_dim) h_s_ = h_s.transpose(1, 2) return torch.bmm(h_t, h_s_) else: dim = self.dim wq = self.linear_query(h_t.view(-1, dim)) wq = wq.view(tgt_batch, tgt_len, 1, dim) wq = wq.expand(tgt_batch, tgt_len, src_len, dim) uh = self.linear_context(h_s.contiguous().view(-1, dim)) uh = uh.view(src_batch, 1, src_len, dim) uh = uh.expand(src_batch, tgt_len, src_len, dim) wquh = torch.tanh(wq + uh) return self.v(wquh.view(-1, dim)).view(tgt_batch, tgt_len, src_len) def forward(self, source, memory_bank, memory_lengths=None, memory_masks=None): """ Args: source (`FloatTensor`): query vectors `[batch x tgt_len x dim]` memory_bank (`FloatTensor`): source vectors `[batch x src_len # ... truncated (>4000 chars) for memory efficiency
Swish	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/as/cassuzcarrshuu6eivt72d4z6lpq3cbsunphwymypukv2f47gbyq.py # Topologically Sorted Source Nodes: [sigmoid, mul], Original ATen: [aten.sigmoid, aten.mul] # Source node to ATen node mapping: # mul => mul # sigmoid => sigmoid # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%arg0_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %arg0_1), kwargs = {}) triton_poi_fused_mul_sigmoid_0 = async_compile.triton('triton_poi_fused_mul_sigmoid_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_sigmoid_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_sigmoid_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.sigmoid(tmp0) tmp2 = tmp1 * tmp0 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sigmoid, mul], Original ATen: [aten.sigmoid, aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_sigmoid_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class Swish(nn.Module): def __init__(self): super().__init__() def forward(self, x): return torch.sigmoid(x) * x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_mul_sigmoid_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.sigmoid(tmp0) tmp2 = tmp1 * tmp0 tl.store(out_ptr0 + x0, tmp2, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_sigmoid_0[grid(256)](arg0_1, buf0, 256, XBLOCK =256, num_warps=4, num_stages=1) del arg0_1 return buf0, class SwishNew(nn.Module): def __init__(self): super().__init__() def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	CW-Huang/sdeflow-light	Swish	false	7,830	[ "MIT" ]	35	524650bc5ad69522b3e0905672deef0650374512	https://github.com/CW-Huang/sdeflow-light/tree/524650bc5ad69522b3e0905672deef0650374512	import torch import torch.nn as nn class Model(nn.Module): def __init__(self): super().__init__() def forward(self, x): return torch.sigmoid(x) * x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
mfm	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/nh/cnho3csu6wlnwck7klpsx5zuyb2dfceyqzfl5gfy4f2omhms5eot.py # Topologically Sorted Source Nodes: [max_1], Original ATen: [aten.maximum, aten.eq, aten.gt, aten.lt] # Source node to ATen node mapping: # max_1 => maximum # Graph fragment: # %maximum : [num_users=1] = call_function[target=torch.ops.aten.maximum.default](args = (%getitem, %getitem_1), kwargs = {}) # %eq : [num_users=1] = call_function[target=torch.ops.aten.eq.Tensor](args = (%getitem, %getitem_1), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Tensor](args = (%getitem, %getitem_1), kwargs = {}) # %lt : [num_users=1] = call_function[target=torch.ops.aten.lt.Tensor](args = (%getitem, %getitem_1), kwargs = {}) triton_poi_fused_eq_gt_lt_maximum_0 = async_compile.triton('triton_poi_fused_eq_gt_lt_maximum_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i1', 4: 'i1', 5: 'i1', 6: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_eq_gt_lt_maximum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_eq_gt_lt_maximum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = (xindex // 64) x3 = xindex % 64 x1 = (xindex // 16) % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + (128x2)), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (64 + x3 + (128x2)), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp7 = tmp2 == tmp5 tmp8 = tmp2 > tmp5 tmp9 = tmp2 < tmp5 tl.store(out_ptr0 + (x4), tmp6, xmask) tl.store(out_ptr1 + (x4), tmp7, xmask) tl.store(out_ptr2 + (x4), tmp8, xmask) tl.store(out_ptr3 + (x4), tmp9, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (8, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (8, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 8, 4, 4), (128, 16, 4, 1)) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [max_1], Original ATen: [aten.maximum, aten.eq, aten.gt, aten.lt] stream0 = get_raw_stream(0) triton_poi_fused_eq_gt_lt_maximum_0.run(buf0, primals_2, buf1, buf2, buf3, buf4, 256, grid=grid(256), stream=stream0) del buf0 del primals_2 return (buf1, primals_1, primals_3, buf2, buf3, buf4, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((8, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class mfm(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=3, stride=1, padding=1, type=1): super(mfm, self).__init__() self.out_channels = out_channels if type == 1: self.filter = nn.Conv2d(in_channels, 2 * out_channels, kernel_size=kernel_size, stride=stride, padding=padding) else: self.filter = nn.Linear(in_channels, 2 * out_channels) def forward(self, x): x = self.filter(x) out = torch.split(x, self.out_channels, 1) return torch.max(out[0], out[1]) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'out_channels': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_eq_gt_lt_maximum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex // 64 x3 = xindex % 64 x1 = xindex // 16 % 4 x4 = xindex tmp0 = tl.load(in_ptr0 + (x3 + 128 * x2), xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (64 + x3 + 128 * x2), xmask) tmp4 = tl.load(in_ptr1 + (4 + x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = triton_helpers.maximum(tmp2, tmp5) tmp7 = tmp2 == tmp5 tmp8 = tmp2 > tmp5 tmp9 = tmp2 < tmp5 tl.store(out_ptr0 + x4, tmp6, xmask) tl.store(out_ptr1 + x4, tmp7, xmask) tl.store(out_ptr2 + x4, tmp8, xmask) tl.store(out_ptr3 + x4, tmp9, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (8, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (8,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 8, 4, 4), (128, 16, 4, 1)) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_eq_gt_lt_maximum_0[grid(256)](buf0, primals_2, buf1, buf2, buf3, buf4, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf0 del primals_2 return buf1, primals_1, primals_3, buf2, buf3, buf4 class mfmNew(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=3, stride=1, padding=1, type=1): super(mfmNew, self).__init__() self.out_channels = out_channels if type == 1: self.filter = nn.Conv2d(in_channels, 2 * out_channels, kernel_size=kernel_size, stride=stride, padding=padding) else: self.filter = nn.Linear(in_channels, 2 * out_channels) def forward(self, input_0): primals_1 = self.filter.weight primals_2 = self.filter.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	BradyFU/DVG-Face	mfm	false	7,831	[ "MIT" ]	33	16d51fe7da6e4a52d144e938afb3072eb8e4e8de	https://github.com/BradyFU/DVG-Face/tree/16d51fe7da6e4a52d144e938afb3072eb8e4e8de	import torch import torch.nn as nn class Model(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=3, stride=1, padding=1, type=1): super().__init__() self.out_channels = out_channels if type == 1: self.filter = nn.Conv2d(in_channels, 2 * out_channels, kernel_size=kernel_size, stride=stride, padding=padding) else: self.filter = nn.Linear(in_channels, 2 * out_channels) def forward(self, x): x = self.filter(x) out = torch.split(x, self.out_channels, 1) return torch.max(out[0], out[1]) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4]
LinearDiag	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/ju/cjuillrts46dwht2m5m65xuggokggi6b2orz7q3ihbfb5zto7q47.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.mul] # Source node to ATen node mapping: # out => mul # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, %expand), kwargs = {}) triton_poi_fused_mul_0 = async_compile.triton('triton_poi_fused_mul_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_mul_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_mul_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x2), tmp2, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(primals_1, primals_2, buf0, 16, grid=grid(16), stream=stream0) del primals_2 return (buf0, primals_1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class LinearDiag(nn.Module): def __init__(self, num_features, bias=False): super(LinearDiag, self).__init__() weight = torch.FloatTensor(num_features).fill_(1) self.weight = nn.Parameter(weight, requires_grad=True) if bias: bias = torch.FloatTensor(num_features).fill_(0) self.bias = nn.Parameter(bias, requires_grad=True) else: self.register_parameter('bias', None) def forward(self, X): assert X.dim() == 2 and X.size(1) == self.weight.size(0) out = X * self.weight.expand_as(X) if self.bias is not None: out = out + self.bias.expand_as(out) return out def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [[], {'num_features': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_mul_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x2, tmp2, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (4, 4), (4, 1)) assert_size_stride(primals_2, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4), (4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_0[grid(16)](primals_1, primals_2, buf0, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_2 return buf0, primals_1 class LinearDiagNew(nn.Module): def __init__(self, num_features, bias=False): super(LinearDiagNew, self).__init__() weight = torch.FloatTensor(num_features).fill_(1) self.weight = nn.Parameter(weight, requires_grad=True) if bias: bias = torch.FloatTensor(num_features).fill_(0) self.bias = nn.Parameter(bias, requires_grad=True) else: self.register_parameter('bias', None) def forward(self, input_0): primals_2 = self.weight primals_1 = input_0 output = call([primals_1, primals_2]) return output[0]	CSer-Tang-hao/FS-KTN	LinearDiag	false	7,832	[ "MIT" ]	19	8e5b1637e0f86f9d29dad7ff740a9c7a4a292a74	https://github.com/CSer-Tang-hao/FS-KTN/tree/8e5b1637e0f86f9d29dad7ff740a9c7a4a292a74	import torch import torch.nn as nn class Model(nn.Module): def __init__(self, num_features, bias=False): super().__init__() weight = torch.FloatTensor(num_features).fill_(1) self.weight = nn.Parameter(weight, requires_grad=True) if bias: bias = torch.FloatTensor(num_features).fill_(0) self.bias = nn.Parameter(bias, requires_grad=True) else: self.register_parameter('bias', None) def forward(self, X): assert X.dim() == 2 and X.size(1) == self.weight.size(0) out = X * self.weight.expand_as(X) if self.bias is not None: out = out + self.bias.expand_as(out) return out def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [4]
GaussianFilter	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/xl/cxl73cnmpzg5xekqai6derupmxh4i4egjbc56sdk3h4s3tkzytbv.py # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv2d => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%arg1_1, %arg0_1, None, [1, 1], [6, 6], [1, 1], False, [0, 0], 3), kwargs = {}) triton_poi_fused_convolution_0 = async_compile.triton('triton_poi_fused_convolution_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4096], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 12 xnumel = 4096 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, YBLOCK], True, tl.int1) x2 = xindex y3 = yindex y0 = yindex % 3 y1 = (yindex // 3) tmp0 = tl.load(in_ptr0 + (x2 + (4096y3)), ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (y0 + (3x2) + (12288y1)), tmp0, ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ly/clyggyq2bwdozo7vxfagxg4tfhg5tol3h3agfesa5ruiwcudrsi5.py # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] # Source node to ATen node mapping: # conv2d => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%arg1_1, %arg0_1, None, [1, 1], [6, 6], [1, 1], False, [0, 0], 3), kwargs = {}) triton_poi_fused_convolution_1 = async_compile.triton('triton_poi_fused_convolution_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 4096], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 12 xnumel = 4096 yoffset = tl.program_id(1) YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = tl.full([XBLOCK, YBLOCK], True, tl.int1) x2 = xindex y0 = yindex % 3 y1 = (yindex // 3) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (3x2) + (12288y1)), ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + (4096*y3)), tmp0, ymask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (3, 1, 13, 13), (169, 169, 13, 1)) assert_size_stride(arg1_1, (4, 3, 64, 64), (12288, 4096, 64, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 3, 64, 64), (12288, 1, 192, 3), torch.float32) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] stream0 = get_raw_stream(0) triton_poi_fused_convolution_0.run(arg1_1, buf0, 12, 4096, grid=grid(12, 4096), stream=stream0) del arg1_1 # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(buf0, arg0_1, stride=(1, 1), padding=(6, 6), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=3, bias=None) assert_size_stride(buf1, (4, 3, 64, 64), (12288, 1, 192, 3)) del arg0_1 buf2 = reinterpret_tensor(buf0, (4, 3, 64, 64), (12288, 4096, 64, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf1, buf2, 12, 4096, grid=grid(12, 4096), stream=stream0) del buf1 return (buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((3, 1, 13, 13), (169, 169, 13, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 3, 64, 64), (12288, 4096, 64, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data from torch import nn import torch.jit class GaussianFilter(nn.Module): def __init__(self, kernel_size=13, stride=1, padding=6): super(GaussianFilter, self).__init__() mean = (kernel_size - 1) / 2.0 variance = ((kernel_size - 1) / 6.0) 2.0 x_coord = torch.arange(kernel_size) x_grid = x_coord.repeat(kernel_size).view(kernel_size, kernel_size) y_grid = x_grid.t() xy_grid = torch.stack([x_grid, y_grid], dim=-1).float() gaussian_kernel = torch.exp(-torch.sum((xy_grid - mean) 2.0, dim =-1) / (2 * variance)) gaussian_kernel = gaussian_kernel / torch.sum(gaussian_kernel) gaussian_kernel = gaussian_kernel.view(1, 1, kernel_size, kernel_size) gaussian_kernel = gaussian_kernel.repeat(3, 1, 1, 1) self.gaussian_filter = nn.Conv2d(3, 3, kernel_size, stride=stride, padding=padding, groups=3, bias=False) self.gaussian_filter.weight.data = gaussian_kernel self.gaussian_filter.weight.requires_grad = False def forward(self, x): return self.gaussian_filter(x) def get_inputs(): return [torch.rand([4, 3, 64, 64])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.utils.data from torch import nn import torch.jit assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_convolution_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 12 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, YBLOCK], True, tl.int1) x2 = xindex y3 = yindex y0 = yindex % 3 y1 = yindex // 3 tmp0 = tl.load(in_ptr0 + (x2 + 4096 * y3), ymask, eviction_policy= 'evict_last') tl.store(out_ptr0 + (y0 + 3 * x2 + 12288 * y1), tmp0, ymask) @triton.jit def triton_poi_fused_convolution_1(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 12 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] tl.full([XBLOCK, YBLOCK], True, tl.int1) x2 = xindex y0 = yindex % 3 y1 = yindex // 3 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 3 * x2 + 12288 * y1), ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + 4096 * y3), tmp0, ymask) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (3, 1, 13, 13), (169, 169, 13, 1)) assert_size_stride(arg1_1, (4, 3, 64, 64), (12288, 4096, 64, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 3, 64, 64), (12288, 1, 192, 3), torch .float32) get_raw_stream(0) triton_poi_fused_convolution_0[grid(12, 4096)](arg1_1, buf0, 12, 4096, XBLOCK=64, YBLOCK=16, num_warps=4, num_stages=1) del arg1_1 buf1 = extern_kernels.convolution(buf0, arg0_1, stride=(1, 1), padding=(6, 6), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=3, bias=None) assert_size_stride(buf1, (4, 3, 64, 64), (12288, 1, 192, 3)) del arg0_1 buf2 = reinterpret_tensor(buf0, (4, 3, 64, 64), (12288, 4096, 64, 1), 0 ) del buf0 triton_poi_fused_convolution_1[grid(12, 4096)](buf1, buf2, 12, 4096, XBLOCK=64, YBLOCK=16, num_warps=4, num_stages=1) del buf1 return buf2, class GaussianFilterNew(nn.Module): def __init__(self, kernel_size=13, stride=1, padding=6): super(GaussianFilterNew, self).__init__() mean = (kernel_size - 1) / 2.0 variance = ((kernel_size - 1) / 6.0) 2.0 x_coord = torch.arange(kernel_size) x_grid = x_coord.repeat(kernel_size).view(kernel_size, kernel_size) y_grid = x_grid.t() xy_grid = torch.stack([x_grid, y_grid], dim=-1).float() gaussian_kernel = torch.exp(-torch.sum((xy_grid - mean) 2.0, dim =-1) / (2 * variance)) gaussian_kernel = gaussian_kernel / torch.sum(gaussian_kernel) gaussian_kernel = gaussian_kernel.view(1, 1, kernel_size, kernel_size) gaussian_kernel = gaussian_kernel.repeat(3, 1, 1, 1) self.gaussian_filter = nn.Conv2d(3, 3, kernel_size, stride=stride, padding=padding, groups=3, bias=False) self.gaussian_filter.weight.data = gaussian_kernel self.gaussian_filter.weight.requires_grad = False def forward(self, input_0): arg0_1 = self.gaussian_filter.weight arg1_1 = input_0 output = call([arg0_1, arg1_1]) return output[0]	BlueAmulet/BasicSR	GaussianFilter	false	7,833	[ "Apache-2.0" ]	12	7040913d8659a05af4c2428feb71c260efbf1e9c	https://github.com/BlueAmulet/BasicSR/tree/7040913d8659a05af4c2428feb71c260efbf1e9c	import torch import torch.utils.data from torch import nn import torch.jit class Model(nn.Module): def __init__(self, kernel_size=13, stride=1, padding=6): super().__init__() mean = (kernel_size - 1) / 2.0 variance = ((kernel_size - 1) / 6.0) 2.0 x_coord = torch.arange(kernel_size) x_grid = x_coord.repeat(kernel_size).view(kernel_size, kernel_size) y_grid = x_grid.t() xy_grid = torch.stack([x_grid, y_grid], dim=-1).float() gaussian_kernel = torch.exp(-torch.sum((xy_grid - mean) 2.0, dim =-1) / (2 * variance)) gaussian_kernel = gaussian_kernel / torch.sum(gaussian_kernel) gaussian_kernel = gaussian_kernel.view(1, 1, kernel_size, kernel_size) gaussian_kernel = gaussian_kernel.repeat(3, 1, 1, 1) self.gaussian_filter = nn.Conv2d(3, 3, kernel_size, stride=stride, padding=padding, groups=3, bias=False) self.gaussian_filter.weight.data = gaussian_kernel self.gaussian_filter.weight.requires_grad = False def forward(self, x): return self.gaussian_filter(x) def get_inputs(): return [torch.rand([4, 3, 64, 64])] def get_init_inputs(): return []
Get_gradient	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/sb/csb6zyfy2fbh5733vhj526kkhcfvzuia7j22w67isashcg65h7kv.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.cat] # Source node to ATen node mapping: # x => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%sqrt, %sqrt_1, %sqrt_2], 1), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 6, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 432 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 36) % 3 x0 = xindex % 36 x2 = (xindex // 108) x3 = xindex tmp0 = x1 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x0 + (36x2)), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp5 tmp5 tmp7 = tl.load(in_ptr1 + (x0 + (36x2)), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp8 = tmp7 tmp7 tmp9 = tmp6 + tmp8 tmp10 = 1e-06 tmp11 = tmp9 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = tl.full(tmp12.shape, 0.0, tmp12.dtype) tmp14 = tl.where(tmp4, tmp12, tmp13) tmp15 = tmp0 >= tmp3 tmp16 = tl.full([1], 2, tl.int64) tmp17 = tmp0 < tmp16 tmp18 = tmp15 & tmp17 tmp19 = tl.load(in_ptr2 + (x0 + (36x2)), tmp18 & xmask, eviction_policy='evict_last', other=0.0) tmp20 = tmp19 tmp19 tmp21 = tl.load(in_ptr3 + (x0 + (36x2)), tmp18 & xmask, eviction_policy='evict_last', other=0.0) tmp22 = tmp21 tmp21 tmp23 = tmp20 + tmp22 tmp24 = tmp23 + tmp10 tmp25 = libdevice.sqrt(tmp24) tmp26 = tl.full(tmp25.shape, 0.0, tmp25.dtype) tmp27 = tl.where(tmp18, tmp25, tmp26) tmp28 = tmp0 >= tmp16 tmp29 = tl.full([1], 3, tl.int64) tmp30 = tmp0 < tmp29 tmp31 = tl.load(in_ptr4 + (x0 + (36x2)), tmp28 & xmask, eviction_policy='evict_last', other=0.0) tmp32 = tmp31 tmp31 tmp33 = tl.load(in_ptr5 + (x0 + (36x2)), tmp28 & xmask, eviction_policy='evict_last', other=0.0) tmp34 = tmp33 tmp33 tmp35 = tmp32 + tmp34 tmp36 = tmp35 + tmp10 tmp37 = libdevice.sqrt(tmp36) tmp38 = tl.full(tmp37.shape, 0.0, tmp37.dtype) tmp39 = tl.where(tmp28, tmp37, tmp38) tmp40 = tl.where(tmp18, tmp27, tmp39) tmp41 = tl.where(tmp4, tmp14, tmp40) tl.store(out_ptr0 + (x3), tmp41, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (1, 1, 3, 3), (9, 9, 3, 1)) assert_size_stride(arg2_1, (1, 1, 3, 3), (9, 9, 3, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [x0_v], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 0), arg1_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 1, 6, 6), (36, 36, 6, 1)) # Topologically Sorted Source Nodes: [x0_h], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 0), arg2_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 1, 6, 6), (36, 36, 6, 1)) # Topologically Sorted Source Nodes: [x1_v], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 16), arg1_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 1, 6, 6), (36, 36, 6, 1)) # Topologically Sorted Source Nodes: [x1_h], Original ATen: [aten.convolution] buf3 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 16), arg2_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 1, 6, 6), (36, 36, 6, 1)) # Topologically Sorted Source Nodes: [x2_v], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 32), arg1_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 1, 6, 6), (36, 36, 6, 1)) del arg1_1 # Topologically Sorted Source Nodes: [x2_h], Original ATen: [aten.convolution] buf5 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 32), arg2_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 1, 6, 6), (36, 36, 6, 1)) del arg0_1 del arg2_1 buf6 = empty_strided_cuda((4, 3, 6, 6), (108, 36, 6, 1), torch.float32) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(buf0, buf1, buf2, buf3, buf4, buf5, buf6, 432, grid=grid(432), stream=stream0) del buf0 del buf1 del buf2 del buf3 del buf4 del buf5 return (buf6, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((1, 1, 3, 3), (9, 9, 3, 1), device='cuda:0', dtype=torch.float32) arg2_1 = rand_strided((1, 1, 3, 3), (9, 9, 3, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1, arg2_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.utils.data from torch import nn import torch.nn.functional as F import torch.jit class Get_gradient(nn.Module): def __init__(self): super(Get_gradient, self).__init__() kernel_v = [[0, -1, 0], [0, 0, 0], [0, 1, 0]] kernel_h = [[0, 0, 0], [-1, 0, 1], [0, 0, 0]] kernel_h = torch.FloatTensor(kernel_h).unsqueeze(0).unsqueeze(0) kernel_v = torch.FloatTensor(kernel_v).unsqueeze(0).unsqueeze(0) self.weight_h = nn.Parameter(data=kernel_h, requires_grad=False) self.weight_v = nn.Parameter(data=kernel_v, requires_grad=False) def forward(self, x): x0 = x[:, 0] x1 = x[:, 1] x2 = x[:, 2] x0_v = F.conv2d(x0.unsqueeze(1), self.weight_v, padding=2) x0_h = F.conv2d(x0.unsqueeze(1), self.weight_h, padding=2) x1_v = F.conv2d(x1.unsqueeze(1), self.weight_v, padding=2) x1_h = F.conv2d(x1.unsqueeze(1), self.weight_h, padding=2) x2_v = F.conv2d(x2.unsqueeze(1), self.weight_v, padding=2) x2_h = F.conv2d(x2.unsqueeze(1), self.weight_h, padding=2) x0 = torch.sqrt(torch.pow(x0_v, 2) + torch.pow(x0_h, 2) + 1e-06) x1 = torch.sqrt(torch.pow(x1_v, 2) + torch.pow(x1_h, 2) + 1e-06) x2 = torch.sqrt(torch.pow(x2_v, 2) + torch.pow(x2_h, 2) + 1e-06) x = torch.cat([x0, x1, x2], dim=1) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime.triton_helpers import libdevice import torch.utils.data from torch import nn import torch.jit assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 432 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 36 % 3 x0 = xindex % 36 x2 = xindex // 108 x3 = xindex tmp0 = x1 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 1, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x0 + 36 * x2), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp5 * tmp5 tmp7 = tl.load(in_ptr1 + (x0 + 36 * x2), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp8 = tmp7 * tmp7 tmp9 = tmp6 + tmp8 tmp10 = 1e-06 tmp11 = tmp9 + tmp10 tmp12 = libdevice.sqrt(tmp11) tmp13 = tl.full(tmp12.shape, 0.0, tmp12.dtype) tmp14 = tl.where(tmp4, tmp12, tmp13) tmp15 = tmp0 >= tmp3 tmp16 = tl.full([1], 2, tl.int64) tmp17 = tmp0 < tmp16 tmp18 = tmp15 & tmp17 tmp19 = tl.load(in_ptr2 + (x0 + 36 * x2), tmp18 & xmask, eviction_policy='evict_last', other=0.0) tmp20 = tmp19 * tmp19 tmp21 = tl.load(in_ptr3 + (x0 + 36 * x2), tmp18 & xmask, eviction_policy='evict_last', other=0.0) tmp22 = tmp21 * tmp21 tmp23 = tmp20 + tmp22 tmp24 = tmp23 + tmp10 tmp25 = libdevice.sqrt(tmp24) tmp26 = tl.full(tmp25.shape, 0.0, tmp25.dtype) tmp27 = tl.where(tmp18, tmp25, tmp26) tmp28 = tmp0 >= tmp16 tl.full([1], 3, tl.int64) tmp31 = tl.load(in_ptr4 + (x0 + 36 * x2), tmp28 & xmask, eviction_policy='evict_last', other=0.0) tmp32 = tmp31 * tmp31 tmp33 = tl.load(in_ptr5 + (x0 + 36 * x2), tmp28 & xmask, eviction_policy='evict_last', other=0.0) tmp34 = tmp33 * tmp33 tmp35 = tmp32 + tmp34 tmp36 = tmp35 + tmp10 tmp37 = libdevice.sqrt(tmp36) tmp38 = tl.full(tmp37.shape, 0.0, tmp37.dtype) tmp39 = tl.where(tmp28, tmp37, tmp38) tmp40 = tl.where(tmp18, tmp27, tmp39) tmp41 = tl.where(tmp4, tmp14, tmp40) tl.store(out_ptr0 + x3, tmp41, xmask) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (1, 1, 3, 3), (9, 9, 3, 1)) assert_size_stride(arg2_1, (1, 1, 3, 3), (9, 9, 3, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 0), arg1_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 1, 6, 6), (36, 36, 6, 1)) buf1 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 0), arg2_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 1, 6, 6), (36, 36, 6, 1)) buf2 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 16), arg1_1, stride=(1, 1), padding=(2, 2 ), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 1, 6, 6), (36, 36, 6, 1)) buf3 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 16), arg2_1, stride=(1, 1), padding=(2, 2 ), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf3, (4, 1, 6, 6), (36, 36, 6, 1)) buf4 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 32), arg1_1, stride=(1, 1), padding=(2, 2 ), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 1, 6, 6), (36, 36, 6, 1)) del arg1_1 buf5 = extern_kernels.convolution(reinterpret_tensor(arg0_1, (4, 1, 4, 4), (64, 0, 4, 1), 32), arg2_1, stride=(1, 1), padding=(2, 2 ), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 1, 6, 6), (36, 36, 6, 1)) del arg0_1 del arg2_1 buf6 = empty_strided_cuda((4, 3, 6, 6), (108, 36, 6, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(432)](buf0, buf1, buf2, buf3, buf4, buf5, buf6, 432, XBLOCK=128, num_warps=4, num_stages=1) del buf0 del buf1 del buf2 del buf3 del buf4 del buf5 return buf6, class Get_gradientNew(nn.Module): def __init__(self): super(Get_gradientNew, self).__init__() kernel_v = [[0, -1, 0], [0, 0, 0], [0, 1, 0]] kernel_h = [[0, 0, 0], [-1, 0, 1], [0, 0, 0]] kernel_h = torch.FloatTensor(kernel_h).unsqueeze(0).unsqueeze(0) kernel_v = torch.FloatTensor(kernel_v).unsqueeze(0).unsqueeze(0) self.weight_h = nn.Parameter(data=kernel_h, requires_grad=False) self.weight_v = nn.Parameter(data=kernel_v, requires_grad=False) def forward(self, input_0): arg1_1 = self.weight_h arg2_1 = self.weight_v arg0_1 = input_0 output = call([arg0_1, arg1_1, arg2_1]) return output[0]	BlueAmulet/BasicSR	Get_gradient	false	7,834	[ "Apache-2.0" ]	12	7040913d8659a05af4c2428feb71c260efbf1e9c	https://github.com/BlueAmulet/BasicSR/tree/7040913d8659a05af4c2428feb71c260efbf1e9c	import torch import torch.utils.data from torch import nn import torch.nn.functional as F import torch.jit class Model(nn.Module): def __init__(self): super().__init__() kernel_v = [[0, -1, 0], [0, 0, 0], [0, 1, 0]] kernel_h = [[0, 0, 0], [-1, 0, 1], [0, 0, 0]] kernel_h = torch.FloatTensor(kernel_h).unsqueeze(0).unsqueeze(0) kernel_v = torch.FloatTensor(kernel_v).unsqueeze(0).unsqueeze(0) self.weight_h = nn.Parameter(data=kernel_h, requires_grad=False) self.weight_v = nn.Parameter(data=kernel_v, requires_grad=False) def forward(self, x): x0 = x[:, 0] x1 = x[:, 1] x2 = x[:, 2] x0_v = F.conv2d(x0.unsqueeze(1), self.weight_v, padding=2) x0_h = F.conv2d(x0.unsqueeze(1), self.weight_h, padding=2) x1_v = F.conv2d(x1.unsqueeze(1), self.weight_v, padding=2) x1_h = F.conv2d(x1.unsqueeze(1), self.weight_h, padding=2) x2_v = F.conv2d(x2.unsqueeze(1), self.weight_v, padding=2) x2_h = F.conv2d(x2.unsqueeze(1), self.weight_h, padding=2) x0 = torch.sqrt(torch.pow(x0_v, 2) + torch.pow(x0_h, 2) + 1e-06) x1 = torch.sqrt(torch.pow(x1_v, 2) + torch.pow(x1_h, 2) + 1e-06) x2 = torch.sqrt(torch.pow(x2_v, 2) + torch.pow(x2_h, 2) + 1e-06) x = torch.cat([x0, x1, x2], dim=1) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
GAP	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/yg/cygooswl5gkxugqq2ejgag2vtcqhtumn2j3notsgzty3xoxbrq4v.py # Topologically Sorted Source Nodes: [adaptive_avg_pool2d], Original ATen: [aten.mean] # Source node to ATen node mapping: # adaptive_avg_pool2d => mean # Graph fragment: # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%arg0_1, [-1, -2], True), kwargs = {}) triton_per_fused_mean_0 = async_compile.triton('triton_per_fused_mean_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_mean_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_mean_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (16*x0)), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp5 = 16.0 tmp6 = tmp4 / tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp6, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf1 = reinterpret_tensor(buf0, (4, 4, 1, 1), (4, 1, 1, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [adaptive_avg_pool2d], Original ATen: [aten.mean] stream0 = get_raw_stream(0) triton_per_fused_mean_0.run(buf1, arg0_1, 16, 16, grid=grid(16), stream=stream0) del arg0_1 return (buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.utils.data class GAP(nn.Module): def __init__(self, dimension=1): """ :param dimension: """ super(GAP, self).__init__() self.avg_pool = nn.AdaptiveAvgPool2d(1) def forward(self, x): """ :param x: :return: """ return self.avg_pool(x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_per_fused_mean_0(in_out_ptr0, in_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp5 = 16.0 tmp6 = tmp4 / tmp5 tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp6, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf1 = reinterpret_tensor(buf0, (4, 4, 1, 1), (4, 1, 1, 1), 0) del buf0 get_raw_stream(0) triton_per_fused_mean_0[grid(16)](buf1, arg0_1, 16, 16, XBLOCK=8, num_warps=2, num_stages=1) del arg0_1 return buf1, class GAPNew(nn.Module): def __init__(self, dimension=1): """ :param dimension: """ super(GAPNew, self).__init__() self.avg_pool = nn.AdaptiveAvgPool2d(1) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	CaptainEven/MCMOT-ByteTrack	GAP	false	7,835	[ "MIT" ]	20	e014275cfb25147dfa6f49cdbed24e91e5d6c41e	https://github.com/CaptainEven/MCMOT-ByteTrack/tree/e014275cfb25147dfa6f49cdbed24e91e5d6c41e	import torch import torch.nn as nn import torch.utils.data class Model(nn.Module): def __init__(self, dimension=1): """ :param dimension: """ super().__init__() self.avg_pool = nn.AdaptiveAvgPool2d(1) def forward(self, x): """ :param x: :return: """ return self.avg_pool(x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
ODEfunc	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/vz/cvzzs5jsfid2znuit7fupba4zuvq3d46v5ggpg6nu7gf6i3bloh3.py # Topologically Sorted Source Nodes: [out, out_1], Original ATen: [aten.native_group_norm, aten.relu] # Source node to ATen node mapping: # out => add, add_1, mul_1, rsqrt, var_mean # out_1 => relu # Graph fragment: # %var_mean : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view, [2, 3]), kwargs = {correction: 0, keepdim: True}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem, 1e-05), kwargs = {}) # %rsqrt : [num_users=2] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, %unsqueeze_5), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %unsqueeze_2), kwargs = {}) # %relu : [num_users=1] = call_function[target=torch.ops.aten.relu.default](args = (%add_1,), kwargs = {}) triton_per_fused_native_group_norm_relu_0 = async_compile.triton('triton_per_fused_native_group_norm_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'i32', 7: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_native_group_norm_relu_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 4, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_native_group_norm_relu_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex x2 = xindex % 4 x3 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (r1 + (16x0)), xmask, other=0.0) tmp24 = tl.load(in_ptr1 + (x2), xmask, eviction_policy='evict_last') tmp26 = tl.load(in_ptr2 + (x2), xmask, eviction_policy='evict_last') tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp6 = tl.where(xmask, tmp4, 0) tmp7 = tl.sum(tmp6, 1)[:, None] tmp8 = tl.full([XBLOCK, 1], 16, tl.int32) tmp9 = tmp8.to(tl.float32) tmp10 = tmp7 / tmp9 tmp11 = tmp1 - tmp10 tmp12 = tmp11 tmp11 tmp13 = tl.broadcast_to(tmp12, [XBLOCK, RBLOCK]) tmp15 = tl.where(xmask, tmp13, 0) tmp16 = tl.sum(tmp15, 1)[:, None] tmp17 = 16.0 tmp18 = tmp16 / tmp17 tmp19 = 1e-05 tmp20 = tmp18 + tmp19 tmp21 = libdevice.rsqrt(tmp20) tmp22 = tmp0 - tmp10 tmp23 = tmp22 * tmp21 tmp25 = tmp23 * tmp24 tmp27 = tmp25 + tmp26 tmp28 = tl.full([1, 1], 0, tl.int32) tmp29 = triton_helpers.maximum(tmp28, tmp27) tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp21, xmask) tl.store(out_ptr1 + (r1 + (16x2) + (80x3)), tmp29, xmask) tl.store(out_ptr0 + (x0), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/iy/ciyv5niomdw7ci2ooby2ua72zrymfkmawwo27jpdw5czndyunrgb.py # Topologically Sorted Source Nodes: [ttx, ttx_1], Original ATen: [aten.cat] # Source node to ATen node mapping: # ttx => cat # ttx_1 => cat_1 # Graph fragment: # %cat : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_4, %relu], 1), kwargs = {}) # %cat_1 : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_4, %relu_1], 1), kwargs = {}) triton_poi_fused_cat_1 = async_compile.triton('triton_poi_fused_cat_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 16 x1 = (xindex // 16) tmp0 = tl.load(in_ptr0 + (x2), xmask) tl.store(out_ptr0 + (x0 + (80x1)), tmp0, xmask) tl.store(out_ptr1 + (x0 + (80x1)), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/gh/cgh4ett33qmdgxqjcgaxi5xcspxjsvayh2hwg4ochukkjm3wzjxa.py # Topologically Sorted Source Nodes: [out_2, out_3, out_4], Original ATen: [aten.convolution, aten.native_group_norm, aten.relu] # Source node to ATen node mapping: # out_2 => convolution # out_3 => add_2, add_3, mul_4, rsqrt_1, var_mean_1 # out_4 => relu_1 # Graph fragment: # %convolution : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%cat, %primals_5, %primals_6, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %var_mean_1 : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view_2, [2, 3]), kwargs = {correction: 0, keepdim: True}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem_2, 1e-05), kwargs = {}) # %rsqrt_1 : [num_users=2] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_2,), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_3, %unsqueeze_11), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_4, %unsqueeze_8), kwargs = {}) # %relu_1 : [num_users=1] = call_function[target=torch.ops.aten.relu.default](args = (%add_3,), kwargs = {}) triton_per_fused_convolution_native_group_norm_relu_2 = async_compile.triton('triton_per_fused_convolution_native_group_norm_relu_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'i32', 8: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7, 8), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_convolution_native_group_norm_relu_2', 'mutated_arg_names': ['in_out_ptr0', 'in_out_ptr1'], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 4, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_convolution_native_group_norm_relu_2(in_out_ptr0, in_out_ptr1, in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r2 = rindex x3 = xindex x0 = xindex % 4 x1 = (xindex // 4) tmp0 = tl.load(in_out_ptr0 + (r2 + (16x3)), xmask, other=0.0) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp26 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp28 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tmp5 = tl.where(xmask, tmp3, 0) tmp6 = tl.broadcast_to(tmp3, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 16, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp3 - tmp12 tmp14 = tmp13 tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = 16.0 tmp20 = tmp18 / tmp19 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tmp24 = tmp2 - tmp12 tmp25 = tmp24 * tmp23 tmp27 = tmp25 * tmp26 tmp29 = tmp27 + tmp28 tmp30 = tl.full([1, 1], 0, tl.int32) tmp31 = triton_helpers.maximum(tmp30, tmp29) tl.store(in_out_ptr0 + (r2 + (16x3)), tmp2, xmask) tl.debug_barrier() tl.store(in_out_ptr1 + (x3), tmp23, xmask) tl.store(out_ptr1 + (r2 + (16x0) + (80x1)), tmp31, xmask) tl.store(out_ptr0 + (x3), tmp12, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/cu/ccuw2vzl5mahzwjaq3otjihcv7utycrjtyk42tnhdhizqjuhw6re.py # Topologically Sorted Source Nodes: [out_5, out_6], Original ATen: [aten.convolution, aten.native_group_norm] # Source node to ATen node mapping: # out_5 => convolution_1 # out_6 => add_4, add_5, mul_7, rsqrt_2, var_mean_2 # Graph fragment: # %convolution_1 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%cat_1, %primals_9, %primals_10, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %var_mean_2 : [num_users=2] = call_function[target=torch.ops.aten.var_mean.correction](args = (%view_4, [2, 3]), kwargs = {correction: 0, keepdim: True}) # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%getitem_4, 1e-05), kwargs = {}) # %rsqrt_2 : [num_users=2] = call_function[target=torch.ops.aten.rsqrt.default](args = (%add_4,), kwargs = {}) # %mul_7 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_5, %unsqueeze_17), kwargs = {}) # %add_5 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_7, %unsqueeze_14), kwargs = {}) triton_per_fused_convolution_native_group_norm_3 = async_compile.triton('triton_per_fused_convolution_native_group_norm_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'i32', 8: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7, 8), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_convolution_native_group_norm_3', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 4, 'num_reduction': 4, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_convolution_native_group_norm_3(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr2, out_ptr3, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r2 = rindex x3 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (r2 + (16x3)), xmask, other=0.0) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp26 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp28 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tmp5 = tl.where(xmask, tmp3, 0) tmp6 = tl.broadcast_to(tmp3, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 16, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp3 - tmp12 tmp14 = tmp13 tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = tmp2 - tmp12 tmp20 = 16.0 tmp21 = tmp18 / tmp20 tmp22 = 1e-05 tmp23 = tmp21 + tmp22 tmp24 = libdevice.rsqrt(tmp23) tmp25 = tmp19 * tmp24 tmp27 = tmp25 * tmp26 tmp29 = tmp27 + tmp28 tl.store(in_out_ptr0 + (r2 + (16x3)), tmp2, xmask) tl.store(out_ptr2 + (r2 + (16x3)), tmp29, xmask) tl.store(out_ptr3 + (x3), tmp24, xmask) tl.store(out_ptr0 + (x3), tmp12, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12 = args args.clear() assert_size_stride(primals_1, (4, ), (1, )) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 1, 4, 4), (16, 16, 4, 1)) assert_size_stride(primals_5, (4, 5, 3, 3), (45, 9, 3, 1)) assert_size_stride(primals_6, (4, ), (1, )) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (4, ), (1, )) assert_size_stride(primals_9, (4, 5, 3, 3), (45, 9, 3, 1)) assert_size_stride(primals_10, (4, ), (1, )) assert_size_stride(primals_11, (4, ), (1, )) assert_size_stride(primals_12, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) buf1 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf3 = reinterpret_tensor(buf1, (4, 4, 1, 1), (4, 1, 1, 1), 0); del buf1 # reuse buf6 = empty_strided_cuda((4, 5, 4, 4), (80, 16, 4, 1), torch.float32) buf5 = reinterpret_tensor(buf6, (4, 4, 4, 4), (80, 16, 4, 1), 16) # alias # Topologically Sorted Source Nodes: [out, out_1], Original ATen: [aten.native_group_norm, aten.relu] stream0 = get_raw_stream(0) triton_per_fused_native_group_norm_relu_0.run(buf3, primals_3, primals_1, primals_2, buf0, buf5, 16, 16, grid=grid(16), stream=stream0) buf4 = reinterpret_tensor(buf6, (4, 1, 4, 4), (80, 16, 4, 1), 0) # alias buf15 = empty_strided_cuda((4, 5, 4, 4), (80, 16, 4, 1), torch.float32) buf13 = reinterpret_tensor(buf15, (4, 1, 4, 4), (80, 16, 4, 1), 0) # alias # Topologically Sorted Source Nodes: [ttx, ttx_1], Original ATen: [aten.cat] triton_poi_fused_cat_1.run(primals_4, buf4, buf13, 64, grid=grid(64), stream=stream0) del primals_4 # Topologically Sorted Source Nodes: [out_2], Original ATen: [aten.convolution] buf7 = extern_kernels.convolution(buf6, primals_5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf7, (4, 4, 4, 4), (64, 16, 4, 1)) buf8 = buf7; del buf7 # reuse buf9 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) buf10 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf12 = reinterpret_tensor(buf10, (4, 4, 1, 1), (4, 1, 1, 1), 0); del buf10 # reuse buf14 = reinterpret_tensor(buf15, (4, 4, 4, 4), (80, 16, 4, 1), 16) # alias # Topologically Sorted Source Nodes: [out_2, out_3, out_4], Original ATen: [aten.convolution, aten.native_group_norm, aten.relu] triton_per_fused_convolution_native_group_norm_relu_2.run(buf8, buf12, primals_6, primals_7, primals_8, buf9, buf14, 16, 16, grid=grid(16), stream=stream0) del primals_6 # Topologically Sorted Source Nodes: [out_5], Original ATen: [aten.convolution] buf16 = extern_kernels.convolution(buf15, primals_9, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf16, (4, 4, 4, 4), (64, 16, 4, 1)) buf17 = buf16; del buf16 # reuse buf18 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf21 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf22 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) # Topologically Sorted Source Nodes: [out_5, out_6], Original ATen: [aten.convolution, aten.native_group_norm] triton_per_fused_convolution_native_group_norm_3.run(buf17, primals_10, primals_11, primals_12, buf18, buf21, buf22, 16, 16, grid=grid(16), stream=stream0) del primals_10 del primals_12 return (buf21, primals_1, primals_2, primals_3, primals_5, primals_7, primals_8, primals_9, primals_11, buf0, buf3, buf6, buf8, buf9, buf12, buf15, buf17, reinterpret_tensor(buf18, (4, 4), (4, 1), 0), reinterpret_tensor(buf22, (4, 4), (4, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 1, 4, 4), (16, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, 5, 3, 3), (45, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((4, 5, 3, 3), (45, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn def norm(dim): return nn.GroupNorm(min(32, dim), dim) class ConcatConv2d(nn.Module): def __init__(self, dim_in, dim_out, ksize=3, stride=1, padding=0, dilation=1, groups=1, bias=True, transpose=False): super(ConcatConv2d, self).__init__() module = nn.ConvTranspose2d if transpose else nn.Conv2d self._layer = module(dim_in + 1, dim_out, kernel_size=ksize, stride =stride, padding=padding, dilation=dilation, groups=groups, bias=bias) def forward(self, t, x): tt = torch.ones_like(x[:, :1, :, :]) * t ttx = torch.cat([tt, x], 1) return self._layer(ttx) class ODEfunc(nn.Module): def __init__(self, dim): super(ODEfunc, self).__init__() self.norm1 = norm(dim) self.relu = nn.ReLU(inplace=True) self.conv1 = ConcatConv2d(dim, dim, 3, 1, 1) self.norm2 = norm(dim) self.conv2 = ConcatConv2d(dim, dim, 3, 1, 1) self.norm3 = norm(dim) self.nfe = 0 def forward(self, t, x): self.nfe += 1 out = self.norm1(x) out = self.relu(out) out = self.conv1(t, out) out = self.norm2(out) out = self.relu(out) out = self.conv2(t, out) out = self.norm3(out) return out def get_inputs(): return [torch.rand([4, 1, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'dim': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_per_fused_native_group_norm_relu_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex x2 = xindex % 4 x3 = xindex // 4 tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp24 = tl.load(in_ptr1 + x2, xmask, eviction_policy='evict_last') tmp26 = tl.load(in_ptr2 + x2, xmask, eviction_policy='evict_last') tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tl.where(xmask, tmp1, 0) tmp4 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp6 = tl.where(xmask, tmp4, 0) tmp7 = tl.sum(tmp6, 1)[:, None] tmp8 = tl.full([XBLOCK, 1], 16, tl.int32) tmp9 = tmp8.to(tl.float32) tmp10 = tmp7 / tmp9 tmp11 = tmp1 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tl.broadcast_to(tmp12, [XBLOCK, RBLOCK]) tmp15 = tl.where(xmask, tmp13, 0) tmp16 = tl.sum(tmp15, 1)[:, None] tmp17 = 16.0 tmp18 = tmp16 / tmp17 tmp19 = 1e-05 tmp20 = tmp18 + tmp19 tmp21 = libdevice.rsqrt(tmp20) tmp22 = tmp0 - tmp10 tmp23 = tmp22 * tmp21 tmp25 = tmp23 * tmp24 tmp27 = tmp25 + tmp26 tmp28 = tl.full([1, 1], 0, tl.int32) tmp29 = triton_helpers.maximum(tmp28, tmp27) tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp21, xmask) tl.store(out_ptr1 + (r1 + 16 * x2 + 80 * x3), tmp29, xmask) tl.store(out_ptr0 + x0, tmp10, xmask) @triton.jit def triton_poi_fused_cat_1(in_ptr0, out_ptr0, out_ptr1, xnumel, XBLOCK: tl. constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 16 x1 = xindex // 16 tmp0 = tl.load(in_ptr0 + x2, xmask) tl.store(out_ptr0 + (x0 + 80 * x1), tmp0, xmask) tl.store(out_ptr1 + (x0 + 80 * x1), tmp0, xmask) @triton.jit def triton_per_fused_convolution_native_group_norm_relu_2(in_out_ptr0, in_out_ptr1, in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r2 = rindex x3 = xindex x0 = xindex % 4 x1 = xindex // 4 tmp0 = tl.load(in_out_ptr0 + (r2 + 16 * x3), xmask, other=0.0) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp26 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp28 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tl.where(xmask, tmp3, 0) tmp6 = tl.broadcast_to(tmp3, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 16, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp3 - tmp12 tmp14 = tmp13 * tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = 16.0 tmp20 = tmp18 / tmp19 tmp21 = 1e-05 tmp22 = tmp20 + tmp21 tmp23 = libdevice.rsqrt(tmp22) tmp24 = tmp2 - tmp12 tmp25 = tmp24 * tmp23 tmp27 = tmp25 * tmp26 tmp29 = tmp27 + tmp28 tmp30 = tl.full([1, 1], 0, tl.int32) tmp31 = triton_helpers.maximum(tmp30, tmp29) tl.store(in_out_ptr0 + (r2 + 16 * x3), tmp2, xmask) tl.debug_barrier() tl.store(in_out_ptr1 + x3, tmp23, xmask) tl.store(out_ptr1 + (r2 + 16 * x0 + 80 * x1), tmp31, xmask) tl.store(out_ptr0 + x3, tmp12, xmask) @triton.jit def triton_per_fused_convolution_native_group_norm_3(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr2, out_ptr3, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r2 = rindex x3 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (r2 + 16 * x3), xmask, other=0.0) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp26 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp28 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tl.where(xmask, tmp3, 0) tmp6 = tl.broadcast_to(tmp3, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 16, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp3 - tmp12 tmp14 = tmp13 * tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = tmp2 - tmp12 tmp20 = 16.0 tmp21 = tmp18 / tmp20 tmp22 = 1e-05 tmp23 = tmp21 + tmp22 tmp24 = libdevice.rsqrt(tmp23) tmp25 = tmp19 * tmp24 tmp27 = tmp25 * tmp26 tmp29 = tmp27 + tmp28 tl.store(in_out_ptr0 + (r2 + 16 * x3), tmp2, xmask) tl.store(out_ptr2 + (r2 + 16 * x3), tmp29, xmask) tl.store(out_ptr3 + x3, tmp24, xmask) tl.store(out_ptr0 + x3, tmp12, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12 ) = args args.clear() assert_size_stride(primals_1, (4,), (1,)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 1, 4, 4), (16, 16, 4, 1)) assert_size_stride(primals_5, (4, 5, 3, 3), (45, 9, 3, 1)) assert_size_stride(primals_6, (4,), (1,)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (4,), (1,)) assert_size_stride(primals_9, (4, 5, 3, 3), (45, 9, 3, 1)) assert_size_stride(primals_10, (4,), (1,)) assert_size_stride(primals_11, (4,), (1,)) assert_size_stride(primals_12, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) buf1 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf3 = reinterpret_tensor(buf1, (4, 4, 1, 1), (4, 1, 1, 1), 0) del buf1 buf6 = empty_strided_cuda((4, 5, 4, 4), (80, 16, 4, 1), torch.float32) buf5 = reinterpret_tensor(buf6, (4, 4, 4, 4), (80, 16, 4, 1), 16) get_raw_stream(0) triton_per_fused_native_group_norm_relu_0[grid(16)](buf3, primals_3, primals_1, primals_2, buf0, buf5, 16, 16, XBLOCK=8, num_warps=2, num_stages=1) buf4 = reinterpret_tensor(buf6, (4, 1, 4, 4), (80, 16, 4, 1), 0) buf15 = empty_strided_cuda((4, 5, 4, 4), (80, 16, 4, 1), torch.float32) buf13 = reinterpret_tensor(buf15, (4, 1, 4, 4), (80, 16, 4, 1), 0) triton_poi_fused_cat_1[grid(64)](primals_4, buf4, buf13, 64, XBLOCK =64, num_warps=1, num_stages=1) del primals_4 buf7 = extern_kernels.convolution(buf6, primals_5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf7, (4, 4, 4, 4), (64, 16, 4, 1)) buf8 = buf7 del buf7 buf9 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) buf10 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf12 = reinterpret_tensor(buf10, (4, 4, 1, 1), (4, 1, 1, 1), 0) del buf10 buf14 = reinterpret_tensor(buf15, (4, 4, 4, 4), (80, 16, 4, 1), 16) triton_per_fused_convolution_native_group_norm_relu_2[grid(16)](buf8, buf12, primals_6, primals_7, primals_8, buf9, buf14, 16, 16, XBLOCK=1, num_warps=2, num_stages=1) del primals_6 buf16 = extern_kernels.convolution(buf15, primals_9, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf16, (4, 4, 4, 4), (64, 16, 4, 1)) buf17 = buf16 del buf16 buf18 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf21 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf22 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) triton_per_fused_convolution_native_group_norm_3[grid(16)](buf17, primals_10, primals_11, primals_12, buf18, buf21, buf22, 16, 16, XBLOCK=1, num_warps=2, num_stages=1) del primals_10 del primals_12 return (buf21, primals_1, primals_2, primals_3, primals_5, primals_7, primals_8, primals_9, primals_11, buf0, buf3, buf6, buf8, buf9, buf12, buf15, buf17, reinterpret_tensor(buf18, (4, 4), (4, 1), 0), reinterpret_tensor(buf22, (4, 4), (4, 1), 0)) def norm(dim): return nn.GroupNorm(min(32, dim), dim) class ConcatConv2d(nn.Module): def __init__(self, dim_in, dim_out, ksize=3, stride=1, padding=0, dilation=1, groups=1, bias=True, transpose=False): super(ConcatConv2d, self).__init__() module = nn.ConvTranspose2d if transpose else nn.Conv2d self._layer = module(dim_in + 1, dim_out, kernel_size=ksize, stride =stride, padding=padding, dilation=dilation, groups=groups, bias=bias) def forward(self, t, x): tt = torch.ones_like(x[:, :1, :, :]) * t ttx = torch.cat([tt, x], 1) return self._layer(ttx) class ODEfuncNew(nn.Module): def __init__(self, dim): super(ODEfuncNew, self).__init__() self.norm1 = norm(dim) self.relu = nn.ReLU(inplace=True) self.conv1 = ConcatConv2d(dim, dim, 3, 1, 1) self.norm2 = norm(dim) self.conv2 = ConcatConv2d(dim, dim, 3, 1, 1) self.norm3 = norm(dim) self.nfe = 0 def forward(self, input_0, input_1): primals_1 = self.norm1.weight primals_2 = self.norm1.bias primals_5 = self.conv1._layer.weight primals_6 = self.conv1._layer.bias primals_7 = self.norm2.weight primals_8 = self.norm2.bias primals_9 = self.conv2._layer.weight primals_10 = self.conv2._layer.bias primals_11 = self.norm3.weight primals_12 = self.norm3.bias primals_4 = input_0 primals_3 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8, primals_9, primals_10, primals_11, primals_12]) return output[0]	BoyanJIANG/4D-Compositional-Representation	ODEfunc	false	7,836	[ "Apache-2.0" ]	12	64d5f4bbd6b8e6bc3bfd8f76736f6d468c71a73c	https://github.com/BoyanJIANG/4D-Compositional-Representation/tree/64d5f4bbd6b8e6bc3bfd8f76736f6d468c71a73c	import torch from torch import nn def norm(dim): return nn.GroupNorm(min(32, dim), dim) class ConcatConv2d(nn.Module): def __init__(self, dim_in, dim_out, ksize=3, stride=1, padding=0, dilation=1, groups=1, bias=True, transpose=False): super().__init__() module = nn.ConvTranspose2d if transpose else nn.Conv2d self._layer = module(dim_in + 1, dim_out, kernel_size=ksize, stride =stride, padding=padding, dilation=dilation, groups=groups, bias=bias) def forward(self, t, x): tt = torch.ones_like(x[:, :1, :, :]) * t ttx = torch.cat([tt, x], 1) return self._layer(ttx) class Model(nn.Module): def __init__(self, dim): super().__init__() self.norm1 = norm(dim) self.relu = nn.ReLU(inplace=True) self.conv1 = ConcatConv2d(dim, dim, 3, 1, 1) self.norm2 = norm(dim) self.conv2 = ConcatConv2d(dim, dim, 3, 1, 1) self.norm3 = norm(dim) self.nfe = 0 def forward(self, t, x): self.nfe += 1 out = self.norm1(x) out = self.relu(out) out = self.conv1(t, out) out = self.norm2(out) out = self.relu(out) out = self.conv2(t, out) out = self.norm3(out) return out def get_inputs(): return [torch.rand([4, 1, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4]
WeightedFeatureFusion	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/nz/cnzuftnmmebl6ne2xmorh3ifvszanwobhjq52c7hosfisapewi6i.py # Topologically Sorted Source Nodes: [x, x_1], Original ATen: [aten.add] # Source node to ATen node mapping: # x => add # x_1 => add_1 # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%arg0_1, %select), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, %select_1), kwargs = {}) triton_poi_fused_add_0 = async_compile.triton('triton_poi_fused_add_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (256 + x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tmp2 + tmp1 tl.store(out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (5, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x, x_1], Original ATen: [aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_0.run(arg0_1, arg1_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 del arg1_1 return (buf0, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((5, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.utils.data class WeightedFeatureFusion(nn.Module): def __init__(self, layers, weight=False): """ :param layers: :param weight: """ super(WeightedFeatureFusion, self).__init__() self.layers = layers self.weight = weight self.n = len(layers) + 1 if weight: self.w = nn.Parameter(torch.zeros(self.n), requires_grad=True) def forward(self, x, outputs): """ :param x: :param outputs: :return: """ if self.weight: w = torch.sigmoid(self.w) * (2 / self.n) x = x * w[0] nx = x.shape[1] for i in range(self.n - 1): a = outputs[self.layers[i]] * w[i + 1] if self.weight else outputs[ self.layers[i]] na = a.shape[1] if nx == na: x = x + a elif nx > na: x[:, :na] = x[:, :na] + a else: x = x + a[:, :nx] return x def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([5, 4, 4, 4])] def get_init_inputs(): return [[], {'layers': [4, 4]}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn import torch.utils.data assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 64 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + (256 + x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tmp2 + tmp1 tl.store(out_ptr0 + x2, tmp3, xmask) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (5, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_0[grid(256)](arg0_1, arg1_1, buf0, 256, XBLOCK =128, num_warps=4, num_stages=1) del arg0_1 del arg1_1 return buf0, class WeightedFeatureFusionNew(nn.Module): def __init__(self, layers, weight=False): """ :param layers: :param weight: """ super(WeightedFeatureFusionNew, self).__init__() self.layers = layers self.weight = weight self.n = len(layers) + 1 if weight: self.w = nn.Parameter(torch.zeros(self.n), requires_grad=True) def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	CaptainEven/MCMOT-ByteTrack	WeightedFeatureFusion	false	7,837	[ "MIT" ]	20	e014275cfb25147dfa6f49cdbed24e91e5d6c41e	https://github.com/CaptainEven/MCMOT-ByteTrack/tree/e014275cfb25147dfa6f49cdbed24e91e5d6c41e	import torch import torch.nn as nn import torch.utils.data class Model(nn.Module): def __init__(self, layers, weight=False): """ :param layers: :param weight: """ super().__init__() self.layers = layers self.weight = weight self.n = len(layers) + 1 if weight: self.w = nn.Parameter(torch.zeros(self.n), requires_grad=True) def forward(self, x, outputs): """ :param x: :param outputs: :return: """ if self.weight: w = torch.sigmoid(self.w) * (2 / self.n) x = x * w[0] nx = x.shape[1] for i in range(self.n - 1): a = outputs[self.layers[i]] * w[i + 1] if self.weight else outputs[ self.layers[i]] na = a.shape[1] if nx == na: x = x + a elif nx > na: x[:, :na] = x[:, :na] + a else: x = x + a[:, :nx] return x def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([5, 4, 4, 4])] def get_init_inputs(): return []
ResnetBlockFC	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/2r/c2rkj22ztom44dtfrpj2uok5zc76tpegorlicksd2vm2decu7zzh.py # Topologically Sorted Source Nodes: [relu], Original ATen: [aten.relu] # Source node to ATen node mapping: # relu => relu # Graph fragment: # %relu : [num_users=1] = call_function[target=torch.ops.aten.relu.default](args = (%primals_1,), kwargs = {}) triton_poi_fused_relu_0 = async_compile.triton('triton_poi_fused_relu_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/b4/cb466w2az6ysncnvejvyzjsd6wk6xdfpcmc7dsqujta3hf4ypdfl.py # Topologically Sorted Source Nodes: [relu_1], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # relu_1 => relu_1 # Graph fragment: # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_1, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_1 = async_compile.triton('triton_poi_fused_relu_threshold_backward_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_relu_threshold_backward_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/uw/cuwluy4d4upzijoa5nzfq55wbehfhv2tajrtxuzl7vu4nglqiaud.py # Topologically Sorted Source Nodes: [add], Original ATen: [aten.add] # Source node to ATen node mapping: # add => add # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_1, %view_3), kwargs = {}) triton_poi_fused_add_2 = async_compile.triton('triton_poi_fused_add_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_2', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 3, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_2(in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_out_ptr0 + (x2), xmask) tmp2 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [relu], Original ATen: [aten.relu] stream0 = get_raw_stream(0) triton_poi_fused_relu_0.run(primals_1, buf0, 256, grid=grid(256), stream=stream0) buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf0, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf1) del primals_2 buf2 = reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf1 # reuse buf5 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [relu_1], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_1.run(buf2, primals_3, buf5, 256, grid=grid(256), stream=stream0) del primals_3 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf3) buf4 = reinterpret_tensor(buf3, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [add], Original ATen: [aten.add] triton_poi_fused_add_2.run(buf4, primals_1, primals_5, 256, grid=grid(256), stream=stream0) del primals_1 del primals_5 return (buf4, reinterpret_tensor(buf0, (64, 4), (4, 1), 0), reinterpret_tensor(buf2, (64, 4), (4, 1), 0), primals_4, buf5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn class ResnetBlockFC(nn.Module): """ Fully connected ResNet Block class. Args: size_in (int): input dimension size_out (int): output dimension size_h (int): hidden dimension """ def __init__(self, size_in, size_out=None, size_h=None): super().__init__() if size_out is None: size_out = size_in if size_h is None: size_h = min(size_in, size_out) self.size_in = size_in self.size_h = size_h self.size_out = size_out self.fc_0 = nn.Linear(size_in, size_h) self.fc_1 = nn.Linear(size_h, size_out) self.actvn = nn.ReLU() if size_in == size_out: self.shortcut = None else: self.shortcut = nn.Linear(size_in, size_out, bias=False) nn.init.zeros_(self.fc_1.weight) def forward(self, x): net = self.fc_0(self.actvn(x)) dx = self.fc_1(self.actvn(net)) if self.shortcut is not None: x_s = self.shortcut(x) else: x_s = x return x_s + dx def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'size_in': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_relu_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_add_2(in_out_ptr0, in_ptr0, in_ptr1, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_out_ptr0 + x2, xmask) tmp2 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tl.store(in_out_ptr0 + x2, tmp4, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_relu_0[grid(256)](primals_1, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf0, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf1) del primals_2 buf2 = reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf1 buf5 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_relu_threshold_backward_1[grid(256)](buf2, primals_3, buf5, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_3 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf3) buf4 = reinterpret_tensor(buf3, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf3 triton_poi_fused_add_2[grid(256)](buf4, primals_1, primals_5, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_1 del primals_5 return buf4, reinterpret_tensor(buf0, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf2, (64, 4), (4, 1), 0), primals_4, buf5 class ResnetBlockFCNew(nn.Module): """ Fully connected ResNet Block class. Args: size_in (int): input dimension size_out (int): output dimension size_h (int): hidden dimension """ def __init__(self, size_in, size_out=None, size_h=None): super().__init__() if size_out is None: size_out = size_in if size_h is None: size_h = min(size_in, size_out) self.size_in = size_in self.size_h = size_h self.size_out = size_out self.fc_0 = nn.Linear(size_in, size_h) self.fc_1 = nn.Linear(size_h, size_out) self.actvn = nn.ReLU() if size_in == size_out: self.shortcut = None else: self.shortcut = nn.Linear(size_in, size_out, bias=False) nn.init.zeros_(self.fc_1.weight) def forward(self, input_0): primals_2 = self.fc_0.weight primals_3 = self.fc_0.bias primals_4 = self.fc_1.weight primals_5 = self.fc_1.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	BoyanJIANG/4D-Compositional-Representation	ResnetBlockFC	false	7,838	[ "Apache-2.0" ]	12	64d5f4bbd6b8e6bc3bfd8f76736f6d468c71a73c	https://github.com/BoyanJIANG/4D-Compositional-Representation/tree/64d5f4bbd6b8e6bc3bfd8f76736f6d468c71a73c	import torch from torch import nn class Model(nn.Module): """ Fully connected ResNet Block class. Args: size_in (int): input dimension size_out (int): output dimension size_h (int): hidden dimension """ def __init__(self, size_in, size_out=None, size_h=None): super().__init__() if size_out is None: size_out = size_in if size_h is None: size_h = min(size_in, size_out) self.size_in = size_in self.size_h = size_h self.size_out = size_out self.fc_0 = nn.Linear(size_in, size_h) self.fc_1 = nn.Linear(size_h, size_out) self.actvn = nn.ReLU() if size_in == size_out: self.shortcut = None else: self.shortcut = nn.Linear(size_in, size_out, bias=False) nn.init.zeros_(self.fc_1.weight) def forward(self, x): net = self.fc_0(self.actvn(x)) dx = self.fc_1(self.actvn(net)) if self.shortcut is not None: x_s = self.shortcut(x) else: x_s = x return x_s + dx def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4]
simple_decoder	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/u7/cu7ziqi77hug2wdrtmh5mp3xgwsiwfpia7466n3r74kmen7pg4l7.py # Topologically Sorted Source Nodes: [conv2d, sigmoid, net], Original ATen: [aten.convolution, aten.sigmoid, aten.mul] # Source node to ATen node mapping: # conv2d => convolution # net => mul # sigmoid => sigmoid # Graph fragment: # %convolution : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [1, 1], [2, 2], [1, 1], False, [0, 0], 1), kwargs = {}) # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%convolution,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, 256), kwargs = {}) triton_poi_fused_convolution_mul_sigmoid_0 = async_compile.triton('triton_poi_fused_convolution_mul_sigmoid_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_mul_sigmoid_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_convolution_mul_sigmoid_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tmp4 = 256.0 tmp5 = tmp3 * tmp4 tl.store(in_out_ptr0 + (x3), tmp2, xmask) tl.store(out_ptr0 + (x3), tmp5, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 5, 5), (100, 25, 5, 1)) assert_size_stride(primals_2, (4, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = buf0; del buf0 # reuse buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [conv2d, sigmoid, net], Original ATen: [aten.convolution, aten.sigmoid, aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_convolution_mul_sigmoid_0.run(buf1, primals_2, buf2, 256, grid=grid(256), stream=stream0) del primals_2 return (buf2, primals_1, primals_3, buf1, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 5, 5), (100, 25, 5, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn import torch.utils import torch.distributions class simple_decoder(nn.Module): def __init__(self, channels, width, height, dropout): super(simple_decoder, self).__init__() self.width = width self.height = height self.channels = channels self.dec_conv = nn.Conv2d(in_channels=self.channels, out_channels= self.channels, kernel_size=5, padding=2) if dropout > 0: self.dropout = nn.Dropout(dropout) else: self.dropout = nn.Identity() def forward(self, x, context=None): net = torch.sigmoid(self.dec_conv(x)) * 256 return net def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'channels': 4, 'width': 4, 'height': 4, 'dropout': 0.5}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch import nn import torch.utils import torch.distributions assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_convolution_mul_sigmoid_0(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.sigmoid(tmp2) tmp4 = 256.0 tmp5 = tmp3 * tmp4 tl.store(in_out_ptr0 + x3, tmp2, xmask) tl.store(out_ptr0 + x3, tmp5, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 5, 5), (100, 25, 5, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(1, 1), padding=(2, 2), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 4, 4), (64, 16, 4, 1)) buf1 = buf0 del buf0 buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_convolution_mul_sigmoid_0[grid(256)](buf1, primals_2, buf2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 return buf2, primals_1, primals_3, buf1 class simple_decoderNew(nn.Module): def __init__(self, channels, width, height, dropout): super(simple_decoderNew, self).__init__() self.width = width self.height = height self.channels = channels self.dec_conv = nn.Conv2d(in_channels=self.channels, out_channels= self.channels, kernel_size=5, padding=2) if dropout > 0: self.dropout = nn.Dropout(dropout) else: self.dropout = nn.Identity() def forward(self, input_0): primals_1 = self.dec_conv.weight primals_2 = self.dec_conv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	Butters-cloud/denoising-normalizing-flow	simple_decoder	false	7,839	[ "MIT" ]	12	12d56a0d069e10a744acabf5e78fdbfba8df54ee	https://github.com/Butters-cloud/denoising-normalizing-flow/tree/12d56a0d069e10a744acabf5e78fdbfba8df54ee	import torch from torch import nn import torch.utils import torch.distributions class Model(nn.Module): def __init__(self, channels, width, height, dropout): super().__init__() self.width = width self.height = height self.channels = channels self.dec_conv = nn.Conv2d(in_channels=self.channels, out_channels= self.channels, kernel_size=5, padding=2) if dropout > 0: self.dropout = nn.Dropout(dropout) else: self.dropout = nn.Identity() def forward(self, x, context=None): net = torch.sigmoid(self.dec_conv(x)) * 256 return net def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4, 4, 4, 0.5]
Reorg	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/ci/cci6zns5syayrxwleb662v7mnw5anubbito3ni6oqyxgo26m5ydb.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.clone] # Source node to ATen node mapping: # x_2 => clone_2 # Graph fragment: # %clone_2 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute_2,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_0 = async_compile.triton('triton_poi_fused_clone_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16, 16], tile_hint=TileHint.SQUARE, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex % 2 x3 = (xindex // 2) y0 = yindex % 4 y1 = (yindex // 4) x5 = xindex y4 = yindex tmp0 = tl.load(in_ptr0 + ((2x2) + (4(y0 // 2)) + (8x3) + (64y1) + (y0 % 2)), xmask & ymask) tl.store(out_ptr0 + (x5 + (16*y4)), tmp0, xmask & ymask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 2, 2), (64, 16, 4, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(arg0_1, buf0, 16, 16, grid=grid(16, 16), stream=stream0) del arg0_1 return (reinterpret_tensor(buf0, (4, 16, 2, 2), (64, 4, 2, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class Reorg(nn.Module): def __init__(self, stride=2): super(Reorg, self).__init__() self.stride = stride def forward(self, x): assert x.data.dim() == 4 B = x.data.size(0) C = x.data.size(1) H = x.data.size(2) W = x.data.size(3) assert H % self.stride == 0 assert W % self.stride == 0 w_stride = self.stride h_stride = self.stride x = x.view(B, C, H // h_stride, h_stride, W // w_stride, w_stride ).transpose(3, 4).contiguous() x = x.view(B, C, H // h_stride * (W // w_stride), h_stride * w_stride ).transpose(2, 3).contiguous() x = x.view(B, C, h_stride * w_stride, H // h_stride, W // w_stride ).transpose(1, 2).contiguous() x = x.view(B, h_stride * w_stride * C, H // h_stride, W // w_stride) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_clone_0(in_ptr0, out_ptr0, ynumel, xnumel, YBLOCK: tl. constexpr, XBLOCK: tl.constexpr): ynumel = 16 xnumel = 16 yoffset = tl.program_id(1) * YBLOCK yindex = yoffset + tl.arange(0, YBLOCK)[None, :] ymask = yindex < ynumel xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel x2 = xindex % 2 x3 = xindex // 2 y0 = yindex % 4 y1 = yindex // 4 x5 = xindex y4 = yindex tmp0 = tl.load(in_ptr0 + (2 * x2 + 4 * (y0 // 2) + 8 * x3 + 64 * y1 + y0 % 2), xmask & ymask) tl.store(out_ptr0 + (x5 + 16 * y4), tmp0, xmask & ymask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 2, 2), (64, 16, 4, 2, 1), torch .float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(16, 16)](arg0_1, buf0, 16, 16, XBLOCK =16, YBLOCK=16, num_warps=4, num_stages=1) del arg0_1 return reinterpret_tensor(buf0, (4, 16, 2, 2), (64, 4, 2, 1), 0), class ReorgNew(nn.Module): def __init__(self, stride=2): super(ReorgNew, self).__init__() self.stride = stride def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	CharlesPikachu/CharlesFace	Reorg	false	7,840	[ "MIT" ]	13	90bfe38c58068228d0069dce43b55b2570acaa16	https://github.com/CharlesPikachu/CharlesFace/tree/90bfe38c58068228d0069dce43b55b2570acaa16	import torch import torch.nn as nn class Model(nn.Module): def __init__(self, stride=2): super().__init__() self.stride = stride def forward(self, x): assert x.data.dim() == 4 B = x.data.size(0) C = x.data.size(1) H = x.data.size(2) W = x.data.size(3) assert H % self.stride == 0 assert W % self.stride == 0 w_stride = self.stride h_stride = self.stride x = x.view(B, C, H // h_stride, h_stride, W // w_stride, w_stride ).transpose(3, 4).contiguous() x = x.view(B, C, H // h_stride * (W // w_stride), h_stride * w_stride ).transpose(2, 3).contiguous() x = x.view(B, C, h_stride * w_stride, H // h_stride, W // w_stride ).transpose(1, 2).contiguous() x = x.view(B, h_stride * w_stride * C, H // h_stride, W // w_stride) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
ContrastiveLoss	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/yk/cykngrj5r4zatonfn3o4zfsqmzd3zo4t6xwqgecrdlgp5ydjvh32.py # Topologically Sorted Source Nodes: [distance], Original ATen: [aten.sub, aten.add, aten.norm] # Source node to ATen node mapping: # distance => add, pow_1, pow_2, sub, sum_1 # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg1_1, %arg0_1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Scalar](args = (%sub, 1e-06), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%add, 2.0), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [3]), kwargs = {}) # %pow_2 : [num_users=2] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_1, 0.5), kwargs = {}) triton_poi_fused_add_norm_sub_0 = async_compile.triton('triton_poi_fused_add_norm_sub_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_norm_sub_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 8, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_add_norm_sub_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (4x0), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr1 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp18 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp19 = tl.load(in_ptr1 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp3 = 1e-06 tmp4 = tmp2 + tmp3 tmp5 = tmp4 * tmp4 tmp8 = tmp6 - tmp7 tmp9 = tmp8 + tmp3 tmp10 = tmp9 * tmp9 tmp11 = tmp5 + tmp10 tmp14 = tmp12 - tmp13 tmp15 = tmp14 + tmp3 tmp16 = tmp15 * tmp15 tmp17 = tmp11 + tmp16 tmp20 = tmp18 - tmp19 tmp21 = tmp20 + tmp3 tmp22 = tmp21 * tmp21 tmp23 = tmp17 + tmp22 tmp24 = libdevice.sqrt(tmp23) tl.store(out_ptr0 + (x0), tmp24, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/i6/ci67iqcmuavcdkdvpbtd5eegfrsiyk33fzme2svd3acntemqz4bb.py # Topologically Sorted Source Nodes: [mul, mul_1, add, add_1, sqrt, sub, relu, pow_1, mul_2, add_2, losses, loss_contrastive], Original ATen: [aten.mul, aten.add, aten.sqrt, aten.rsub, aten.relu, aten.pow, aten.mean] # Source node to ATen node mapping: # add => add_1 # add_1 => add_2 # add_2 => add_3 # loss_contrastive => mean # losses => mul_3 # mul => mul # mul_1 => mul_1 # mul_2 => mul_2 # pow_1 => pow_3 # relu => relu # sqrt => sqrt # sub => sub_1 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg2_1, %pow_2), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg2_1, -1), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, 1), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%pow_2, 1e-09), kwargs = {}) # %sqrt : [num_users=1] = call_function[target=torch.ops.aten.sqrt.default](args = (%add_2,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (2.0, %sqrt), kwargs = {}) # %relu : [num_users=1] = call_function[target=torch.ops.aten.relu.default](args = (%sub_1,), kwargs = {}) # %pow_3 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%relu, 2), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_1, %pow_3), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %mul_2), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_3, 0.5), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%mul_3,), kwargs = {}) triton_per_fused_add_mean_mul_pow_relu_rsub_sqrt_1 = async_compile.triton('triton_per_fused_add_mean_mul_pow_relu_rsub_sqrt_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[1, 256], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32', 4: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {3: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 4), equal_to_1=(3,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_mean_mul_pow_relu_rsub_sqrt_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, 'num_reduction': 1, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused_add_mean_mul_pow_relu_rsub_sqrt_1(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): xnumel = 1 XBLOCK: tl.constexpr = 1 rnumel = 256 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) XBLOCK xindex = tl.full([1], xoffset, tl.int32) xmask = tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] roffset = 0 rmask = tl.full([RBLOCK], True, tl.int1) r2 = rindex r0 = rindex % 64 tmp0 = tl.load(in_ptr0 + (r2), None) tmp1 = tl.load(in_ptr1 + (r0), None, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tmp3 = -1.0 tmp4 = tmp0 * tmp3 tmp5 = 1.0 tmp6 = tmp4 + tmp5 tmp7 = 1e-09 tmp8 = tmp1 + tmp7 tmp9 = libdevice.sqrt(tmp8) tmp10 = 2.0 tmp11 = tmp10 - tmp9 tmp12 = tl.full([1], 0, tl.int32) tmp13 = triton_helpers.maximum(tmp12, tmp11) tmp14 = tmp13 * tmp13 tmp15 = tmp6 * tmp14 tmp16 = tmp2 + tmp15 tmp17 = 0.5 tmp18 = tmp16 * tmp17 tmp19 = tl.broadcast_to(tmp18, [RBLOCK]) tmp21 = triton_helpers.promote_to_tensor(tl.sum(tmp19, 0)) tmp22 = 256.0 tmp23 = tmp21 / tmp22 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp23, None) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [distance], Original ATen: [aten.sub, aten.add, aten.norm] stream0 = get_raw_stream(0) triton_poi_fused_add_norm_sub_0.run(arg1_1, arg0_1, buf0, 64, grid=grid(64), stream=stream0) del arg0_1 del arg1_1 buf1 = empty_strided_cuda((), (), torch.float32) buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [mul, mul_1, add, add_1, sqrt, sub, relu, pow_1, mul_2, add_2, losses, loss_contrastive], Original ATen: [aten.mul, aten.add, aten.sqrt, aten.rsub, aten.relu, aten.pow, aten.mean] triton_per_fused_add_mean_mul_pow_relu_rsub_sqrt_1.run(buf2, arg2_1, buf0, 1, 256, grid=grid(1), stream=stream0) del arg2_1 del buf0 return (buf2, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) arg2_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1, arg1_1, arg2_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch from torch import nn from torch.nn import functional as F class ContrastiveLoss(nn.Module): """ Contrastive loss function. ref: http://yann.lecun.com/exdb/publis/pdf/hadsell-chopra-lecun-06.pdf """ def __init__(self, margin=2.0): super(ContrastiveLoss, self).__init__() self.margin = margin self.eps = 1e-09 def forward(self, output1, output2, label): distance = F.pairwise_distance(output1, output2) losses = 0.5 * (label.float() * distance + (1 + -1 * label).float() * F.relu(self.margin - (distance + self.eps).sqrt()).pow(2)) loss_contrastive = torch.mean(losses) return loss_contrastive def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_norm_sub_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + 4 * x0, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp13 = tl.load(in_ptr1 + (2 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp18 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp19 = tl.load(in_ptr1 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp2 = tmp0 - tmp1 tmp3 = 1e-06 tmp4 = tmp2 + tmp3 tmp5 = tmp4 * tmp4 tmp8 = tmp6 - tmp7 tmp9 = tmp8 + tmp3 tmp10 = tmp9 * tmp9 tmp11 = tmp5 + tmp10 tmp14 = tmp12 - tmp13 tmp15 = tmp14 + tmp3 tmp16 = tmp15 * tmp15 tmp17 = tmp11 + tmp16 tmp20 = tmp18 - tmp19 tmp21 = tmp20 + tmp3 tmp22 = tmp21 * tmp21 tmp23 = tmp17 + tmp22 tmp24 = libdevice.sqrt(tmp23) tl.store(out_ptr0 + x0, tmp24, xmask) @triton.jit def triton_per_fused_add_mean_mul_pow_relu_rsub_sqrt_1(in_out_ptr0, in_ptr0, in_ptr1, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r2 = rindex r0 = rindex % 64 tmp0 = tl.load(in_ptr0 + r2, None) tmp1 = tl.load(in_ptr1 + r0, None, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tmp3 = -1.0 tmp4 = tmp0 * tmp3 tmp5 = 1.0 tmp6 = tmp4 + tmp5 tmp7 = 1e-09 tmp8 = tmp1 + tmp7 tmp9 = libdevice.sqrt(tmp8) tmp10 = 2.0 tmp11 = tmp10 - tmp9 tmp12 = tl.full([1], 0, tl.int32) tmp13 = triton_helpers.maximum(tmp12, tmp11) tmp14 = tmp13 * tmp13 tmp15 = tmp6 * tmp14 tmp16 = tmp2 + tmp15 tmp17 = 0.5 tmp18 = tmp16 * tmp17 tmp19 = tl.broadcast_to(tmp18, [RBLOCK]) tmp21 = triton_helpers.promote_to_tensor(tl.sum(tmp19, 0)) tmp22 = 256.0 tmp23 = tmp21 / tmp22 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp23, None) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg1_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(arg2_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_norm_sub_0[grid(64)](arg1_1, arg0_1, buf0, 64, XBLOCK=64, num_warps=1, num_stages=1) del arg0_1 del arg1_1 buf1 = empty_strided_cuda((), (), torch.float32) buf2 = buf1 del buf1 triton_per_fused_add_mean_mul_pow_relu_rsub_sqrt_1[grid(1)](buf2, arg2_1, buf0, 1, 256, num_warps=2, num_stages=1) del arg2_1 del buf0 return buf2, class ContrastiveLossNew(nn.Module): """ Contrastive loss function. ref: http://yann.lecun.com/exdb/publis/pdf/hadsell-chopra-lecun-06.pdf """ def __init__(self, margin=2.0): super(ContrastiveLossNew, self).__init__() self.margin = margin self.eps = 1e-09 def forward(self, input_0, input_1, input_2): arg0_1 = input_0 arg1_1 = input_1 arg2_1 = input_2 output = call([arg0_1, arg1_1, arg2_1]) return output[0]	CV-ZMH/human-action-recognition	ContrastiveLoss	false	7,841	[ "MIT" ]	36	009bd1da71c087c3071173b325e34ed342599581	https://github.com/CV-ZMH/human-action-recognition/tree/009bd1da71c087c3071173b325e34ed342599581	import torch from torch import nn from torch.nn import functional as F class Model(nn.Module): """ Contrastive loss function. ref: http://yann.lecun.com/exdb/publis/pdf/hadsell-chopra-lecun-06.pdf """ def __init__(self, margin=2.0): super().__init__() self.margin = margin self.eps = 1e-09 def forward(self, output1, output2, label): distance = F.pairwise_distance(output1, output2) losses = 0.5 * (label.float() * distance + (1 + -1 * label).float() * F.relu(self.margin - (distance + self.eps).sqrt()).pow(2)) loss_contrastive = torch.mean(losses) return loss_contrastive def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 4, 4, 4])] def get_init_inputs(): return []
Upsample	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/za/czambx4debjna7weirsx3k25o6zgirc3niva7su5rel266wjplok.py # Topologically Sorted Source Nodes: [contiguous], Original ATen: [aten.clone] # Source node to ATen node mapping: # contiguous => clone # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_0 = async_compile.triton('triton_poi_fused_clone_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[1024], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_clone_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 2) % 4 x3 = (xindex // 16) x4 = xindex tmp0 = tl.load(in_ptr0 + (x1 + (4*x3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (x4), tmp0, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 2, 4, 2), (256, 64, 16, 8, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [contiguous], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(arg0_1, buf0, 1024, grid=grid(1024), stream=stream0) del arg0_1 return (reinterpret_tensor(buf0, (4, 4, 8, 8), (256, 64, 8, 1), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn class Upsample(nn.Module): def __init__(self, stride=2): super(Upsample, self).__init__() self.stride = stride def forward(self, x): assert x.data.dim() == 4 B = x.data.size(0) C = x.data.size(1) H = x.data.size(2) W = x.data.size(3) x = x.view(B, C, H, 1, W, 1).expand(B, C, H, self.stride, W, self. stride).contiguous().view(B, C, H * self.stride, W * self.stride) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_clone_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 2 % 4 x3 = xindex // 16 x4 = xindex tmp0 = tl.load(in_ptr0 + (x1 + 4 * x3), xmask, eviction_policy='evict_last' ) tl.store(out_ptr0 + x4, tmp0, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 2, 4, 2), (256, 64, 16, 8, 2, 1 ), torch.float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(1024)](arg0_1, buf0, 1024, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return reinterpret_tensor(buf0, (4, 4, 8, 8), (256, 64, 8, 1), 0), class UpsampleNew(nn.Module): def __init__(self, stride=2): super(UpsampleNew, self).__init__() self.stride = stride def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	CharlesPikachu/CharlesFace	Upsample	false	7,842	[ "MIT" ]	13	90bfe38c58068228d0069dce43b55b2570acaa16	https://github.com/CharlesPikachu/CharlesFace/tree/90bfe38c58068228d0069dce43b55b2570acaa16	import torch import torch.nn as nn class Model(nn.Module): def __init__(self, stride=2): super().__init__() self.stride = stride def forward(self, x): assert x.data.dim() == 4 B = x.data.size(0) C = x.data.size(1) H = x.data.size(2) W = x.data.size(3) x = x.view(B, C, H, 1, W, 1).expand(B, C, H, self.stride, W, self. stride).contiguous().view(B, C, H * self.stride, W * self.stride) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
softmax_SR	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/ws/cws6l76cujqxxsawqdre7jypdquoz7dqxariiq7cw5gfnse3hvvx.py # Topologically Sorted Source Nodes: [sr], Original ATen: [aten._softmax] # Source node to ATen node mapping: # sr => amax, div, exp, sub, sum_1 # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view, [2], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [2], True), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_per_fused__softmax_0 = async_compile.triton('triton_per_fused__softmax_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused__softmax_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, 'num_reduction': 2, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False} ) @triton.jit def triton_per_fused__softmax_0(in_ptr0, out_ptr2, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 16 rnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] roffset = 0 rmask = tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + (16x0)), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, float("-inf")) tmp4 = triton_helpers.max2(tmp3, 1)[:, None] tmp5 = tmp0 - tmp4 tmp6 = tl_math.exp(tmp5) tmp7 = tl.broadcast_to(tmp6, [XBLOCK, RBLOCK]) tmp9 = tl.where(xmask, tmp7, 0) tmp10 = tl.sum(tmp9, 1)[:, None] tmp11 = tmp6 / tmp10 tl.store(out_ptr2 + (r1 + (16x0)), tmp11, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf2 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [sr], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_per_fused__softmax_0.run(arg0_1, buf2, 16, 16, grid=grid(16), stream=stream0) del arg0_1 return (reinterpret_tensor(buf2, (4, 16, 4), (64, 1, 16), 0), ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch.nn.functional as F class softmax_SR(nn.Module): def __init__(self): super().__init__() def forward(self, x): sr = F.softmax(x.reshape(x.size(0), x.size(1), -1), dim=2) sr = sr.transpose(1, 2) return sr def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_per_fused__softmax_0(in_ptr0, out_ptr2, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 16 RBLOCK: tl.constexpr = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:, None] xmask = xindex < xnumel rindex = tl.arange(0, RBLOCK)[None, :] tl.full([XBLOCK, RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, float('-inf')) tmp4 = triton_helpers.max2(tmp3, 1)[:, None] tmp5 = tmp0 - tmp4 tmp6 = tl_math.exp(tmp5) tmp7 = tl.broadcast_to(tmp6, [XBLOCK, RBLOCK]) tmp9 = tl.where(xmask, tmp7, 0) tmp10 = tl.sum(tmp9, 1)[:, None] tmp11 = tmp6 / tmp10 tl.store(out_ptr2 + (r1 + 16 * x0), tmp11, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf2 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) get_raw_stream(0) triton_per_fused__softmax_0[grid(16)](arg0_1, buf2, 16, 16, XBLOCK= 1, num_warps=2, num_stages=1) del arg0_1 return reinterpret_tensor(buf2, (4, 16, 4), (64, 1, 16), 0), class softmax_SRNew(nn.Module): def __init__(self): super().__init__() def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	CILAB-MA/Machine_ToM	softmax_SR	false	7,843	[ "MIT" ]	13	8c168ee31cc95a7f57998e8907273799533fe04f	https://github.com/CILAB-MA/Machine_ToM/tree/8c168ee31cc95a7f57998e8907273799533fe04f	import torch import torch.nn as nn import torch.nn.functional as F class Model(nn.Module): def __init__(self): super().__init__() def forward(self, x): sr = F.softmax(x.reshape(x.size(0), x.size(1), -1), dim=2) sr = sr.transpose(1, 2) return sr def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return []
Attn	# AOT ID: ['0_forward'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/bx/cbx7bul76cmzmgnt7imfsql2you2bzhru7krslndn4kftvafejhz.py # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%permute, %primals_1], 2), kwargs = {}) triton_poi_fused_cat_0 = async_compile.triton('triton_poi_fused_cat_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_cat_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 128 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x2 = (xindex // 32) x3 = (xindex // 8) x4 = xindex tmp0 = x0 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + ((4x2) + x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + ((4x3) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x4), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/cv/ccvvrbl5xq2dop2s3ilfb3hyf275whlxxdyq7j2gky5t2pg6gozw.py # Topologically Sorted Source Nodes: [energy], Original ATen: [aten.tanh] # Source node to ATen node mapping: # energy => tanh # Graph fragment: # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%view_1,), kwargs = {}) triton_poi_fused_tanh_1 = async_compile.triton('triton_poi_fused_tanh_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_tanh_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 2, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_tanh_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/fp/cfp6aijow2g5is2smjrqj7kca6itit4xrxs2tseqvxiqv3qu5hs6.py # Topologically Sorted Source Nodes: [normalized_energy], Original ATen: [aten._softmax] # Source node to ATen node mapping: # normalized_energy => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%permute_3, [2], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%permute_3, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) triton_poi_fused__softmax_2 = async_compile.triton('triton_poi_fused__softmax_2', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_2', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + (x2), tmp9, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/vk/cvkegrqrqvgc6l3q574j6alpmoropwpd76xcxahk7k7j2fjfbppc.py # Topologically Sorted Source Nodes: [normalized_energy], Original ATen: [aten._softmax] # Source node to ATen node mapping: # normalized_energy => div, sum_1 # Graph fragment: # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%exp, [2], True), kwargs = {}) # %div : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_3 = async_compile.triton('triton_poi_fused__softmax_3', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__softmax_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused__softmax_3(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 8), (8, 1)) assert_size_stride(primals_4, (4, ), (1, )) assert_size_stride(primals_5, (1, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 8), (32, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_2, primals_1, buf0, 128, grid=grid(128), stream=stream0) del primals_2 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf0, (16, 8), (8, 1), 0), reinterpret_tensor(primals_3, (8, 4), (1, 8), 0), out=buf1) del primals_3 buf2 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [energy], Original ATen: [aten.tanh] triton_poi_fused_tanh_1.run(buf2, primals_4, 64, grid=grid(64), stream=stream0) del primals_4 buf3 = empty_strided_cuda((16, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf2, (16, 4), (4, 1), 0), reinterpret_tensor(primals_5, (4, 1), (1, 4), 0), out=buf3) buf4 = empty_strided_cuda((4, 1, 4), (4, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [normalized_energy], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf3, buf4, 16, grid=grid(16), stream=stream0) buf5 = reinterpret_tensor(buf3, (4, 1, 4), (4, 4, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [normalized_energy], Original ATen: [aten._softmax] triton_poi_fused__softmax_3.run(buf4, buf5, 16, grid=grid(16), stream=stream0) buf6 = reinterpret_tensor(buf4, (4, 1, 4), (4, 4, 1), 0); del buf4 # reuse # Topologically Sorted Source Nodes: [context], Original ATen: [aten.bmm] extern_kernels.bmm(buf5, primals_1, out=buf6) return (buf6, reinterpret_tensor(buf0, (16, 8), (8, 1), 0), buf2, buf5, reinterpret_tensor(primals_1, (4, 4, 4), (16, 1, 4), 0), primals_5, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance primals_1 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((1, 4), (4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([primals_1, primals_2, primals_3, primals_4, primals_5]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn.functional as F from torch import nn class Attn(nn.Module): def __init__(self, hidden_size): super().__init__() self.hidden_size = hidden_size self.attn = nn.Linear(self.hidden_size * 2, hidden_size) self.v = nn.Linear(hidden_size, 1, bias=False) def forward(self, hidden, encoder_outputs, mask=None): """ :param hidden: tensor of size [n_layer, B, H] :param encoder_outputs: tensor of size [B,T, H] """ attn_energies = self.score(hidden, encoder_outputs) if mask is None: normalized_energy = F.softmax(attn_energies, dim=2) else: attn_energies.masked_fill_(mask, -1e+20) normalized_energy = F.softmax(attn_energies, dim=2) context = torch.bmm(normalized_energy, encoder_outputs) return context def score(self, hidden, encoder_outputs): max_len = encoder_outputs.size(1) H = hidden.repeat(max_len, 1, 1).transpose(0, 1) energy = torch.tanh(self.attn(torch.cat([H, encoder_outputs], 2))) energy = self.v(energy).transpose(1, 2) return energy def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'hidden_size': 4}]	import torch from torch._inductor.select_algorithm import extern_kernels import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream from torch._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch import nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_cat_0(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 128 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 8 x2 = xindex // 32 x3 = xindex // 8 x4 = xindex tmp0 = x0 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x2 + x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr1 + (4 * x3 + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x4, tmp10, xmask) @triton.jit def triton_poi_fused_tanh_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) @triton.jit def triton_poi_fused__softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = triton_helpers.maximum(tmp1, tmp2) tmp5 = triton_helpers.maximum(tmp3, tmp4) tmp7 = triton_helpers.maximum(tmp5, tmp6) tmp8 = tmp0 - tmp7 tmp9 = tl_math.exp(tmp8) tl.store(out_ptr0 + x2, tmp9, xmask) @triton.jit def triton_poi_fused__softmax_3(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr ): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 8), (8, 1)) assert_size_stride(primals_4, (4,), (1,)) assert_size_stride(primals_5, (1, 4), (4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 8), (32, 8, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(128)](primals_2, primals_1, buf0, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf0, (16, 8), (8, 1), 0), reinterpret_tensor(primals_3, (8, 4), (1, 8), 0), out=buf1) del primals_3 buf2 = reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0) del buf1 triton_poi_fused_tanh_1[grid(64)](buf2, primals_4, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_4 buf3 = empty_strided_cuda((16, 1), (1, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf2, (16, 4), (4, 1), 0), reinterpret_tensor(primals_5, (4, 1), (1, 4), 0), out=buf3) buf4 = empty_strided_cuda((4, 1, 4), (4, 16, 1), torch.float32) triton_poi_fused__softmax_2[grid(16)](buf3, buf4, 16, XBLOCK=16, num_warps=1, num_stages=1) buf5 = reinterpret_tensor(buf3, (4, 1, 4), (4, 4, 1), 0) del buf3 triton_poi_fused__softmax_3[grid(16)](buf4, buf5, 16, XBLOCK=16, num_warps=1, num_stages=1) buf6 = reinterpret_tensor(buf4, (4, 1, 4), (4, 4, 1), 0) del buf4 extern_kernels.bmm(buf5, primals_1, out=buf6) return buf6, reinterpret_tensor(buf0, (16, 8), (8, 1), 0 ), buf2, buf5, reinterpret_tensor(primals_1, (4, 4, 4), (16, 1, 4), 0 ), primals_5 class AttnNew(nn.Module): def __init__(self, hidden_size): super().__init__() self.hidden_size = hidden_size self.attn = nn.Linear(self.hidden_size * 2, hidden_size) self.v = nn.Linear(hidden_size, 1, bias=False) def score(self, hidden, encoder_outputs): max_len = encoder_outputs.size(1) H = hidden.repeat(max_len, 1, 1).transpose(0, 1) energy = torch.tanh(self.attn(torch.cat([H, encoder_outputs], 2))) energy = self.v(energy).transpose(1, 2) return energy def forward(self, input_0, input_1): primals_3 = self.attn.weight primals_4 = self.attn.bias primals_5 = self.v.weight primals_2 = input_0 primals_1 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	ChansongJo/DAMD	Attn	false	7,844	[ "Apache-2.0" ]	39	9b0456d7e590fb5de77ec81e967e8010487eeb56	https://github.com/ChansongJo/DAMD/tree/9b0456d7e590fb5de77ec81e967e8010487eeb56	import torch import torch.nn.functional as F from torch import nn class Model(nn.Module): def __init__(self, hidden_size): super().__init__() self.hidden_size = hidden_size self.attn = nn.Linear(self.hidden_size * 2, hidden_size) self.v = nn.Linear(hidden_size, 1, bias=False) def forward(self, hidden, encoder_outputs, mask=None): """ :param hidden: tensor of size [n_layer, B, H] :param encoder_outputs: tensor of size [B,T, H] """ attn_energies = self.score(hidden, encoder_outputs) if mask is None: normalized_energy = F.softmax(attn_energies, dim=2) else: attn_energies.masked_fill_(mask, -1e+20) normalized_energy = F.softmax(attn_energies, dim=2) context = torch.bmm(normalized_energy, encoder_outputs) return context def score(self, hidden, encoder_outputs): max_len = encoder_outputs.size(1) H = hidden.repeat(max_len, 1, 1).transpose(0, 1) energy = torch.tanh(self.attn(torch.cat([H, encoder_outputs], 2))) energy = self.v(energy).transpose(1, 2) return energy def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [4]
InputInjection	# AOT ID: ['0_inference'] from ctypes import c_void_p, c_long, c_int import torch import math import random import os import tempfile from math import inf, nan from torch._inductor.hooks import run_intermediate_hooks from torch._inductor.utils import maybe_profile from torch._inductor.codegen.memory_planning import _align as align from torch import device, empty_strided from torch._inductor.async_compile import AsyncCompile from torch._inductor.select_algorithm import extern_kernels from torch._inductor.codegen.multi_kernel import MultiKernelCall import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid, split_scan_grid, grid_combo_kernels, start_graph, end_graph from torch._C import _cuda_getCurrentRawStream as get_raw_stream aten = torch.ops.aten inductor_ops = torch.ops.inductor _quantized = torch.ops._quantized assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cpu = torch._C._dynamo.guards._empty_strided_cpu empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda empty_strided_xpu = torch._C._dynamo.guards._empty_strided_xpu reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor alloc_from_pool = torch.ops.inductor._alloc_from_pool async_compile = AsyncCompile() # kernel path: runs/run_shard_1/inductor_cache/kf/ckfcpf3khjtz423uvqdkzk324dhtgsfjvpyzbxdb75fhdqayhofh.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.avg_pool2d] # Source node to ATen node mapping: # x => avg_pool2d # Graph fragment: # %avg_pool2d : [num_users=1] = call_function[target=torch.ops.aten.avg_pool2d.default](args = (%arg0_1, [3, 3], [2, 2], [1, 1]), kwargs = {}) triton_poi_fused_avg_pool2d_0 = async_compile.triton('triton_poi_fused_avg_pool2d_0', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[64], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_avg_pool2d_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 9, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_avg_pool2d_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 2) % 2 x0 = xindex % 2 x3 = (xindex // 2) x4 = xindex tmp0 = (-1) + (2x1) tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tmp2 & tmp4 tmp6 = (-1) + (2x0) tmp7 = tmp6 >= tmp1 tmp8 = tmp6 < tmp3 tmp9 = tmp7 & tmp8 tmp10 = tmp5 & tmp9 tmp11 = tl.load(in_ptr0 + ((-5) + (2x0) + (8x3)), tmp10 & xmask, eviction_policy='evict_last', other=0.0) tmp12 = 2x0 tmp13 = tmp12 >= tmp1 tmp14 = tmp12 < tmp3 tmp15 = tmp13 & tmp14 tmp16 = tmp5 & tmp15 tmp17 = tl.load(in_ptr0 + ((-4) + (2x0) + (8x3)), tmp16 & xmask, eviction_policy='evict_last', other=0.0) tmp18 = tmp17 + tmp11 tmp19 = 1 + (2x0) tmp20 = tmp19 >= tmp1 tmp21 = tmp19 < tmp3 tmp22 = tmp20 & tmp21 tmp23 = tmp5 & tmp22 tmp24 = tl.load(in_ptr0 + ((-3) + (2x0) + (8x3)), tmp23 & xmask, eviction_policy='evict_last', other=0.0) tmp25 = tmp24 + tmp18 tmp26 = 2x1 tmp27 = tmp26 >= tmp1 tmp28 = tmp26 < tmp3 tmp29 = tmp27 & tmp28 tmp30 = tmp29 & tmp9 tmp31 = tl.load(in_ptr0 + ((-1) + (2x0) + (8x3)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp32 = tmp31 + tmp25 tmp33 = tmp29 & tmp15 tmp34 = tl.load(in_ptr0 + ((2x0) + (8x3)), tmp33 & xmask, eviction_policy='evict_last', other=0.0) tmp35 = tmp34 + tmp32 tmp36 = tmp29 & tmp22 tmp37 = tl.load(in_ptr0 + (1 + (2x0) + (8x3)), tmp36 & xmask, eviction_policy='evict_last', other=0.0) tmp38 = tmp37 + tmp35 tmp39 = 1 + (2x1) tmp40 = tmp39 >= tmp1 tmp41 = tmp39 < tmp3 tmp42 = tmp40 & tmp41 tmp43 = tmp42 & tmp9 tmp44 = tl.load(in_ptr0 + (3 + (2x0) + (8x3)), tmp43 & xmask, eviction_policy='evict_last', other=0.0) tmp45 = tmp44 + tmp38 tmp46 = tmp42 & tmp15 tmp47 = tl.load(in_ptr0 + (4 + (2x0) + (8x3)), tmp46 & xmask, eviction_policy='evict_last', other=0.0) tmp48 = tmp47 + tmp45 tmp49 = tmp42 & tmp22 tmp50 = tl.load(in_ptr0 + (5 + (2x0) + (8x3)), tmp49 & xmask, eviction_policy='evict_last', other=0.0) tmp51 = tmp50 + tmp48 tmp52 = 1 + ((-2)x0) + ((-2)x1) + (((5) * ((5) <= (2 + (2x0))) + (2 + (2x0)) * ((2 + (2x0)) < (5)))((5) * ((5) <= (2 + (2x1))) + (2 + (2x1)) * ((2 + (2x1)) < (5)))) + ((-2)x0((5) ((5) <= (2 + (2x1))) + (2 + (2x1)) * ((2 + (2x1)) < (5)))) + ((-2)x1((5) ((5) <= (2 + (2x0))) + (2 + (2x0)) * ((2 + (2x0)) < (5)))) + (4x0x1) + ((5) ((5) <= (2 + (2x0))) + (2 + (2x0)) * ((2 + (2x0)) < (5))) + ((5) ((5) <= (2 + (2x1))) + (2 + (2x1)) * ((2 + (2x1)) < (5))) tmp53 = tmp51 / tmp52 tl.store(out_ptr0 + (x4), tmp53, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/wu/cwu44mumxnpsp4plppncxkcov4p3blxsihnfyxkvhoqokhmxxzcn.py # Topologically Sorted Source Nodes: [x_1, x_2, x_3], Original ATen: [aten.avg_pool2d] # Source node to ATen node mapping: # x_1 => avg_pool2d_1 # x_2 => avg_pool2d_2 # x_3 => avg_pool2d_3 # Graph fragment: # %avg_pool2d_1 : [num_users=1] = call_function[target=torch.ops.aten.avg_pool2d.default](args = (%avg_pool2d, [3, 3], [2, 2], [1, 1]), kwargs = {}) # %avg_pool2d_2 : [num_users=1] = call_function[target=torch.ops.aten.avg_pool2d.default](args = (%avg_pool2d_1, [3, 3], [2, 2], [1, 1]), kwargs = {}) # %avg_pool2d_3 : [num_users=1] = call_function[target=torch.ops.aten.avg_pool2d.default](args = (%avg_pool2d_2, [3, 3], [2, 2], [1, 1]), kwargs = {}) triton_poi_fused_avg_pool2d_1 = async_compile.triton('triton_poi_fused_avg_pool2d_1', ''' import triton import triton.language as tl from triton.compiler.compiler import AttrsDescriptor from torch._inductor.runtime import triton_helpers, triton_heuristics from torch._inductor.runtime.triton_helpers import libdevice, math as tl_math from torch._inductor.runtime.hints import AutotuneHint, ReductionHint, TileHint, instance_descriptor, DeviceProperties @triton_heuristics.pointwise( size_hints=[16], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i32'}, 'device': DeviceProperties(type='cuda', index=0, cc=90, major=9, regs_per_multiprocessor=65536, max_threads_per_multi_processor=2048, multi_processor_count=132), 'constants': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_avg_pool2d_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 9, 'num_reduction': 0, 'backend_hash': 'B098E03CDA7B8ADC90DAFFDF24A2956451D1B13F297756A5DCC209498AA53705', 'are_deterministic_algorithms_enabled': False, 'assert_indirect_indexing': True, 'autotune_local_cache': True, 'autotune_pointwise': True, 'autotune_remote_cache': None, 'force_disable_caches': False, 'dynamic_scale_rblock': True, 'max_autotune': False, 'max_autotune_pointwise': False, 'min_split_scan_rblock': 256, 'spill_threshold': 16, 'store_cubin': False}, min_elem_per_thread=0 ) @triton.jit def triton_poi_fused_avg_pool2d_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.full([1], -1, tl.int64) tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 2, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tmp2 & tmp4 tmp6 = tmp5 & tmp5 tmp7 = tl.load(in_ptr0 + ((-3) + (4x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp8 = tmp1 >= tmp1 tmp9 = tmp1 < tmp3 tmp10 = tmp8 & tmp9 tmp11 = tmp5 & tmp10 tmp12 = tl.load(in_ptr0 + ((-2) + (4x0)), tmp11 & xmask, eviction_policy='evict_last', other=0.0) tmp13 = tmp12 + tmp7 tmp14 = tl.full([1], 1, tl.int64) tmp15 = tmp14 >= tmp1 tmp16 = tmp14 < tmp3 tmp17 = tmp15 & tmp16 tmp18 = tmp5 & tmp17 tmp19 = tl.load(in_ptr0 + ((-1) + (4x0)), tmp18 & xmask, eviction_policy='evict_last', other=0.0) tmp20 = tmp19 + tmp13 tmp21 = tmp10 & tmp5 tmp22 = tl.load(in_ptr0 + ((-1) + (4x0)), tmp21 & xmask, eviction_policy='evict_last', other=0.0) tmp23 = tmp22 + tmp20 tmp24 = tmp10 & tmp10 tmp25 = tl.load(in_ptr0 + (4x0), tmp24 & xmask, eviction_policy='evict_last', other=0.0) tmp26 = tmp25 + tmp23 tmp27 = tmp10 & tmp17 tmp28 = tl.load(in_ptr0 + (1 + (4x0)), tmp27 & xmask, eviction_policy='evict_last', other=0.0) tmp29 = tmp28 + tmp26 tmp30 = tmp17 & tmp5 tmp31 = tl.load(in_ptr0 + (1 + (4x0)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp32 = tmp31 + tmp29 tmp33 = tmp17 & tmp10 tmp34 = tl.load(in_ptr0 + (2 + (4x0)), tmp33 & xmask, eviction_policy='evict_last', other=0.0) tmp35 = tmp34 + tmp32 tmp36 = tmp17 & tmp17 tmp37 = tl.load(in_ptr0 + (3 + (4*x0)), tmp36 & xmask, eviction_policy='evict_last', other=0.0) tmp38 = tmp37 + tmp35 tmp39 = tl.full([1], 9, tl.int32) tmp40 = tmp38 / tmp39 tmp41 = tmp0 < tmp14 tmp42 = tmp2 & tmp41 tmp43 = tmp42 & tmp42 tmp44 = tmp1 < tmp14 tmp45 = tmp8 & tmp44 tmp46 = tmp42 & tmp45 tmp47 = tmp40 + tmp40 tmp48 = tmp14 < tmp14 tmp49 = tmp15 & tmp48 tmp50 = tmp42 & tmp49 tmp51 = tmp40 + tmp47 tmp52 = tmp45 & tmp42 tmp53 = tmp40 + tmp51 tmp54 = tmp45 & tmp45 tmp55 = tmp40 + tmp53 tmp56 = tmp45 & tmp49 tmp57 = tmp40 + tmp55 tmp58 = tmp49 & tmp42 tmp59 = tmp40 + tmp57 tmp60 = tmp49 & tmp45 tmp61 = tmp40 + tmp59 tmp62 = tmp49 & tmp49 tmp63 = tmp40 + tmp61 tmp64 = tmp63 / tmp39 tmp65 = tmp64 + tmp64 tmp66 = tmp64 + tmp65 tmp67 = tmp64 + tmp66 tmp68 = tmp64 + tmp67 tmp69 = tmp64 + tmp68 tmp70 = tmp64 + tmp69 tmp71 = tmp64 + tmp70 tmp72 = tmp64 + tmp71 tmp73 = tmp72 / tmp39 tl.store(in_out_ptr0 + (x0), tmp73, xmask) ''', device_str='cuda') async_compile.wait(globals()) del async_compile def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.avg_pool2d] stream0 = get_raw_stream(0) triton_poi_fused_avg_pool2d_0.run(arg0_1, buf0, 64, grid=grid(64), stream=stream0) del arg0_1 buf1 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf2 = buf1; del buf1 # reuse buf3 = reinterpret_tensor(buf2, (4, 4, 1, 1), (4, 1, 1, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [x_1, x_2, x_3], Original ATen: [aten.avg_pool2d] triton_poi_fused_avg_pool2d_1.run(buf3, buf0, 16, grid=grid(16), stream=stream0) del buf0 return (buf3, ) def benchmark_compiled_module(times=10, repeat=10): from torch._dynamo.testing import rand_strided from torch._inductor.utils import print_performance arg0_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) fn = lambda: call([arg0_1]) return print_performance(fn, times=times, repeat=repeat) if __name__ == "__main__": from torch._inductor.wrapper_benchmark import compiled_module_main compiled_module_main('None', benchmark_compiled_module)	import torch import torch.nn as nn import torch._C import torch.serialization class InputInjection(nn.Module): """Downsampling module for CGNet.""" def __init__(self, num_downsampling): super(InputInjection, self).__init__() self.pool = nn.ModuleList() for i in range(num_downsampling): self.pool.append(nn.AvgPool2d(3, stride=2, padding=1)) def forward(self, x): for pool in self.pool: x = pool(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'num_downsampling': 4}]	import torch import triton import triton.language as tl from torch._inductor.runtime.triton_heuristics import grid from torch._C import _cuda_getCurrentRawStream as get_raw_stream import torch.nn as nn import torch._C import torch.serialization assert_size_stride = torch._C._dynamo.guards.assert_size_stride empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_avg_pool2d_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 2 % 2 x0 = xindex % 2 x3 = xindex // 2 x4 = xindex tmp0 = -1 + 2 * x1 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tmp2 & tmp4 tmp6 = -1 + 2 * x0 tmp7 = tmp6 >= tmp1 tmp8 = tmp6 < tmp3 tmp9 = tmp7 & tmp8 tmp10 = tmp5 & tmp9 tmp11 = tl.load(in_ptr0 + (-5 + 2 * x0 + 8 * x3), tmp10 & xmask, eviction_policy='evict_last', other=0.0) tmp12 = 2 * x0 tmp13 = tmp12 >= tmp1 tmp14 = tmp12 < tmp3 tmp15 = tmp13 & tmp14 tmp16 = tmp5 & tmp15 tmp17 = tl.load(in_ptr0 + (-4 + 2 * x0 + 8 * x3), tmp16 & xmask, eviction_policy='evict_last', other=0.0) tmp18 = tmp17 + tmp11 tmp19 = 1 + 2 * x0 tmp20 = tmp19 >= tmp1 tmp21 = tmp19 < tmp3 tmp22 = tmp20 & tmp21 tmp23 = tmp5 & tmp22 tmp24 = tl.load(in_ptr0 + (-3 + 2 * x0 + 8 * x3), tmp23 & xmask, eviction_policy='evict_last', other=0.0) tmp25 = tmp24 + tmp18 tmp26 = 2 * x1 tmp27 = tmp26 >= tmp1 tmp28 = tmp26 < tmp3 tmp29 = tmp27 & tmp28 tmp30 = tmp29 & tmp9 tmp31 = tl.load(in_ptr0 + (-1 + 2 * x0 + 8 * x3), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp32 = tmp31 + tmp25 tmp33 = tmp29 & tmp15 tmp34 = tl.load(in_ptr0 + (2 * x0 + 8 * x3), tmp33 & xmask, eviction_policy='evict_last', other=0.0) tmp35 = tmp34 + tmp32 tmp36 = tmp29 & tmp22 tmp37 = tl.load(in_ptr0 + (1 + 2 * x0 + 8 * x3), tmp36 & xmask, eviction_policy='evict_last', other=0.0) tmp38 = tmp37 + tmp35 tmp39 = 1 + 2 * x1 tmp40 = tmp39 >= tmp1 tmp41 = tmp39 < tmp3 tmp42 = tmp40 & tmp41 tmp43 = tmp42 & tmp9 tmp44 = tl.load(in_ptr0 + (3 + 2 * x0 + 8 * x3), tmp43 & xmask, eviction_policy='evict_last', other=0.0) tmp45 = tmp44 + tmp38 tmp46 = tmp42 & tmp15 tmp47 = tl.load(in_ptr0 + (4 + 2 * x0 + 8 * x3), tmp46 & xmask, eviction_policy='evict_last', other=0.0) tmp48 = tmp47 + tmp45 tmp49 = tmp42 & tmp22 tmp50 = tl.load(in_ptr0 + (5 + 2 * x0 + 8 * x3), tmp49 & xmask, eviction_policy='evict_last', other=0.0) tmp51 = tmp50 + tmp48 tmp52 = 1 + -2 * x0 + -2 * x1 + (5 * (5 <= 2 + 2 * x0) + (2 + 2 * x0) * (2 + 2 * x0 < 5)) * (5 * (5 <= 2 + 2 * x1) + (2 + 2 * x1) * (2 + 2 * x1 < 5)) + -2 * x0 * (5 * (5 <= 2 + 2 * x1) + (2 + 2 * x1) * (2 + 2 * x1 < 5)) + -2 * x1 * (5 * (5 <= 2 + 2 * x0) + (2 + 2 * x0) * (2 + 2 * x0 < 5)) + 4 * x0 * x1 + (5 * (5 <= 2 + 2 * x0) + (2 + 2 * x0) * (2 + 2 * x0 < 5)) + (5 * (5 <= 2 + 2 * x1) + (2 + 2 * x1) * (2 + 2 * x1 < 5) ) tmp53 = tmp51 / tmp52 tl.store(out_ptr0 + x4, tmp53, xmask) @triton.jit def triton_poi_fused_avg_pool2d_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = tl.full([1], -1, tl.int64) tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 2, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tmp2 & tmp4 tmp6 = tmp5 & tmp5 tmp7 = tl.load(in_ptr0 + (-3 + 4 * x0), tmp6 & xmask, eviction_policy= 'evict_last', other=0.0) tmp8 = tmp1 >= tmp1 tmp9 = tmp1 < tmp3 tmp10 = tmp8 & tmp9 tmp11 = tmp5 & tmp10 tmp12 = tl.load(in_ptr0 + (-2 + 4 * x0), tmp11 & xmask, eviction_policy ='evict_last', other=0.0) tmp13 = tmp12 + tmp7 tmp14 = tl.full([1], 1, tl.int64) tmp15 = tmp14 >= tmp1 tmp16 = tmp14 < tmp3 tmp17 = tmp15 & tmp16 tmp18 = tmp5 & tmp17 tmp19 = tl.load(in_ptr0 + (-1 + 4 * x0), tmp18 & xmask, eviction_policy ='evict_last', other=0.0) tmp20 = tmp19 + tmp13 tmp21 = tmp10 & tmp5 tmp22 = tl.load(in_ptr0 + (-1 + 4 * x0), tmp21 & xmask, eviction_policy ='evict_last', other=0.0) tmp23 = tmp22 + tmp20 tmp24 = tmp10 & tmp10 tmp25 = tl.load(in_ptr0 + 4 * x0, tmp24 & xmask, eviction_policy= 'evict_last', other=0.0) tmp26 = tmp25 + tmp23 tmp27 = tmp10 & tmp17 tmp28 = tl.load(in_ptr0 + (1 + 4 * x0), tmp27 & xmask, eviction_policy= 'evict_last', other=0.0) tmp29 = tmp28 + tmp26 tmp30 = tmp17 & tmp5 tmp31 = tl.load(in_ptr0 + (1 + 4 * x0), tmp30 & xmask, eviction_policy= 'evict_last', other=0.0) tmp32 = tmp31 + tmp29 tmp33 = tmp17 & tmp10 tmp34 = tl.load(in_ptr0 + (2 + 4 * x0), tmp33 & xmask, eviction_policy= 'evict_last', other=0.0) tmp35 = tmp34 + tmp32 tmp36 = tmp17 & tmp17 tmp37 = tl.load(in_ptr0 + (3 + 4 * x0), tmp36 & xmask, eviction_policy= 'evict_last', other=0.0) tmp38 = tmp37 + tmp35 tmp39 = tl.full([1], 9, tl.int32) tmp40 = tmp38 / tmp39 tmp41 = tmp0 < tmp14 tmp42 = tmp2 & tmp41 tmp42 & tmp42 tmp44 = tmp1 < tmp14 tmp45 = tmp8 & tmp44 tmp42 & tmp45 tmp47 = tmp40 + tmp40 tmp48 = tmp14 < tmp14 tmp49 = tmp15 & tmp48 tmp42 & tmp49 tmp51 = tmp40 + tmp47 tmp45 & tmp42 tmp53 = tmp40 + tmp51 tmp45 & tmp45 tmp55 = tmp40 + tmp53 tmp45 & tmp49 tmp57 = tmp40 + tmp55 tmp49 & tmp42 tmp59 = tmp40 + tmp57 tmp49 & tmp45 tmp61 = tmp40 + tmp59 tmp49 & tmp49 tmp63 = tmp40 + tmp61 tmp64 = tmp63 / tmp39 tmp65 = tmp64 + tmp64 tmp66 = tmp64 + tmp65 tmp67 = tmp64 + tmp66 tmp68 = tmp64 + tmp67 tmp69 = tmp64 + tmp68 tmp70 = tmp64 + tmp69 tmp71 = tmp64 + tmp70 tmp72 = tmp64 + tmp71 tmp73 = tmp72 / tmp39 tl.store(in_out_ptr0 + x0, tmp73, xmask) def call(args): arg0_1, = args args.clear() assert_size_stride(arg0_1, (4, 4, 4, 4), (64, 16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) get_raw_stream(0) triton_poi_fused_avg_pool2d_0[grid(64)](arg0_1, buf0, 64, XBLOCK=64, num_warps=1, num_stages=1) del arg0_1 buf1 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf2 = buf1 del buf1 buf3 = reinterpret_tensor(buf2, (4, 4, 1, 1), (4, 1, 1, 1), 0) del buf2 triton_poi_fused_avg_pool2d_1[grid(16)](buf3, buf0, 16, XBLOCK=16, num_warps=1, num_stages=1) del buf0 return buf3, class InputInjectionNew(nn.Module): """Downsampling module for CGNet.""" def __init__(self, num_downsampling): super(InputInjectionNew, self).__init__() self.pool = nn.ModuleList() for i in range(num_downsampling): self.pool.append(nn.AvgPool2d(3, stride=2, padding=1)) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	CarnoZhao/mmsegmentation	InputInjection	false	7,845	[ "Apache-2.0" ]	18	bdaf3d93c4d33c3f0c15f95879fdd7ab78290c1c	https://github.com/CarnoZhao/mmsegmentation/tree/bdaf3d93c4d33c3f0c15f95879fdd7ab78290c1c	import torch import torch.nn as nn import torch._C import torch.serialization class Model(nn.Module): """Downsampling module for CGNet.""" def __init__(self, num_downsampling): super().__init__() self.pool = nn.ModuleList() for i in range(num_downsampling): self.pool.append(nn.AvgPool2d(3, stride=2, padding=1)) def forward(self, x): for pool in self.pool: x = pool(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [4]

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