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entry_point stringlengths 1 65	original_triton_code stringlengths 4.5k 619k	python_code stringlengths 208 60.9k	triton_code stringlengths 1.15k 275k	repo_name stringlengths 7 115	module_name stringlengths 1 65	synthetic bool 1 class	uuid int64 0 18.5k	licenses listlengths 1 6	stars int64 0 19.8k	sha stringlengths 40 40	repo_link stringlengths 72 180
LogitCond	# 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: [logits], Original ATen: [aten._softmax] # Source node to ATen node mapping: # logits => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%arg0_1, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_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=[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/wz/cwzggcmznpiaresvmx6qeef3u56hhql6qbrkmuiufz7ambbktoyi.py # Topologically Sorted Source Nodes: [logits, max_1, cond_up, cond_down], Original ATen: [aten._softmax, aten.max, aten.gt, aten.le] # Source node to ATen node mapping: # cond_down => le # cond_up => gt # logits => div, sum_1 # max_1 => max_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 = {}) # %max_1 : [num_users=1] = call_function[target=torch.ops.aten.max.dim](args = (%div, 1), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%getitem, 1.0), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%getitem, 1.0), kwargs = {}) triton_poi_fused__softmax_gt_le_max_1 = async_compile.triton('triton_poi_fused__softmax_gt_le_max_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: 'i1', 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__softmax_gt_le_max_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__softmax_gt_le_max_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 x0 = xindex % 16 x1 = (xindex // 16) 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) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = tmp0 / tmp6 tmp8 = tmp1 / tmp6 tmp9 = triton_helpers.maximum(tmp7, tmp8) tmp10 = tmp3 / tmp6 tmp11 = triton_helpers.maximum(tmp9, tmp10) tmp12 = tmp5 / tmp6 tmp13 = triton_helpers.maximum(tmp11, tmp12) tmp14 = 1.0 tmp15 = tmp13 > tmp14 tmp16 = tmp13 <= tmp14 tl.store(out_ptr0 + (x2), tmp15, xmask) tl.store(out_ptr1 + (x2), tmp16, 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: [logits], 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, 4), (16, 4, 1), torch.bool) buf2 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [logits, max_1, cond_up, cond_down], Original ATen: [aten._softmax, aten.max, aten.gt, aten.le] triton_poi_fused__softmax_gt_le_max_1.run(buf0, buf1, buf2, 64, grid=grid(64), stream=stream0) del buf0 return (buf1, 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) 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 LogitCond(nn.Module): """ from the softmax outputs, decides whether the samples are above or below threshold. """ def __init__(self, thres=1.0): super(LogitCond, self).__init__() self.thres = thres self.softmax = nn.Softmax(dim=1) def forward(self, outputs): logits = self.softmax(outputs) max_logits, _ = torch.max(logits, dim=1) cond_up = max_logits > self.thres cond_down = max_logits <= self.thres return cond_up, cond_down 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 @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_gt_le_max_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 x0 = xindex % 16 x1 = xindex // 16 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) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = tmp0 / tmp6 tmp8 = tmp1 / tmp6 tmp9 = triton_helpers.maximum(tmp7, tmp8) tmp10 = tmp3 / tmp6 tmp11 = triton_helpers.maximum(tmp9, tmp10) tmp12 = tmp5 / tmp6 tmp13 = triton_helpers.maximum(tmp11, tmp12) tmp14 = 1.0 tmp15 = tmp13 > tmp14 tmp16 = tmp13 <= tmp14 tl.store(out_ptr0 + x2, tmp15, xmask) tl.store(out_ptr1 + x2, tmp16, 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__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, 4), (16, 4, 1), torch.bool) buf2 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.bool) triton_poi_fused__softmax_gt_le_max_1[grid(64)](buf0, buf1, buf2, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf0 return buf1, buf2 class LogitCondNew(nn.Module): """ from the softmax outputs, decides whether the samples are above or below threshold. """ def __init__(self, thres=1.0): super(LogitCondNew, self).__init__() self.thres = thres self.softmax = nn.Softmax(dim=1) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0], output[1]	Lee-Gihun/Micronet_GSJ	LogitCond	false	8,451	[ "MIT" ]	12	72289bb66507b6c3b4d14f2e5916dec718a1b198	https://github.com/Lee-Gihun/Micronet_GSJ/tree/72289bb66507b6c3b4d14f2e5916dec718a1b198
softCrossEntropy	# 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/u2/cu2beycg2t2ghizs6f4qom7bxbxmajhdaakuyq6y2korxywhp6ba.py # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax] # Source node to ATen node mapping: # log_softmax => amax, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%arg0_1, [1], True), kwargs = {}) # %sub : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %amax), kwargs = {}) triton_poi_fused__log_softmax_0 = async_compile.triton('triton_poi_fused__log_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__log_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__log_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 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/nu/cnu7aj34hbsc36tjfov67gyvxyzgoehvnntxfilefhwattidl7ja.py # Topologically Sorted Source Nodes: [log_softmax, log_likelihood, mul, sum_1, loss], Original ATen: [aten._log_softmax, aten.neg, aten.mul, aten.sum, aten.div] # Source node to ATen node mapping: # log_likelihood => neg # log_softmax => exp, log, sub_1, sum_1 # loss => div # mul => mul # sum_1 => sum_2 # 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 = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%sub_1,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%neg, %arg1_1), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul,), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sum_2, 4), kwargs = {}) triton_per_fused__log_softmax_div_mul_neg_sum_1 = async_compile.triton('triton_per_fused__log_softmax_div_mul_neg_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, 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__log_softmax_div_mul_neg_sum_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 6, '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__log_softmax_div_mul_neg_sum_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) r3 = rindex r0 = rindex % 16 r2 = (rindex // 64) tmp0 = tl.load(in_ptr0 + (r3), None) tmp1 = tl.load(in_ptr0 + (r0 + (64r2)), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + r0 + (64r2)), None, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (32 + r0 + (64r2)), None, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (48 + r0 + (64r2)), None, eviction_policy='evict_last') tmp15 = tl.load(in_ptr1 + (r0), None, 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 tmp14 = -tmp13 tmp16 = tmp14 * tmp15 tmp17 = tl.broadcast_to(tmp16, [RBLOCK]) tmp19 = triton_helpers.promote_to_tensor(tl.sum(tmp17, 0)) tmp20 = 0.25 tmp21 = tmp19 * tmp20 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp21, 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, 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: [log_softmax], Original ATen: [aten._log_softmax] stream0 = get_raw_stream(0) triton_poi_fused__log_softmax_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 buf1 = empty_strided_cuda((), (), torch.float32) buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [log_softmax, log_likelihood, mul, sum_1, loss], Original ATen: [aten._log_softmax, aten.neg, aten.mul, aten.sum, aten.div] triton_per_fused__log_softmax_div_mul_neg_sum_1.run(buf2, buf0, arg1_1, 1, 256, grid=grid(1), stream=stream0) del arg1_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, 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 from torch import nn from torch.nn import functional as F class softCrossEntropy(nn.Module): def __init__(self, reduce=True): super(softCrossEntropy, self).__init__() self.reduce = reduce return def forward(self, inputs, target): """ :param inputs: predictions :param target: target labels in vector form :return: loss """ log_likelihood = -F.log_softmax(inputs, dim=1) sample_num, _class_num = target.shape if self.reduce: loss = torch.sum(torch.mul(log_likelihood, target)) / sample_num else: loss = torch.sum(torch.mul(log_likelihood, target), 1) return loss def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([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 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__log_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 tl.store(out_ptr0 + x3, tmp8, xmask) @triton.jit def triton_per_fused__log_softmax_div_mul_neg_sum_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) r3 = rindex r0 = rindex % 16 r2 = rindex // 64 tmp0 = tl.load(in_ptr0 + r3, None) tmp1 = tl.load(in_ptr0 + (r0 + 64 * r2), None, eviction_policy='evict_last' ) tmp3 = tl.load(in_ptr0 + (16 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (32 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (48 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp15 = tl.load(in_ptr1 + r0, None, 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 tmp14 = -tmp13 tmp16 = tmp14 * tmp15 tmp17 = tl.broadcast_to(tmp16, [RBLOCK]) tmp19 = triton_helpers.promote_to_tensor(tl.sum(tmp17, 0)) tmp20 = 0.25 tmp21 = tmp19 * tmp20 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp21, 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, 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__log_softmax_0[grid(256)](arg0_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del arg0_1 buf1 = empty_strided_cuda((), (), torch.float32) buf2 = buf1 del buf1 triton_per_fused__log_softmax_div_mul_neg_sum_1[grid(1)](buf2, buf0, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg1_1 del buf0 return buf2, class softCrossEntropyNew(nn.Module): def __init__(self, reduce=True): super(softCrossEntropyNew, self).__init__() self.reduce = reduce return def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	Lingkai-Kong/Calibrated-BERT-Fine-Tuning	softCrossEntropy	false	8,452	[ "Apache-2.0" ]	29	34b8dbf1bfb0d1e466621f149622933bfeab1555	https://github.com/Lingkai-Kong/Calibrated-BERT-Fine-Tuning/tree/34b8dbf1bfb0d1e466621f149622933bfeab1555
DropBlock_Ske	# 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/hn/chnistd2faczwsk64bvezdfjqgkyl4bhbywvkzr4fqobzqsym5oe.py # Topologically Sorted Source Nodes: [setitem], Original ATen: [aten.lift_fresh, aten.index_put] # Source node to ATen node mapping: # setitem => full_default, index_put # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 2.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cpu, pin_memory: False}) # %index_put : [num_users=2] = call_function[target=torch.ops.aten.index_put_.default](args = (%arg1_1, [%ge], %full_default), kwargs = {}) triton_poi_fused_index_put_lift_fresh_0 = async_compile.triton('triton_poi_fused_index_put_lift_fresh_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), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_index_put_lift_fresh_0', 'mutated_arg_names': ['in_ptr0', '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_index_put_lift_fresh_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 100 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 = 0.9 tmp2 = tmp0 >= tmp1 tmp3 = 2.0 tmp4 = tl.where(tmp2, tmp3, tmp0) tl.store(out_ptr0 + (x0), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/7k/c7kuenuo3moffnjkrnfbdcmwtf7a6y4dof4leolzdk5k4wyq23zr.py # Topologically Sorted Source Nodes: [setitem_1], Original ATen: [aten.lift_fresh, aten.index_put] # Source node to ATen node mapping: # setitem_1 => full_default_1, index_put_1 # Graph fragment: # %full_default_1 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 1.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cpu, pin_memory: False}) # %index_put_1 : [num_users=2] = call_function[target=torch.ops.aten.index_put_.default](args = (%index_put, [%lt], %full_default_1), kwargs = {}) triton_poi_fused_index_put_lift_fresh_1 = async_compile.triton('triton_poi_fused_index_put_lift_fresh_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), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_index_put_lift_fresh_1', 'mutated_arg_names': ['in_ptr0', '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_index_put_lift_fresh_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 100 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 = 0.9 tmp2 = tmp0 < tmp1 tmp3 = 1.0 tmp4 = tl.where(tmp2, tmp3, tmp0) tl.store(out_ptr0 + (x0), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/tm/ctmkwovs7mxdhxhyeeof5rgpvd6q5vmai3nkmdrtclnnpclea4wc.py # Topologically Sorted Source Nodes: [setitem_2, mul, mul_1, sum_1, truediv], Original ATen: [aten.lift_fresh, aten.index_put, aten.mul, aten.sum, aten.div] # Source node to ATen node mapping: # mul => mul # mul_1 => mul_1 # setitem_2 => full_default_2, index_put_2 # sum_1 => sum_1 # truediv => div # Graph fragment: # %full_default_2 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cpu, pin_memory: False}) # %index_put_2 : [num_users=3] = call_function[target=torch.ops.aten.index_put_.default](args = (%index_put_1, [%eq], %full_default_2), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg0_1, %index_put_2), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, 100), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%index_put_2,), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul_1, %sum_1), kwargs = {}) triton_per_fused_div_index_put_lift_fresh_mul_sum_2 = async_compile.triton('triton_per_fused_div_index_put_lift_fresh_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=[1, 128], 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), equal_to_1=(4,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_div_index_put_lift_fresh_mul_sum_2', 'mutated_arg_names': ['in_ptr0', 'out_ptr0'], '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_div_index_put_lift_fresh_mul_sum_2(in_ptr0, in_ptr1, out_ptr0, out_ptr2, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 100 RBLOCK: tl.constexpr = 128 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 = rindex < rnumel r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), rmask, other=0.0) tmp9 = tl.load(in_ptr1 + (r0), rmask, other=0.0) tmp1 = 2.0 tmp2 = tmp0 == tmp1 tmp3 = 0.0 tmp4 = tl.where(tmp2, tmp3, tmp0) tmp5 = tl.broadcast_to(tmp4, [XBLOCK, RBLOCK]) tmp7 = tl.where(rmask, tmp5, 0) tmp8 = tl.sum(tmp7, 1)[:, None] tmp10 = tmp9 * tmp4 tmp11 = 100.0 tmp12 = tmp10 * tmp11 tmp13 = tmp12 / tmp8 tl.store(out_ptr0 + (tl.broadcast_to(r0, [XBLOCK, RBLOCK])), tmp4, rmask) tl.store(out_ptr2 + (tl.broadcast_to(r0, [XBLOCK, RBLOCK])), tmp13, rmask) ''', 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, 1, 1, 25), (25, 25, 25, 1)) assert_size_stride(arg1_1, (4, 1, 1, 25), (25, 25, 25, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [setitem], Original ATen: [aten.lift_fresh, aten.index_put] stream0 = get_raw_stream(0) triton_poi_fused_index_put_lift_fresh_0.run(arg1_1, arg1_1, 100, grid=grid(100), stream=stream0) # Topologically Sorted Source Nodes: [setitem_1], Original ATen: [aten.lift_fresh, aten.index_put] triton_poi_fused_index_put_lift_fresh_1.run(arg1_1, arg1_1, 100, grid=grid(100), stream=stream0) buf7 = empty_strided_cuda((4, 1, 1, 25), (25, 25, 25, 1), torch.float32) # Topologically Sorted Source Nodes: [setitem_2, mul, mul_1, sum_1, truediv], Original ATen: [aten.lift_fresh, aten.index_put, aten.mul, aten.sum, aten.div] triton_per_fused_div_index_put_lift_fresh_mul_sum_2.run(arg1_1, arg0_1, arg1_1, buf7, 1, 100, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 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, 1, 1, 25), (25, 25, 25, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 1, 1, 25), (25, 25, 25, 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 DropBlock_Ske(nn.Module): def __init__(self, num_point=25, keep_prob=0.9): super(DropBlock_Ske, self).__init__() self.keep_prob = keep_prob self.num_point = num_point def forward(self, input, mask): n, _c, _t, _v = input.size() mask[mask >= self.keep_prob] = 2.0 mask[mask < self.keep_prob] = 1.0 mask[mask == 2.0] = 0.0 mask = mask.view(n, 1, 1, self.num_point) return input * mask * mask.numel() / mask.sum() def get_inputs(): return [torch.rand([4, 1, 1, 25]), torch.rand([4, 1, 1, 25])] 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_index_put_lift_fresh_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 100 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 = 0.9 tmp2 = tmp0 >= tmp1 tmp3 = 2.0 tmp4 = tl.where(tmp2, tmp3, tmp0) tl.store(out_ptr0 + x0, tmp4, xmask) @triton.jit def triton_poi_fused_index_put_lift_fresh_1(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 100 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 = 0.9 tmp2 = tmp0 < tmp1 tmp3 = 1.0 tmp4 = tl.where(tmp2, tmp3, tmp0) tl.store(out_ptr0 + x0, tmp4, xmask) @triton.jit def triton_per_fused_div_index_put_lift_fresh_mul_sum_2(in_ptr0, in_ptr1, out_ptr0, out_ptr2, xnumel, rnumel, XBLOCK: tl.constexpr): rnumel = 100 RBLOCK: tl.constexpr = 128 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, :] rmask = rindex < rnumel r0 = rindex tmp0 = tl.load(in_ptr0 + r0, rmask, other=0.0) tmp9 = tl.load(in_ptr1 + r0, rmask, other=0.0) tmp1 = 2.0 tmp2 = tmp0 == tmp1 tmp3 = 0.0 tmp4 = tl.where(tmp2, tmp3, tmp0) tmp5 = tl.broadcast_to(tmp4, [XBLOCK, RBLOCK]) tmp7 = tl.where(rmask, tmp5, 0) tmp8 = tl.sum(tmp7, 1)[:, None] tmp10 = tmp9 * tmp4 tmp11 = 100.0 tmp12 = tmp10 * tmp11 tmp13 = tmp12 / tmp8 tl.store(out_ptr0 + tl.broadcast_to(r0, [XBLOCK, RBLOCK]), tmp4, rmask) tl.store(out_ptr2 + tl.broadcast_to(r0, [XBLOCK, RBLOCK]), tmp13, rmask) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 1, 1, 25), (25, 25, 25, 1)) assert_size_stride(arg1_1, (4, 1, 1, 25), (25, 25, 25, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) get_raw_stream(0) triton_poi_fused_index_put_lift_fresh_0[grid(100)](arg1_1, arg1_1, 100, XBLOCK=128, num_warps=4, num_stages=1) triton_poi_fused_index_put_lift_fresh_1[grid(100)](arg1_1, arg1_1, 100, XBLOCK=128, num_warps=4, num_stages=1) buf7 = empty_strided_cuda((4, 1, 1, 25), (25, 25, 25, 1), torch.float32 ) triton_per_fused_div_index_put_lift_fresh_mul_sum_2[grid(1)](arg1_1, arg0_1, arg1_1, buf7, 1, 100, XBLOCK=1, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf7, class DropBlock_SkeNew(nn.Module): def __init__(self, num_point=25, keep_prob=0.9): super(DropBlock_SkeNew, self).__init__() self.keep_prob = keep_prob self.num_point = num_point def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	Levigty/AimCLR	DropBlock_Ske	false	8,453	[ "MIT" ]	25	6cd73767f17748792508647355fa324fa63e235d	https://github.com/Levigty/AimCLR/tree/6cd73767f17748792508647355fa324fa63e235d
ImageEncoderV4	# 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/ij/cijpm3uaoiirghyxgtczilyhb2xn5acam52xff7pvsoylvi6e6ex.py # Topologically Sorted Source Nodes: [conv2d, x], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d => convolution # x => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [2, 2], [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: '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 = 115200 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 900) % 32 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/h4/ch4lkq6gv6yjkn5hchrhjqb54ze2fye6jhqicllc2ekrapdihscj.py # Topologically Sorted Source Nodes: [conv2d_1, x_1], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_1 => convolution_1 # x_1 => relu_1 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu, %primals_4, %primals_5, [2, 2], [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_1 = async_compile.triton('triton_poi_fused_convolution_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=[32768], 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_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_relu_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 21632 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 169) % 32 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/7t/c7tcdppxkodxvgo5be5ukxvk36mvayngk2upamqzmfszxmvurebg.py # Topologically Sorted Source Nodes: [conv2d_2, x_2], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # conv2d_2 => convolution_2 # x_2 => relu_2 # Graph fragment: # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_1, %primals_6, %primals_7, [2, 2], [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 = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_2, 0), kwargs = {}) triton_poi_fused_convolution_relu_threshold_backward_2 = async_compile.triton('triton_poi_fused_convolution_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=[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_convolution_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_convolution_relu_threshold_backward_2(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 3200 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 25) % 32 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) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x3), tmp4, xmask) tl.store(out_ptr0 + (x3), 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 = args args.clear() assert_size_stride(primals_1, (32, 3, 5, 5), (75, 25, 5, 1)) assert_size_stride(primals_2, (32, ), (1, )) assert_size_stride(primals_3, (4, 3, 64, 64), (12288, 4096, 64, 1)) assert_size_stride(primals_4, (32, 32, 5, 5), (800, 25, 5, 1)) assert_size_stride(primals_5, (32, ), (1, )) assert_size_stride(primals_6, (32, 32, 5, 5), (800, 25, 5, 1)) assert_size_stride(primals_7, (32, ), (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=(2, 2), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 32, 30, 30), (28800, 900, 30, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [conv2d, x], Original ATen: [aten.convolution, aten.relu] stream0 = get_raw_stream(0) triton_poi_fused_convolution_relu_0.run(buf1, primals_2, 115200, grid=grid(115200), stream=stream0) del primals_2 # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(buf1, primals_4, stride=(2, 2), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 32, 13, 13), (5408, 169, 13, 1)) buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [conv2d_1, x_1], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_1.run(buf3, primals_5, 21632, grid=grid(21632), stream=stream0) del primals_5 # Topologically Sorted Source Nodes: [conv2d_2], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(buf3, primals_6, stride=(2, 2), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 32, 5, 5), (800, 25, 5, 1)) buf5 = buf4; del buf4 # reuse buf6 = empty_strided_cuda((4, 32, 5, 5), (800, 25, 5, 1), torch.bool) # Topologically Sorted Source Nodes: [conv2d_2, x_2], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] triton_poi_fused_convolution_relu_threshold_backward_2.run(buf5, primals_7, buf6, 3200, grid=grid(3200), stream=stream0) del primals_7 return (buf5, primals_1, primals_3, primals_4, primals_6, buf1, buf3, buf6, ) 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, 3, 5, 5), (75, 25, 5, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((32, ), (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((32, 32, 5, 5), (800, 25, 5, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((32, 32, 5, 5), (800, 25, 5, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((32, ), (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.nn.functional as F class ImageEncoderV4(nn.Module): """ Outputs a 5 x 5 x 32 feature map that preserves spatial information. """ def __init__(self, input_channels=3, init_scale=1.0, no_weight_init= False, init_method='ortho', activation='relu'): super(ImageEncoderV4, self).__init__() self.activation = activation self.conv1 = nn.Conv2d(input_channels, 32, kernel_size=5, stride=2) self.conv2 = nn.Conv2d(32, 32, kernel_size=5, stride=2) self.conv3 = nn.Conv2d(32, 32, kernel_size=5, stride=2) if not no_weight_init: for layer in (self.conv1, self.conv2, self.conv3): if init_method == 'ortho': nn.init.orthogonal_(layer.weight, init_scale) elif init_method == 'normal': nn.init.normal_(layer.weight, mean=0.0, std=1.0) elif init_method == 'xavier_normal': nn.init.xavier_normal_(layer.weight, 1.0) else: assert init_method == 'default' def forward(self, imgs): if self.activation == 'relu': ac = F.relu elif self.activation == 'tanh': ac = torch.tanh else: raise RuntimeError() x = ac(self.conv1(imgs)) x = ac(self.conv2(x)) x = ac(self.conv3(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 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_relu_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 115200 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 900 % 32 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_convolution_relu_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 21632 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 169 % 32 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_convolution_relu_threshold_backward_2(in_out_ptr0, in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 3200 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 25 % 32 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) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x3, tmp4, xmask) tl.store(out_ptr0 + x3, tmp6, 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, (32, 3, 5, 5), (75, 25, 5, 1)) assert_size_stride(primals_2, (32,), (1,)) assert_size_stride(primals_3, (4, 3, 64, 64), (12288, 4096, 64, 1)) assert_size_stride(primals_4, (32, 32, 5, 5), (800, 25, 5, 1)) assert_size_stride(primals_5, (32,), (1,)) assert_size_stride(primals_6, (32, 32, 5, 5), (800, 25, 5, 1)) assert_size_stride(primals_7, (32,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(2, 2), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 32, 30, 30), (28800, 900, 30, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_relu_0[grid(115200)](buf1, primals_2, 115200, XBLOCK=512, num_warps=8, num_stages=1) del primals_2 buf2 = extern_kernels.convolution(buf1, primals_4, stride=(2, 2), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 32, 13, 13), (5408, 169, 13, 1)) buf3 = buf2 del buf2 triton_poi_fused_convolution_relu_1[grid(21632)](buf3, primals_5, 21632, XBLOCK=256, num_warps=4, num_stages=1) del primals_5 buf4 = extern_kernels.convolution(buf3, primals_6, stride=(2, 2), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf4, (4, 32, 5, 5), (800, 25, 5, 1)) buf5 = buf4 del buf4 buf6 = empty_strided_cuda((4, 32, 5, 5), (800, 25, 5, 1), torch.bool) triton_poi_fused_convolution_relu_threshold_backward_2[grid(3200)](buf5 , primals_7, buf6, 3200, XBLOCK=128, num_warps=4, num_stages=1) del primals_7 return buf5, primals_1, primals_3, primals_4, primals_6, buf1, buf3, buf6 class ImageEncoderV4New(nn.Module): """ Outputs a 5 x 5 x 32 feature map that preserves spatial information. """ def __init__(self, input_channels=3, init_scale=1.0, no_weight_init= False, init_method='ortho', activation='relu'): super(ImageEncoderV4New, self).__init__() self.activation = activation self.conv1 = nn.Conv2d(input_channels, 32, kernel_size=5, stride=2) self.conv2 = nn.Conv2d(32, 32, kernel_size=5, stride=2) self.conv3 = nn.Conv2d(32, 32, kernel_size=5, stride=2) if not no_weight_init: for layer in (self.conv1, self.conv2, self.conv3): if init_method == 'ortho': nn.init.orthogonal_(layer.weight, init_scale) elif init_method == 'normal': nn.init.normal_(layer.weight, mean=0.0, std=1.0) elif init_method == 'xavier_normal': nn.init.xavier_normal_(layer.weight, 1.0) else: assert init_method == 'default' 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_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	KH-Kyle/rmp_nav	ImageEncoderV4	false	8,454	[ "MIT" ]	30	d598fe70664a4cdc0e9b9dd4b52e84aa3de1b551	https://github.com/KH-Kyle/rmp_nav/tree/d598fe70664a4cdc0e9b9dd4b52e84aa3de1b551
FocalLoss	# 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/rc/crcfil63eb4ugss55nb2qvgwzc6hwvdwyo3jykheg6qpqzc6hisi.py # Topologically Sorted Source Nodes: [BCE, neg, BCE_EXP, sub, pow_1, mul, focal_loss], Original ATen: [aten.binary_cross_entropy_with_logits, aten.neg, aten.exp, aten.rsub, aten.pow, aten.mul] # Source node to ATen node mapping: # BCE => abs_1, exp, full_default, log1p, mean, minimum, mul, neg, sub, sub_1, sub_2 # BCE_EXP => exp_1 # focal_loss => mul_2 # mul => mul_1 # neg => neg_1 # pow_1 => pow_1 # sub => sub_3 # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %view_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %view), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %minimum : [num_users=1] = call_function[target=torch.ops.aten.minimum.default](args = (%full_default, %view), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%view,), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%abs_1,), 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 = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%minimum, %log1p), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul, %sub_1), kwargs = {}) # %mean : [num_users=2] = call_function[target=torch.ops.aten.mean.default](args = (%sub_2,), kwargs = {}) # %neg_1 : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%mean,), kwargs = {}) # %exp_1 : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%neg_1,), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %exp_1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub_3, 0.5), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%pow_1, 0.5), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_1, %mean), kwargs = {}) triton_per_fused_binary_cross_entropy_with_logits_exp_mul_neg_pow_rsub_0 = async_compile.triton('triton_per_fused_binary_cross_entropy_with_logits_exp_mul_neg_pow_rsub_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_binary_cross_entropy_with_logits_exp_mul_neg_pow_rsub_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_binary_cross_entropy_with_logits_exp_mul_neg_pow_rsub_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) tmp3 = tl.load(in_ptr1 + (r0), None) tmp1 = 1.0 tmp2 = tmp1 - tmp0 tmp4 = tmp2 * tmp3 tmp5 = 0.0 tmp6 = triton_helpers.minimum(tmp5, tmp3) tmp7 = tl_math.abs(tmp3) tmp8 = -tmp7 tmp9 = tl_math.exp(tmp8) tmp10 = libdevice.log1p(tmp9) tmp11 = tmp6 - tmp10 tmp12 = tmp4 - tmp11 tmp13 = tl.broadcast_to(tmp12, [RBLOCK]) tmp15 = triton_helpers.promote_to_tensor(tl.sum(tmp13, 0)) tmp16 = 256.0 tmp17 = tmp15 / tmp16 tmp18 = -tmp17 tmp19 = tl_math.exp(tmp18) tmp20 = tmp1 - tmp19 tmp21 = libdevice.sqrt(tmp20) tmp22 = 0.5 tmp23 = tmp21 * tmp22 tmp24 = tmp23 * tmp17 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp24, 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: [BCE, neg, BCE_EXP, sub, pow_1, mul, focal_loss], Original ATen: [aten.binary_cross_entropy_with_logits, aten.neg, aten.exp, aten.rsub, aten.pow, aten.mul] stream0 = get_raw_stream(0) triton_per_fused_binary_cross_entropy_with_logits_exp_mul_neg_pow_rsub_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.nn as nn import torch.nn.functional as F class FocalLoss(nn.Module): def __init__(self, weight=None, size_average=True): super(FocalLoss, self).__init__() def forward(self, inputs: 'torch.Tensor', targets: 'torch.Tensor', alpha: 'float'=0.5, gamma: 'float'=0.5, smooth: 'int'=1): inputs = inputs.view(-1) targets = targets.view(-1) BCE = F.binary_cross_entropy_with_logits(inputs, targets, reduction ='mean') BCE_EXP = torch.exp(-BCE) focal_loss = alpha * (1 - BCE_EXP) ** gamma * BCE return focal_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 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_binary_cross_entropy_with_logits_exp_mul_neg_pow_rsub_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) tmp3 = tl.load(in_ptr1 + r0, None) tmp1 = 1.0 tmp2 = tmp1 - tmp0 tmp4 = tmp2 * tmp3 tmp5 = 0.0 tmp6 = triton_helpers.minimum(tmp5, tmp3) tmp7 = tl_math.abs(tmp3) tmp8 = -tmp7 tmp9 = tl_math.exp(tmp8) tmp10 = libdevice.log1p(tmp9) tmp11 = tmp6 - tmp10 tmp12 = tmp4 - tmp11 tmp13 = tl.broadcast_to(tmp12, [RBLOCK]) tmp15 = triton_helpers.promote_to_tensor(tl.sum(tmp13, 0)) tmp16 = 256.0 tmp17 = tmp15 / tmp16 tmp18 = -tmp17 tmp19 = tl_math.exp(tmp18) tmp20 = tmp1 - tmp19 tmp21 = libdevice.sqrt(tmp20) tmp22 = 0.5 tmp23 = tmp21 * tmp22 tmp24 = tmp23 * tmp17 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp24, 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_binary_cross_entropy_with_logits_exp_mul_neg_pow_rsub_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 FocalLossNew(nn.Module): def __init__(self, weight=None, size_average=True): super(FocalLossNew, 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]	Latterlig96/DCUnet	FocalLoss	false	8,455	[ "MIT" ]	11	87d1c137a60177d6daf1dfff0483678d5580fda0	https://github.com/Latterlig96/DCUnet/tree/87d1c137a60177d6daf1dfff0483678d5580fda0
DiceBCELoss	# 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/i4/ci4aqzbffk4xya2shiixsula57gogcqqcsperffdz7nuqffymz6i.py # Topologically Sorted Source Nodes: [BCE, mul, intersection, mul_1, add, sum_2, sum_3, add_1, add_2, truediv, dice_loss, Dice_BCE], Original ATen: [aten.binary_cross_entropy_with_logits, aten.mul, aten.sum, aten.add, aten.div, aten.rsub] # Source node to ATen node mapping: # BCE => abs_1, exp, full_default, log1p, mean, minimum, mul_2, neg, sub_1, sub_2, sub_3 # Dice_BCE => add_3 # add => add # add_1 => add_1 # add_2 => add_2 # dice_loss => sub # intersection => sum_1 # mul => mul # mul_1 => mul_1 # sum_2 => sum_2 # sum_3 => sum_3 # truediv => div # Graph fragment: # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %view_1), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_1, %view), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %minimum : [num_users=1] = call_function[target=torch.ops.aten.minimum.default](args = (%full_default, %view), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%view,), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%abs_1,), 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 = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%minimum, %log1p), kwargs = {}) # %sub_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul_2, %sub_2), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%sub_3,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view, %view_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, 2.0), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, 1), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%view,), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%view_1,), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_2, %sum_3), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_1, 1), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%add, %add_2), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %div), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mean, %sub), kwargs = {}) triton_per_fused_add_binary_cross_entropy_with_logits_div_mul_rsub_sum_0 = async_compile.triton('triton_per_fused_add_binary_cross_entropy_with_logits_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_binary_cross_entropy_with_logits_div_mul_rsub_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, '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_add_binary_cross_entropy_with_logits_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) tmp3 = tl.load(in_ptr1 + (r0), None) tmp1 = 1.0 tmp2 = tmp1 - tmp0 tmp4 = tmp2 * tmp3 tmp5 = 0.0 tmp6 = triton_helpers.minimum(tmp5, tmp3) tmp7 = tl_math.abs(tmp3) tmp8 = -tmp7 tmp9 = tl_math.exp(tmp8) tmp10 = libdevice.log1p(tmp9) tmp11 = tmp6 - tmp10 tmp12 = tmp4 - tmp11 tmp13 = tl.broadcast_to(tmp12, [RBLOCK]) tmp15 = triton_helpers.promote_to_tensor(tl.sum(tmp13, 0)) tmp16 = tmp3 * tmp0 tmp17 = tl.broadcast_to(tmp16, [RBLOCK]) tmp19 = triton_helpers.promote_to_tensor(tl.sum(tmp17, 0)) tmp20 = tl.broadcast_to(tmp3, [RBLOCK]) tmp22 = triton_helpers.promote_to_tensor(tl.sum(tmp20, 0)) tmp23 = tl.broadcast_to(tmp0, [RBLOCK]) tmp25 = triton_helpers.promote_to_tensor(tl.sum(tmp23, 0)) tmp26 = 256.0 tmp27 = tmp15 / tmp26 tmp28 = 2.0 tmp29 = tmp19 * tmp28 tmp30 = tmp29 + tmp1 tmp31 = tmp22 + tmp25 tmp32 = tmp31 + tmp1 tmp33 = tmp30 / tmp32 tmp34 = tmp1 - tmp33 tmp35 = tmp27 + tmp34 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp35, 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) buf4 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [BCE, mul, intersection, mul_1, add, sum_2, sum_3, add_1, add_2, truediv, dice_loss, Dice_BCE], Original ATen: [aten.binary_cross_entropy_with_logits, aten.mul, aten.sum, aten.add, aten.div, aten.rsub] stream0 = get_raw_stream(0) triton_per_fused_add_binary_cross_entropy_with_logits_div_mul_rsub_sum_0.run(buf4, arg1_1, arg0_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_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) 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.nn.functional as F class DiceBCELoss(nn.Module): def __init__(self, weight=None, size_average=True): super(DiceBCELoss, self).__init__() def forward(self, inputs: 'torch.Tensor', targets: 'torch.Tensor', smooth: 'int'=1): inputs = inputs.view(-1) targets = targets.view(-1) intersection = (inputs * targets).sum() dice_loss = 1 - (2.0 * intersection + smooth) / (inputs.sum() + targets.sum() + smooth) BCE = F.binary_cross_entropy_with_logits(inputs, targets, reduction ='mean') Dice_BCE = BCE + dice_loss return Dice_BCE 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.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_binary_cross_entropy_with_logits_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) tmp3 = tl.load(in_ptr1 + r0, None) tmp1 = 1.0 tmp2 = tmp1 - tmp0 tmp4 = tmp2 * tmp3 tmp5 = 0.0 tmp6 = triton_helpers.minimum(tmp5, tmp3) tmp7 = tl_math.abs(tmp3) tmp8 = -tmp7 tmp9 = tl_math.exp(tmp8) tmp10 = libdevice.log1p(tmp9) tmp11 = tmp6 - tmp10 tmp12 = tmp4 - tmp11 tmp13 = tl.broadcast_to(tmp12, [RBLOCK]) tmp15 = triton_helpers.promote_to_tensor(tl.sum(tmp13, 0)) tmp16 = tmp3 * tmp0 tmp17 = tl.broadcast_to(tmp16, [RBLOCK]) tmp19 = triton_helpers.promote_to_tensor(tl.sum(tmp17, 0)) tmp20 = tl.broadcast_to(tmp3, [RBLOCK]) tmp22 = triton_helpers.promote_to_tensor(tl.sum(tmp20, 0)) tmp23 = tl.broadcast_to(tmp0, [RBLOCK]) tmp25 = triton_helpers.promote_to_tensor(tl.sum(tmp23, 0)) tmp26 = 256.0 tmp27 = tmp15 / tmp26 tmp28 = 2.0 tmp29 = tmp19 * tmp28 tmp30 = tmp29 + tmp1 tmp31 = tmp22 + tmp25 tmp32 = tmp31 + tmp1 tmp33 = tmp30 / tmp32 tmp34 = tmp1 - tmp33 tmp35 = tmp27 + tmp34 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp35, 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) buf4 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_binary_cross_entropy_with_logits_div_mul_rsub_sum_0[ grid(1)](buf4, arg1_1, arg0_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf4, class DiceBCELossNew(nn.Module): def __init__(self, weight=None, size_average=True): super(DiceBCELossNew, 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]	Latterlig96/DCUnet	DiceBCELoss	false	8,456	[ "MIT" ]	11	87d1c137a60177d6daf1dfff0483678d5580fda0	https://github.com/Latterlig96/DCUnet/tree/87d1c137a60177d6daf1dfff0483678d5580fda0
ConvTranspose	# 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/qj/cqjfsyx662vxr6msf7zhspweb5uf55sh5acktwhy6pzbesz3k664.py # Topologically Sorted Source Nodes: [out_2], Original ATen: [aten.cat] # Source node to ATen node mapping: # out_2 => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_4, %constant_pad_nd], 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: '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_cat_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_cat_0(in_ptr0, in_ptr1, in_ptr2, 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 // 16) % 8 x3 = (xindex // 128) x4 = xindex % 16 x1 = (xindex // 4) % 4 x0 = xindex % 4 x7 = xindex tmp0 = x2 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 + (x4 + (16x2) + (64x3)), tmp4 & xmask, other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = 1 + x1 tmp10 = tmp9 >= tmp1 tmp11 = tl.full([1], 6, tl.int64) tmp12 = tmp9 < tmp11 tmp13 = 1 + x0 tmp14 = tmp13 >= tmp1 tmp15 = tmp13 < tmp11 tmp16 = tmp10 & tmp12 tmp17 = tmp16 & tmp14 tmp18 = tmp17 & tmp15 tmp19 = tmp18 & tmp6 tmp20 = tl.load(in_ptr1 + (7 + x0 + (6x1) + (36((-4) + x2)) + (144*x3)), tmp19 & xmask, other=0.0) tmp21 = tl.load(in_ptr2 + ((-4) + x2), tmp19 & xmask, eviction_policy='evict_last', other=0.0) tmp22 = tmp20 + tmp21 tmp23 = tl.full(tmp22.shape, 0.0, tmp22.dtype) tmp24 = tl.where(tmp19, tmp22, tmp23) tmp25 = tl.full(tmp24.shape, 0.0, tmp24.dtype) tmp26 = tl.where(tmp6, tmp24, tmp25) tmp27 = tl.where(tmp4, tmp5, tmp26) tl.store(out_ptr0 + (x7), tmp27, 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, 2, 2), (16, 4, 2, 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) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 6, 6), (144, 36, 6, 1)) buf1 = empty_strided_cuda((4, 8, 4, 4), (128, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [out_2], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_4, buf0, primals_2, buf1, 512, grid=grid(512), stream=stream0) del buf0 del primals_2 del primals_4 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, 2, 2), (16, 4, 2, 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 from typing import Union import torch.nn as nn import torch.nn.functional as F from typing import Tuple def autopad(k, p=None): if p is None: p = k // 2 if isinstance(k, int) else [(x // 2) for x in k] return p class ConvTranspose(nn.Module): def __init__(self, input_channels: 'int', output_channels: 'int', kernel_size: 'Tuple[int, int]'=(2, 2), stride: 'Tuple[int, int]'=(2, 2), padding: 'Union[int, None]'=None, kwargs): super(ConvTranspose, self).__init__() self.input_channels = input_channels self.output_channels = output_channels self.transpose = nn.ConvTranspose2d(in_channels=self.input_channels, out_channels=self.output_channels, kernel_size=kernel_size, stride=stride, padding=autopad(k=kernel_size, p=padding), kwargs) def forward(self, x1: 'torch.Tensor', x2: 'torch.Tensor') ->torch.Tensor: out = self.transpose(x1) diffY = x2.size()[2] - out.size()[2] diffX = x2.size()[3] - out.size()[3] out = F.pad(out, [diffX // 2, diffX - diffX // 2, diffY // 2, diffY - diffY // 2]) out = torch.cat([x2, out], dim=1) return out def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_channels': 4, 'output_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 typing import Union import torch.nn as nn from typing import Tuple 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, in_ptr2, 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 // 16 % 8 x3 = xindex // 128 x4 = xindex % 16 x1 = xindex // 4 % 4 x0 = xindex % 4 x7 = xindex tmp0 = x2 tmp1 = tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x4 + 16 * x2 + 64 * x3), tmp4 & xmask, other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = 1 + x1 tmp10 = tmp9 >= tmp1 tmp11 = tl.full([1], 6, tl.int64) tmp12 = tmp9 < tmp11 tmp13 = 1 + x0 tmp14 = tmp13 >= tmp1 tmp15 = tmp13 < tmp11 tmp16 = tmp10 & tmp12 tmp17 = tmp16 & tmp14 tmp18 = tmp17 & tmp15 tmp19 = tmp18 & tmp6 tmp20 = tl.load(in_ptr1 + (7 + x0 + 6 * x1 + 36 * (-4 + x2) + 144 * x3), tmp19 & xmask, other=0.0) tmp21 = tl.load(in_ptr2 + (-4 + x2), tmp19 & xmask, eviction_policy= 'evict_last', other=0.0) tmp22 = tmp20 + tmp21 tmp23 = tl.full(tmp22.shape, 0.0, tmp22.dtype) tmp24 = tl.where(tmp19, tmp22, tmp23) tmp25 = tl.full(tmp24.shape, 0.0, tmp24.dtype) tmp26 = tl.where(tmp6, tmp24, tmp25) tmp27 = tl.where(tmp4, tmp5, tmp26) tl.store(out_ptr0 + x7, tmp27, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4, 2, 2), (16, 4, 2, 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 = extern_kernels.convolution(primals_3, primals_1, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 6, 6), (144, 36, 6, 1)) buf1 = 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_4, buf0, primals_2, buf1, 512, XBLOCK=128, num_warps=4, num_stages=1) del buf0 del primals_2 del primals_4 return buf1, primals_1, primals_3 def autopad(k, p=None): if p is None: p = k // 2 if isinstance(k, int) else [(x // 2) for x in k] return p class ConvTransposeNew(nn.Module): def __init__(self, input_channels: 'int', output_channels: 'int', kernel_size: 'Tuple[int, int]'=(2, 2), stride: 'Tuple[int, int]'=(2, 2), padding: 'Union[int, None]'=None, kwargs): super(ConvTransposeNew, self).__init__() self.input_channels = input_channels self.output_channels = output_channels self.transpose = nn.ConvTranspose2d(in_channels=self.input_channels, out_channels=self.output_channels, kernel_size=kernel_size, stride=stride, padding=autopad(k=kernel_size, p=padding), kwargs) def forward(self, input_0, input_1): primals_1 = self.transpose.weight primals_2 = self.transpose.bias primals_3 = input_0 primals_4 = input_1 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	Latterlig96/DCUnet	ConvTranspose	false	8,457	[ "MIT" ]	11	87d1c137a60177d6daf1dfff0483678d5580fda0	https://github.com/Latterlig96/DCUnet/tree/87d1c137a60177d6daf1dfff0483678d5580fda0
EqualLinear	# 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/cxcdnj5jkalu3bmqrqc5lko6zldwyn5uqxx7dk4c3ocnt6lpghbe.py # Topologically Sorted Source Nodes: [weight], Original ATen: [aten.mul] # Source node to ATen node mapping: # weight => mul # Graph fragment: # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, 0.7071067811865476), 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: '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_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_0(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 = 0.7071067811865476 tmp2 = tmp0 * tmp1 tl.store(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, 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), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [weight], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(primals_1, buf0, 16, grid=grid(16), stream=stream0) del primals_1 buf1 = empty_strided_cuda((64, 4), (4, 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(buf0, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf1) del primals_2 return (reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0), buf0, 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) 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 from math import sqrt def equal_lr(module, name='weight'): EqualLR.apply(module, name) return module class EqualLR: def __init__(self, name): self.name = name def compute_weight(self, module): weight = getattr(module, self.name + '_orig') fan_in = weight.data.size(1) * weight.data[0][0].numel() return weight * sqrt(2 / fan_in) @staticmethod def apply(module, name): fn = EqualLR(name) weight = getattr(module, name) del module._parameters[name] module.register_parameter(name + '_orig', nn.Parameter(weight.data)) module.register_forward_pre_hook(fn) return fn def __call__(self, module, input): weight = self.compute_weight(module) setattr(module, self.name, weight) class EqualLinear(nn.Module): def __init__(self, in_dim, out_dim): super().__init__() linear = nn.Linear(in_dim, out_dim) linear.weight.data.normal_() linear.bias.data.zero_() self.linear = equal_lr(linear) def forward(self, input): return self.linear(input) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_dim': 4, 'out_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 import torch.nn as nn from math import sqrt 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, 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 = 0.7071067811865476 tmp2 = tmp0 * tmp1 tl.store(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, 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), (4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_0[grid(16)](primals_1, buf0, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_1 buf1 = 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(buf0, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf1) del primals_2 return reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), buf0, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0) def equal_lr(module, name='weight'): EqualLR.apply(module, name) return module class EqualLR: def __init__(self, name): self.name = name def compute_weight(self, module): weight = getattr(module, self.name + '_orig') fan_in = weight.data.size(1) * weight.data[0][0].numel() return weight * sqrt(2 / fan_in) @staticmethod def apply(module, name): fn = EqualLR(name) weight = getattr(module, name) del module._parameters[name] module.register_parameter(name + '_orig', nn.Parameter(weight.data)) module.register_forward_pre_hook(fn) return fn def __call__(self, module, input): weight = self.compute_weight(module) setattr(module, self.name, weight) class EqualLinearNew(nn.Module): def __init__(self, in_dim, out_dim): super().__init__() linear = nn.Linear(in_dim, out_dim) linear.weight.data.normal_() linear.bias.data.zero_() self.linear = equal_lr(linear) def forward(self, input_0): primals_2 = self.linear.bias primals_1 = self.linear.weight_orig primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	KwonGihyun/DiagonalGAN	EqualLinear	false	8,458	[ "MIT" ]	13	9e401c00e741d700f85df2c715ee11c1e66e1d1c	https://github.com/KwonGihyun/DiagonalGAN/tree/9e401c00e741d700f85df2c715ee11c1e66e1d1c
AdaptiveBilinear	# 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/p3/cp3vh5ge4dyj3r4smr5dvjovuocujri2yvhft44mt2rcrwo3tz5y.py # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] # Source node to ATen node mapping: # matmul => 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: [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 = (%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/us/cus2z6fcwwiw7jpy7jb53je3qh32bkurubyvnxbptjdwe7kw5hto.py # Topologically Sorted Source Nodes: [x_12, matmul_1], Original ATen: [aten.clone] # Source node to ATen node mapping: # matmul_1 => clone_1 # x_12 => clone_2 # Graph fragment: # %clone_2 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand_5,), kwargs = {memory_format: torch.contiguous_format}) # %clone_1 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand_3,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_2 = async_compile.triton('triton_poi_fused_clone_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_clone_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_clone_2(in_ptr0, out_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 % 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) tl.store(out_ptr1 + (x4), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/4d/c4dndrlfjcamjfnn3ng5agjc3ahefdgw6jcsnn6hm4ljwpbfbe7h.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_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/z6/cz6uiyjo7jjgr44uksxd2sxwwrr6gb7zwtdawd2raeerqq4um3ql.py # Topologically Sorted Source Nodes: [x_13], Original ATen: [aten.clone] # Source node to ATen node mapping: # x_13 => clone_3 # Graph fragment: # %clone_3 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand_9,), 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': 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_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 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): 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, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) buf1 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(arg0_1, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf0, (16, 4, 4), (16, 4, 1), 0), out=buf1) buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [x_1], 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 buf7 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_12, matmul_1], Original ATen: [aten.clone] triton_poi_fused_clone_2.run(arg1_1, buf3, buf7, 256, grid=grid(256), stream=stream0) buf4 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_12], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(arg0_1, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf3, (16, 4, 4), (16, 4, 1), 0), out=buf4) del arg0_1 buf5 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten._softmax] triton_poi_fused__softmax_3.run(buf2, buf5, 256, grid=grid(256), stream=stream0) buf6 = reinterpret_tensor(buf2, (16, 4, 4), (16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [matmul_3], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf5, (16, 4, 4), (16, 4, 1), 0), buf4, out=buf6) del buf4 buf8 = reinterpret_tensor(buf5, (16, 4, 4), (16, 4, 1), 0); del buf5 # reuse # Topologically Sorted Source Nodes: [matmul_1], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(arg1_1, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf7, (16, 4, 4), (16, 4, 1), 0), out=buf8) del arg1_1 buf9 = buf7; del buf7 # reuse # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf8, buf9, 256, grid=grid(256), stream=stream0) buf10 = reinterpret_tensor(buf8, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf8 # reuse # Topologically Sorted Source Nodes: [x_13], Original ATen: [aten.clone] triton_poi_fused_clone_4.run(buf9, buf10, 256, grid=grid(256), stream=stream0) buf11 = reinterpret_tensor(buf9, (16, 4, 4), (16, 4, 1), 0); del buf9 # reuse # Topologically Sorted Source Nodes: [x_13], Original ATen: [aten.bmm] extern_kernels.bmm(buf6, reinterpret_tensor(buf10, (16, 4, 4), (16, 4, 1), 0), out=buf11) del buf10 del buf6 return (reinterpret_tensor(buf11, (4, 4, 4, 4), (64, 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 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.functional as F import torch.nn as nn class AdaptiveBilinear(nn.Module): def __init__(self): super(AdaptiveBilinear, self).__init__() def forward(self, x1, x2): """ :param x1: (b, l1, dim1) :param x2: (b, l2, dim2) :return: """ assert x1.size(-1) == x2.size(-1) x_1 = F.softmax(x1 @ x1.transpose(1, 2), dim=-1) x_2 = F.softmax(x2 @ x2.transpose(1, 2), dim=-1) x_12 = x1 @ x2.transpose(1, 2) x_12 = x_1 @ x_12 @ x_2.transpose(1, 2) return x_12 def get_inputs(): return [torch.rand([4, 4, 4, 4]), 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 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_clone_2(in_ptr0, out_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 % 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) tl.store(out_ptr1 + x4, tmp0, 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 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): 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, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(256)](arg0_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) buf1 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(arg0_1, (16, 4, 4), (16, 4, 1 ), 0), reinterpret_tensor(buf0, (16, 4, 4), (16, 4, 1), 0), out =buf1) 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 buf7 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_clone_2[grid(256)](arg1_1, buf3, buf7, 256, XBLOCK =256, num_warps=4, num_stages=1) buf4 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(arg0_1, (16, 4, 4), (16, 4, 1 ), 0), reinterpret_tensor(buf3, (16, 4, 4), (16, 4, 1), 0), out =buf4) del arg0_1 buf5 = buf3 del buf3 triton_poi_fused__softmax_3[grid(256)](buf2, buf5, 256, XBLOCK=256, num_warps=4, num_stages=1) buf6 = reinterpret_tensor(buf2, (16, 4, 4), (16, 4, 1), 0) del buf2 extern_kernels.bmm(reinterpret_tensor(buf5, (16, 4, 4), (16, 4, 1), 0), buf4, out=buf6) del buf4 buf8 = reinterpret_tensor(buf5, (16, 4, 4), (16, 4, 1), 0) del buf5 extern_kernels.bmm(reinterpret_tensor(arg1_1, (16, 4, 4), (16, 4, 1 ), 0), reinterpret_tensor(buf7, (16, 4, 4), (16, 4, 1), 0), out =buf8) del arg1_1 buf9 = buf7 del buf7 triton_poi_fused__softmax_1[grid(256)](buf8, buf9, 256, XBLOCK=256, num_warps=4, num_stages=1) buf10 = reinterpret_tensor(buf8, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf8 triton_poi_fused_clone_4[grid(256)](buf9, buf10, 256, XBLOCK=256, num_warps=4, num_stages=1) buf11 = reinterpret_tensor(buf9, (16, 4, 4), (16, 4, 1), 0) del buf9 extern_kernels.bmm(buf6, reinterpret_tensor(buf10, (16, 4, 4), (16, 4, 1), 0), out=buf11) del buf10 del buf6 return reinterpret_tensor(buf11, (4, 4, 4, 4), (64, 16, 4, 1), 0), class AdaptiveBilinearNew(nn.Module): def __init__(self): super(AdaptiveBilinearNew, 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]	LindgeW/BiaffineNER	AdaptiveBilinear	false	8,459	[ "Apache-2.0" ]	13	0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf	https://github.com/LindgeW/BiaffineNER/tree/0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf
OverHaulLoss	# 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/u2/cu2beycg2t2ghizs6f4qom7bxbxmajhdaakuyq6y2korxywhp6ba.py # Topologically Sorted Source Nodes: [loss], Original ATen: [aten._log_softmax] # Source node to ATen node mapping: # loss => amax, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%arg0_1, [1], True), kwargs = {}) # %sub : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %amax), kwargs = {}) triton_poi_fused__log_softmax_0 = async_compile.triton('triton_poi_fused__log_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__log_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__log_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 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/3t/c3t7bn6xouvnq4rkk4fdxjozl3n6litfp2xwt7l2alsgsaoagk5g.py # Topologically Sorted Source Nodes: [loss], Original ATen: [aten._log_softmax, aten.mul, aten.sum, aten.neg, aten.div] # Source node to ATen node mapping: # loss => div, exp, log, mul, neg, sub_1, sum_1, sum_2 # 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 = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_1, %arg1_1), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul,), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%sum_2,), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Scalar](args = (%neg, 64), kwargs = {}) triton_per_fused__log_softmax_div_mul_neg_sum_1 = async_compile.triton('triton_per_fused__log_softmax_div_mul_neg_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, 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__log_softmax_div_mul_neg_sum_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 6, '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__log_softmax_div_mul_neg_sum_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) r3 = rindex r0 = rindex % 16 r2 = (rindex // 64) tmp0 = tl.load(in_ptr0 + (r3), None) tmp1 = tl.load(in_ptr0 + (r0 + (64r2)), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + r0 + (64r2)), None, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (32 + r0 + (64r2)), None, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (48 + r0 + (64r2)), None, eviction_policy='evict_last') tmp14 = tl.load(in_ptr1 + (r3), None) 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 tmp15 = tmp13 * tmp14 tmp16 = tl.broadcast_to(tmp15, [RBLOCK]) tmp18 = triton_helpers.promote_to_tensor(tl.sum(tmp16, 0)) tmp19 = -tmp18 tmp20 = 0.015625 tmp21 = tmp19 * tmp20 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp21, 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, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [loss], Original ATen: [aten._log_softmax] stream0 = get_raw_stream(0) triton_poi_fused__log_softmax_0.run(arg0_1, buf0, 256, grid=grid(256), stream=stream0) del arg0_1 buf1 = empty_strided_cuda((), (), torch.float32) buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [loss], Original ATen: [aten._log_softmax, aten.mul, aten.sum, aten.neg, aten.div] triton_per_fused__log_softmax_div_mul_neg_sum_1.run(buf2, buf0, arg1_1, 1, 256, grid=grid(1), stream=stream0) del arg1_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) 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 from torch.nn import functional as F class LabelSmoothingLoss(nn.Module): def __init__(self, classes, smoothing=0.0, dim=-1): super(LabelSmoothingLoss, self).__init__() self.confidence = 1.0 - smoothing self.smoothing = smoothing self.cls = classes self.dim = dim def forward(self, pred, target): pred = pred.log_softmax(dim=self.dim) with torch.no_grad(): true_dist = torch.zeros_like(pred) true_dist.fill_(self.smoothing / (self.cls - 1)) true_dist.scatter_(1, target.data.unsqueeze(1), self.confidence) return torch.mean(torch.sum(-true_dist * pred, dim=self.dim)) class SoftLabelSmoothingLoss(nn.Module): def __init__(self, classes=100, smoothing=0.0, target=False, dim=-1): super(SoftLabelSmoothingLoss, self).__init__() self.confidence = 1.0 - smoothing self.smoothing = smoothing self.cls = classes self.target = target self.dim = dim def forward(self, output, target): logits = F.softmax(output, dim=1) if not self.target: max_softval, _ = torch.max(logits, dim=1) else: target_softval = logits[range(logits.shape[0]), target] log_logits = logits.log() with torch.no_grad(): smooth_target = torch.zeros_like(output) smooth_target.fill_(self.smoothing / (self.cls - 1)) smooth_target.scatter_(1, target.data.unsqueeze(1), self.confidence ) if self.smoothing: loss = torch.sum((1 + logits) * (-smooth_target * log_logits), dim=self.dim) else: loss = torch.sum(-smooth_target * log_logits, dim=self.dim) if not self.target: loss = loss * (1 + max_softval) else: loss = loss * (1 + target_softval) loss = loss.mean() return loss class OverHaulLoss(nn.Module): def __init__(self, soft_label_smoothing=False, label_smoothing=False, classes=100, smoothing=0.0): super(OverHaulLoss, self).__init__() self.label_smoothing = label_smoothing self.soft_label_smoothing = soft_label_smoothing if soft_label_smoothing: self.loss = SoftLabelSmoothingLoss(classes, smoothing=smoothing) elif label_smoothing: self.loss = LabelSmoothingLoss(classes, smoothing=smoothing) else: self.loss = nn.CrossEntropyLoss() def forward(self, output, target): if len(output) == 2: output = output[0] loss = self.loss(output, target) 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 from torch.nn import 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__log_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 tl.store(out_ptr0 + x3, tmp8, xmask) @triton.jit def triton_per_fused__log_softmax_div_mul_neg_sum_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) r3 = rindex r0 = rindex % 16 r2 = rindex // 64 tmp0 = tl.load(in_ptr0 + r3, None) tmp1 = tl.load(in_ptr0 + (r0 + 64 * r2), None, eviction_policy='evict_last' ) tmp3 = tl.load(in_ptr0 + (16 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (32 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (48 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp14 = tl.load(in_ptr1 + r3, None) 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 tmp15 = tmp13 * tmp14 tmp16 = tl.broadcast_to(tmp15, [RBLOCK]) tmp18 = triton_helpers.promote_to_tensor(tl.sum(tmp16, 0)) tmp19 = -tmp18 tmp20 = 0.015625 tmp21 = tmp19 * tmp20 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp21, 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, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused__log_softmax_0[grid(256)](arg0_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del arg0_1 buf1 = empty_strided_cuda((), (), torch.float32) buf2 = buf1 del buf1 triton_per_fused__log_softmax_div_mul_neg_sum_1[grid(1)](buf2, buf0, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg1_1 del buf0 return buf2, class LabelSmoothingLoss(nn.Module): def __init__(self, classes, smoothing=0.0, dim=-1): super(LabelSmoothingLoss, self).__init__() self.confidence = 1.0 - smoothing self.smoothing = smoothing self.cls = classes self.dim = dim def forward(self, pred, target): pred = pred.log_softmax(dim=self.dim) with torch.no_grad(): true_dist = torch.zeros_like(pred) true_dist.fill_(self.smoothing / (self.cls - 1)) true_dist.scatter_(1, target.data.unsqueeze(1), self.confidence) return torch.mean(torch.sum(-true_dist * pred, dim=self.dim)) class SoftLabelSmoothingLoss(nn.Module): def __init__(self, classes=100, smoothing=0.0, target=False, dim=-1): super(SoftLabelSmoothingLoss, self).__init__() self.confidence = 1.0 - smoothing self.smoothing = smoothing self.cls = classes self.target = target self.dim = dim def forward(self, output, target): logits = F.softmax(output, dim=1) if not self.target: max_softval, _ = torch.max(logits, dim=1) else: target_softval = logits[range(logits.shape[0]), target] log_logits = logits.log() with torch.no_grad(): smooth_target = torch.zeros_like(output) smooth_target.fill_(self.smoothing / (self.cls - 1)) smooth_target.scatter_(1, target.data.unsqueeze(1), self.confidence ) if self.smoothing: loss = torch.sum((1 + logits) * (-smooth_target * log_logits), dim=self.dim) else: loss = torch.sum(-smooth_target * log_logits, dim=self.dim) if not self.target: loss = loss * (1 + max_softval) else: loss = loss * (1 + target_softval) loss = loss.mean() return loss class OverHaulLossNew(nn.Module): def __init__(self, soft_label_smoothing=False, label_smoothing=False, classes=100, smoothing=0.0): super(OverHaulLossNew, self).__init__() self.label_smoothing = label_smoothing self.soft_label_smoothing = soft_label_smoothing if soft_label_smoothing: self.loss = SoftLabelSmoothingLoss(classes, smoothing=smoothing) elif label_smoothing: self.loss = LabelSmoothingLoss(classes, smoothing=smoothing) else: self.loss = nn.CrossEntropyLoss() def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	Lee-Gihun/Micronet_GSJ	OverHaulLoss	false	8,460	[ "MIT" ]	12	72289bb66507b6c3b4d14f2e5916dec718a1b198	https://github.com/Lee-Gihun/Micronet_GSJ/tree/72289bb66507b6c3b4d14f2e5916dec718a1b198
length_evolution	# 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/fs/cfs5yp6swomz5hmeckuojmy3ge63nvz5k4j2d6gfbc6holtgtdm6.py # Topologically Sorted Source Nodes: [sub, gradient_H, mul, sum_1, sub_1, gradient_W, mul_1, sum_2, curve_length], Original ATen: [aten.sub, aten.abs, aten.mul, aten.sum, aten.add] # Source node to ATen node mapping: # curve_length => add # gradient_H => abs_1 # gradient_W => abs_2 # mul => mul # mul_1 => mul_1 # sub => sub # sub_1 => sub_1 # sum_1 => sum_1 # sum_2 => sum_2 # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%slice_3, %slice_7), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg1_1, %abs_1), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul,), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%slice_12, %slice_16), kwargs = {}) # %abs_2 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub_1,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg1_1, %abs_2), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_1,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_1, %sum_2), kwargs = {}) triton_per_fused_abs_add_mul_sub_sum_0 = async_compile.triton('triton_per_fused_abs_add_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, 64], 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_mul_sub_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 5, '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_abs_add_mul_sub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, 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) r4 = rindex r0 = rindex % 2 r2 = (rindex // 4) r3 = (rindex // 2) tmp0 = tl.load(in_ptr0 + (r4), None) tmp1 = tl.load(in_ptr1 + (2 + r0 + (4r2)), None, eviction_policy='evict_last') tmp2 = tl.load(in_ptr1 + (r0 + (4r2)), None, eviction_policy='evict_last') tmp9 = tl.load(in_ptr1 + (1 + (2r3)), None, eviction_policy='evict_last') tmp10 = tl.load(in_ptr1 + (2r3), None, eviction_policy='evict_last') tmp3 = tmp1 - tmp2 tmp4 = tl_math.abs(tmp3) tmp5 = tmp0 * tmp4 tmp6 = tl.broadcast_to(tmp5, [XBLOCK, RBLOCK]) tmp8 = tl.sum(tmp6, 1)[:, None] tmp11 = tmp9 - tmp10 tmp12 = tl_math.abs(tmp11) tmp13 = tmp0 * tmp12 tmp14 = tl.broadcast_to(tmp13, [XBLOCK, RBLOCK]) tmp16 = tl.sum(tmp14, 1)[:, None] tmp17 = tmp8 + tmp16 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp17, 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, 2, 2), (16, 4, 2, 1)) assert_size_stride(arg1_1, (4, 4, 2, 2), (16, 4, 2, 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, gradient_H, mul, sum_1, sub_1, gradient_W, mul_1, sum_2, curve_length], Original ATen: [aten.sub, aten.abs, aten.mul, aten.sum, aten.add] stream0 = get_raw_stream(0) triton_per_fused_abs_add_mul_sub_sum_0.run(buf2, arg1_1, arg0_1, 1, 64, grid=grid(1), stream=stream0) del arg0_1 del arg1_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, 2, 2), (16, 4, 2, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 4, 2, 2), (16, 4, 2, 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 length_evolution(nn.Module): """ calcaulate the length of evolution curve by the gradient """ def __init__(self, func='l1'): super(length_evolution, self).__init__() self.func = func def forward(self, mask_score, class_weight): gradient_H = torch.abs(mask_score[:, :, 1:, :] - mask_score[:, :, : -1, :]) gradient_W = torch.abs(mask_score[:, :, :, 1:] - mask_score[:, :, :, :-1]) if self.func == 'l2': gradient_H = gradient_H * gradient_H gradient_W = gradient_W * gradient_W curve_length = torch.sum(class_weight * gradient_H) + torch.sum( class_weight * gradient_W) return curve_length def get_inputs(): return [torch.rand([4, 4, 2, 2]), torch.rand([4, 4, 2, 2])] 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 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_abs_add_mul_sub_sum_0(in_out_ptr0, in_ptr0, in_ptr1, 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) r4 = rindex r0 = rindex % 2 r2 = rindex // 4 r3 = rindex // 2 tmp0 = tl.load(in_ptr0 + r4, None) tmp1 = tl.load(in_ptr1 + (2 + r0 + 4 * r2), None, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr1 + (r0 + 4 * r2), None, eviction_policy='evict_last') tmp9 = tl.load(in_ptr1 + (1 + 2 * r3), None, eviction_policy='evict_last') tmp10 = tl.load(in_ptr1 + 2 * r3, None, eviction_policy='evict_last') tmp3 = tmp1 - tmp2 tmp4 = tl_math.abs(tmp3) tmp5 = tmp0 * tmp4 tmp6 = tl.broadcast_to(tmp5, [XBLOCK, RBLOCK]) tmp8 = tl.sum(tmp6, 1)[:, None] tmp11 = tmp9 - tmp10 tmp12 = tl_math.abs(tmp11) tmp13 = tmp0 * tmp12 tmp14 = tl.broadcast_to(tmp13, [XBLOCK, RBLOCK]) tmp16 = tl.sum(tmp14, 1)[:, None] tmp17 = tmp8 + tmp16 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp17, None) def call(args): arg0_1, arg1_1 = args args.clear() assert_size_stride(arg0_1, (4, 4, 2, 2), (16, 4, 2, 1)) assert_size_stride(arg1_1, (4, 4, 2, 2), (16, 4, 2, 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_abs_add_mul_sub_sum_0[grid(1)](buf2, arg1_1, arg0_1, 1, 64, XBLOCK=1, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf2, class length_evolutionNew(nn.Module): """ calcaulate the length of evolution curve by the gradient """ def __init__(self, func='l1'): super(length_evolutionNew, self).__init__() self.func = func def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	LiWentomng/boxlevelset	length_evolution	false	8,461	[ "Apache-2.0" ]	25	8cc40bf6ae4a343c482c676c72259cc12c29d31c	https://github.com/LiWentomng/boxlevelset/tree/8cc40bf6ae4a343c482c676c72259cc12c29d31c
evolution_area	# 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/74/c746hrqniwx72qfpzomt6uba42sr4q3mgg5tmstpgab3gffg3qwo.py # Topologically Sorted Source Nodes: [mul, curve_area], Original ATen: [aten.mul, aten.sum] # Source node to ATen node mapping: # curve_area => sum_1 # mul => mul # 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 = {}) triton_per_fused_mul_sum_0 = async_compile.triton('triton_per_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.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_mul_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_mul_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 = tl.broadcast_to(tmp2, [RBLOCK]) tmp5 = triton_helpers.promote_to_tensor(tl.sum(tmp3, 0)) tl.store(out_ptr0 + (tl.full([1], 0, tl.int32)), tmp5, 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: [mul, curve_area], Original ATen: [aten.mul, aten.sum] stream0 = get_raw_stream(0) triton_per_fused_mul_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 evolution_area(nn.Module): """ calcaulate the area of evolution curve """ def __init__(self): super(evolution_area, self).__init__() def forward(self, mask_score, class_weight): curve_area = torch.sum(class_weight * mask_score) return curve_area 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_per_fused_mul_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 = tl.broadcast_to(tmp2, [RBLOCK]) tmp5 = triton_helpers.promote_to_tensor(tl.sum(tmp3, 0)) tl.store(out_ptr0 + tl.full([1], 0, tl.int32), tmp5, 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_mul_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 evolution_areaNew(nn.Module): """ calcaulate the area of evolution curve """ def __init__(self): super(evolution_areaNew, 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]	LiWentomng/boxlevelset	evolution_area	false	8,462	[ "Apache-2.0" ]	25	8cc40bf6ae4a343c482c676c72259cc12c29d31c	https://github.com/LiWentomng/boxlevelset/tree/8cc40bf6ae4a343c482c676c72259cc12c29d31c
DotProductAttention	# 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/jy/cjyo6wznwyxjcbgbrtzowafvqjuf4wurgzubrlevuj4frs7o2i2v.py # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] # Source node to ATen node mapping: # matmul => 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 x0 = xindex % 64 x2 = (xindex // 256) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (64x2)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (x3), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/6j/c6jsf26ee3wt3gr3i6hx55reluznyaxx5ayb57rqgnmfaslb2765.py # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] # Source node to ATen node mapping: # matmul => 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=[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_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, 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) % 4 x2 = (xindex // 16) % 4 x3 = (xindex // 64) % 4 x5 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4x2) + (16x1) + (64x3)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (x5), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/hw/chwm5qasu42vma5kwxi4kxpuhd67qdyjhovxxsjrvqgfnlckqbg7.py # Topologically Sorted Source Nodes: [att_weights], Original ATen: [aten._softmax] # Source node to ATen node mapping: # att_weights => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%squeeze_1, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%squeeze_1, %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=[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__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 = 1024 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x5 = xindex x3 = (xindex // 256) x6 = xindex % 64 x0 = xindex % 16 x1 = (xindex // 16) % 4 tmp0 = tl.load(in_ptr0 + (x5), xmask) tmp3 = tl.load(in_ptr0 + (x6 + (256x3)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (64 + x0 + (16x1) + (256x3) + (256((4 + x1) // 16))), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (128 + x0 + (16x1) + (256x3) + (256((8 + x1) // 16))), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (192 + x0 + (16x1) + (256x3) + (256((12 + x1) // 16))), xmask, eviction_policy='evict_last') tmp1 = 0.5 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 = tl_math.exp(tmp14) tl.store(out_ptr0 + (x5), tmp15, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ms/cmsktnrqmscocs2esktewgtg2aqdrw63cvsak4gs5yek74x2nrqi.py # Topologically Sorted Source Nodes: [att_weights], Original ATen: [aten._softmax] # Source node to ATen node mapping: # att_weights => 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_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=[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__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 = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x0 = xindex % 64 x2 = (xindex // 256) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x0 + (256x2)), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (64 + x0 + (256x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (128 + x0 + (256x2)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (192 + x0 + (256x2)), 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') # kernel path: runs/run_shard_1/inductor_cache/d5/cd556ycmuvu7ar4lop5spnaeepcadec2x35dopwadh73olz6jiq5.py # Topologically Sorted Source Nodes: [matmul_1], Original ATen: [aten.clone] # Source node to ATen node mapping: # matmul_1 => clone_2 # Graph fragment: # %clone_2 : [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=[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_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 = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 256 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2), tmp0, 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((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul], 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 buf1 = empty_strided_cuda((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] triton_poi_fused_clone_1.run(arg1_1, buf1, 1024, grid=grid(1024), stream=stream0) buf2 = empty_strided_cuda((64, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (64, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf1, (64, 4, 4), (16, 4, 1), 0), out=buf2) buf3 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [att_weights], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf2, buf3, 1024, grid=grid(1024), stream=stream0) buf4 = reinterpret_tensor(buf2, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [att_weights], Original ATen: [aten._softmax] triton_poi_fused__softmax_3.run(buf3, buf4, 1024, grid=grid(1024), stream=stream0) buf5 = reinterpret_tensor(buf3, (4, 1, 4, 4, 4, 4), (256, 256, 64, 16, 4, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [matmul_1], Original ATen: [aten.clone] triton_poi_fused_clone_4.run(arg1_1, buf5, 1024, grid=grid(1024), stream=stream0) del arg1_1 buf6 = reinterpret_tensor(buf0, (64, 4, 4), (16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [matmul_1], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf4, (64, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf5, (64, 4, 4), (16, 4, 1), 0), out=buf6) del buf4 del buf5 return (reinterpret_tensor(buf6, (4, 4, 4, 4, 4), (256, 64, 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 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.functional as F import torch.nn as nn class DotProductAttention(nn.Module): def __init__(self, k_dim): super(DotProductAttention, self).__init__() self.scale = 1.0 / k_dim ** 0.5 def forward(self, hn, enc_out, mask=None): """ :param hn: query - rnn的末隐层状态 [batch_size, hidden_size] :param enc_out: key - rnn的输出 [batch_size, seq_len, hidden_size] :param mask: [batch_size, seq_len] 0对应pad :return: att_out [batch_size, hidden_size] """ att_score = torch.matmul(hn.unsqueeze(1), enc_out.transpose(1, 2) ).squeeze(1) att_score.mul_(self.scale) if mask is not None: att_score = att_score.masked_fill(~mask, -1000000000.0) att_weights = F.softmax(att_score, dim=1) att_out = torch.matmul(att_weights.unsqueeze(1), enc_out).squeeze(1) """ # type 2 # (bz, hidden_size, 1) hidden = hn.reshape(hn.size(0), -1, 1) # (bz, n_step, hidden_size) * (bz, hidden_size, 1) -> (bz, n_step) att_score = torch.matmul(enc_out, hidden).squeeze(2) att_score.mul_(self.scale) if mask is not None: att_score = att_score.masked_fill(~mask, -1e9) attn_weights = F.softmax(att_score, dim=1) # (bz, hidden_sze, n_step) * (bz, n_step, 1) -> (bz, hidden_size, 1) att_out = torch.matmul(enc_out.transpose(1, 2), attn_weights.unsqueeze(2)).squeeze(2) """ return att_out def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'k_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_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 x0 = xindex % 64 x2 = xindex // 256 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 64 * x2), xmask, eviction_policy= 'evict_last') tl.store(out_ptr0 + x3, tmp0, xmask) @triton.jit def triton_poi_fused_clone_1(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 x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 % 4 x3 = xindex // 64 % 4 x5 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4 * x2 + 16 * x1 + 64 * x3), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + x5, tmp0, xmask) @triton.jit def triton_poi_fused__softmax_2(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 x5 = xindex x3 = xindex // 256 x6 = xindex % 64 x0 = xindex % 16 x1 = xindex // 16 % 4 tmp0 = tl.load(in_ptr0 + x5, xmask) tmp3 = tl.load(in_ptr0 + (x6 + 256 * x3), xmask, eviction_policy= 'evict_last') tmp5 = tl.load(in_ptr0 + (64 + x0 + 16 * x1 + 256 * x3 + 256 * ((4 + x1 ) // 16)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (128 + x0 + 16 * x1 + 256 * x3 + 256 * ((8 + x1) // 16)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (192 + x0 + 16 * x1 + 256 * x3 + 256 * ((12 + x1) // 16)), xmask, eviction_policy='evict_last') tmp1 = 0.5 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 = tl_math.exp(tmp14) tl.store(out_ptr0 + x5, tmp15, xmask) @triton.jit def triton_poi_fused__softmax_3(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 x3 = xindex x0 = xindex % 64 x2 = xindex // 256 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + (x0 + 256 * x2), xmask, eviction_policy= 'evict_last') tmp2 = tl.load(in_ptr0 + (64 + x0 + 256 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr0 + (128 + x0 + 256 * x2), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (192 + x0 + 256 * 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) @triton.jit def triton_poi_fused_clone_4(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 x0 = xindex % 256 x2 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tl.store(out_ptr0 + x2, tmp0, 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((4, 4, 4, 4, 4), (256, 64, 16, 4, 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 buf1 = empty_strided_cuda((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), torch.float32) triton_poi_fused_clone_1[grid(1024)](arg1_1, buf1, 1024, XBLOCK=256, num_warps=4, num_stages=1) buf2 = empty_strided_cuda((64, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf0, (64, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf1, (64, 4, 4), (16, 4, 1), 0), out=buf2) buf3 = buf1 del buf1 triton_poi_fused__softmax_2[grid(1024)](buf2, buf3, 1024, XBLOCK= 256, num_warps=4, num_stages=1) buf4 = reinterpret_tensor(buf2, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0 ) del buf2 triton_poi_fused__softmax_3[grid(1024)](buf3, buf4, 1024, XBLOCK= 256, num_warps=4, num_stages=1) buf5 = reinterpret_tensor(buf3, (4, 1, 4, 4, 4, 4), (256, 256, 64, 16, 4, 1), 0) del buf3 triton_poi_fused_clone_4[grid(1024)](arg1_1, buf5, 1024, XBLOCK=256, num_warps=4, num_stages=1) del arg1_1 buf6 = reinterpret_tensor(buf0, (64, 4, 4), (16, 4, 1), 0) del buf0 extern_kernels.bmm(reinterpret_tensor(buf4, (64, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf5, (64, 4, 4), (16, 4, 1), 0), out=buf6) del buf4 del buf5 return reinterpret_tensor(buf6, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0), class DotProductAttentionNew(nn.Module): def __init__(self, k_dim): super(DotProductAttentionNew, self).__init__() self.scale = 1.0 / k_dim ** 0.5 def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	LindgeW/BiaffineNER	DotProductAttention	false	8,463	[ "Apache-2.0" ]	13	0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf	https://github.com/LindgeW/BiaffineNER/tree/0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf
Bilinear	# 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: [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 = (%permute,), 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/w2/cw2hdpxgykdf2qwrvgkllw6pflbjzobcpold6ffzzkzv4wjl3gys.py # Topologically Sorted Source Nodes: [final], Original ATen: [aten.add] # Source node to ATen node mapping: # final => add # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%squeeze, %primals_4), 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 + (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, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (1, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (1, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [tmp], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(primals_1, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(primals_2, (16, 4, 4), (0, 4, 1), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((4, 1, 4, 4, 4), (64, 1, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [contiguous], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(primals_3, buf1, 256, grid=grid(256), stream=stream0) del primals_3 buf2 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.bmm] extern_kernels.bmm(buf0, reinterpret_tensor(buf1, (16, 4, 4), (16, 4, 1), 0), out=buf2) del buf0 buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [final], Original ATen: [aten.add] triton_poi_fused_add_1.run(buf3, primals_4, 256, grid=grid(256), stream=stream0) del primals_4 return (buf3, reinterpret_tensor(buf1, (16, 4, 4), (16, 1, 4), 0), reinterpret_tensor(primals_1, (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, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((1, 4, 4), (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((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 Bilinear(nn.Module): def __init__(self, in_dim1, in_dim2, label_dim=1, use_input_bias=False): super(Bilinear, self).__init__() self.label_dim = label_dim self.use_input_bias = use_input_bias if self.use_input_bias: in_dim1 += 1 in_dim2 += 1 self.U = nn.Parameter(torch.randn(label_dim, in_dim1, in_dim2)) self.bias = nn.Parameter(torch.zeros(1)) self.reset_params() def reset_params(self): nn.init.xavier_uniform_(self.U) nn.init.zeros_(self.bias) def forward(self, x1, x2): """ :param x1: (bs, len1, in_dim1) :param x2: (bs, len2, in_dim2) :return: (bs, len1, len2, label_dim) """ if self.use_input_bias: bias1 = x1.new_ones(x1.size()[:-1] + (1,)) bias2 = x2.new_ones(x2.size()[:-1] + (1,)) x1 = torch.cat((x1, bias1), dim=-1) x2 = torch.cat((x2, bias2), dim=-1) tmp = torch.matmul(x1.unsqueeze(1), self.U) out = torch.matmul(tmp, x2.unsqueeze(1).transpose(2, 3).contiguous()) final = out.squeeze(1) + self.bias if self.label_dim > 1: final = final.permute(0, 2, 3, 1) return final def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_dim1': 4, 'in_dim2': 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_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_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 + 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, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (1, 4, 4), (16, 4, 1)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (1,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(primals_1, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(primals_2, (16, 4, 4), (0, 4, 1), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((4, 1, 4, 4, 4), (64, 1, 16, 4, 1), torch .float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(256)](primals_3, buf1, 256, XBLOCK= 128, num_warps=4, num_stages=1) del primals_3 buf2 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(buf0, reinterpret_tensor(buf1, (16, 4, 4), (16, 4, 1), 0), out=buf2) del buf0 buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf2 triton_poi_fused_add_1[grid(256)](buf3, primals_4, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_4 return buf3, reinterpret_tensor(buf1, (16, 4, 4), (16, 1, 4), 0 ), reinterpret_tensor(primals_1, (16, 4, 4), (16, 1, 4), 0) class BilinearNew(nn.Module): def __init__(self, in_dim1, in_dim2, label_dim=1, use_input_bias=False): super(BilinearNew, self).__init__() self.label_dim = label_dim self.use_input_bias = use_input_bias if self.use_input_bias: in_dim1 += 1 in_dim2 += 1 self.U = nn.Parameter(torch.randn(label_dim, in_dim1, in_dim2)) self.bias = nn.Parameter(torch.zeros(1)) self.reset_params() def reset_params(self): nn.init.xavier_uniform_(self.U) nn.init.zeros_(self.bias) def forward(self, input_0, input_1): primals_2 = self.U primals_4 = self.bias primals_1 = input_0 primals_3 = input_1 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	LindgeW/BiaffineNER	Bilinear	false	8,464	[ "Apache-2.0" ]	13	0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf	https://github.com/LindgeW/BiaffineNER/tree/0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf
MaxPooling	# 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/eu/ceuzgcjehxopi2qq5ijegcoktvxkua6nvlqqhuejz5svkrvgmcyk.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # out => getitem # Graph fragment: # %getitem : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 0), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_0 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_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_max_pool2d_with_indices_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_max_pool2d_with_indices_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 144 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 3) % 3 x0 = xindex % 3 x2 = (xindex // 9) 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) + (8x1) + (16x2)), tmp10 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp12 = 2x0 tmp13 = tmp12 >= tmp1 tmp14 = tmp12 < tmp3 tmp15 = tmp13 & tmp14 tmp16 = tmp5 & tmp15 tmp17 = tl.load(in_ptr0 + ((-4) + (2x0) + (8x1) + (16x2)), tmp16 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp18 = triton_helpers.maximum(tmp17, tmp11) tmp19 = 2x1 tmp20 = tmp19 >= tmp1 tmp21 = tmp19 < tmp3 tmp22 = tmp20 & tmp21 tmp23 = tmp22 & tmp9 tmp24 = tl.load(in_ptr0 + ((-1) + (2x0) + (8x1) + (16x2)), tmp23 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp25 = triton_helpers.maximum(tmp24, tmp18) tmp26 = tmp22 & tmp15 tmp27 = tl.load(in_ptr0 + ((2x0) + (8x1) + (16x2)), tmp26 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp28 = triton_helpers.maximum(tmp27, tmp25) tl.store(out_ptr0 + (x4), tmp28, 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, 3, 3), (36, 9, 3, 1), torch.float32) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.max_pool2d_with_indices] stream0 = get_raw_stream(0) triton_poi_fused_max_pool2d_with_indices_0.run(arg0_1, buf0, 144, grid=grid(144), 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 typing import Union import torch.nn as nn from typing import Tuple def autopad(k, p=None): if p is None: p = k // 2 if isinstance(k, int) else [(x // 2) for x in k] return p class MaxPooling(nn.Module): def __init__(self, input_channels: 'int', kernel_size: 'Tuple[int, int]'=(2, 2), padding: 'Union[int, None]'=None, kwargs): super(MaxPooling, self).__init__() self.input_channels = input_channels self.pool = nn.MaxPool2d(kernel_size=kernel_size, padding=autopad(k =kernel_size, p=padding), kwargs) def forward(self, x: 'torch.Tensor') ->torch.Tensor: out = self.pool(x) return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_channels': 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 from typing import Union import torch.nn as nn from typing import Tuple 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_max_pool2d_with_indices_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 144 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 3 % 3 x0 = xindex % 3 x2 = xindex // 9 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 * x1 + 16 * x2), tmp10 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp12 = 2 * x0 tmp13 = tmp12 >= tmp1 tmp14 = tmp12 < tmp3 tmp15 = tmp13 & tmp14 tmp16 = tmp5 & tmp15 tmp17 = tl.load(in_ptr0 + (-4 + 2 * x0 + 8 * x1 + 16 * x2), tmp16 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp18 = triton_helpers.maximum(tmp17, tmp11) tmp19 = 2 * x1 tmp20 = tmp19 >= tmp1 tmp21 = tmp19 < tmp3 tmp22 = tmp20 & tmp21 tmp23 = tmp22 & tmp9 tmp24 = tl.load(in_ptr0 + (-1 + 2 * x0 + 8 * x1 + 16 * x2), tmp23 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp25 = triton_helpers.maximum(tmp24, tmp18) tmp26 = tmp22 & tmp15 tmp27 = tl.load(in_ptr0 + (2 * x0 + 8 * x1 + 16 * x2), tmp26 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp28 = triton_helpers.maximum(tmp27, tmp25) tl.store(out_ptr0 + x4, tmp28, 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, 3, 3), (36, 9, 3, 1), torch.float32) get_raw_stream(0) triton_poi_fused_max_pool2d_with_indices_0[grid(144)](arg0_1, buf0, 144, XBLOCK=128, num_warps=4, num_stages=1) del arg0_1 return buf0, def autopad(k, p=None): if p is None: p = k // 2 if isinstance(k, int) else [(x // 2) for x in k] return p class MaxPoolingNew(nn.Module): def __init__(self, input_channels: 'int', kernel_size: 'Tuple[int, int]'=(2, 2), padding: 'Union[int, None]'=None, kwargs): super(MaxPoolingNew, self).__init__() self.input_channels = input_channels self.pool = nn.MaxPool2d(kernel_size=kernel_size, padding=autopad(k =kernel_size, p=padding), kwargs) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Latterlig96/DCUnet	MaxPooling	false	8,465	[ "MIT" ]	11	87d1c137a60177d6daf1dfff0483678d5580fda0	https://github.com/Latterlig96/DCUnet/tree/87d1c137a60177d6daf1dfff0483678d5580fda0
FocalTverskyLoss	# 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/6z/c6zi2osfgaeyz7e3qrbuntebawd36ahhrblkvht5twaiwlddrvip.py # Topologically Sorted Source Nodes: [mul, TP, add, sub, mul_1, FP, mul_3, add_1, sub_1, mul_2, FN, mul_4, add_2, add_3, Tversky, sub_2], Original ATen: [aten.mul, aten.sum, aten.add, aten.rsub, aten.div] # Source node to ATen node mapping: # FN => sum_3 # FP => sum_2 # TP => sum_1 # Tversky => div # add => add # add_1 => add_1 # add_2 => add_2 # add_3 => add_3 # mul => mul # mul_1 => mul_1 # mul_2 => mul_2 # mul_3 => mul_3 # mul_4 => mul_4 # sub => sub # sub_1 => sub_1 # sub_2 => sub_2 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view, %view_1), kwargs = {}) # %sum_1 : [num_users=2] = call_function[target=torch.ops.aten.sum.default](args = (%mul,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_1, 1), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %view_1), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %view), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_1,), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sum_2, 0.5), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_1, %mul_3), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %view), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, %sub_1), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_2,), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sum_3, 0.5), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_1, %mul_4), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_2, 1), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%add, %add_3), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %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) 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 = 1.0 tmp8 = tmp7 - tmp2 tmp9 = tmp8 * tmp1 tmp10 = tl.broadcast_to(tmp9, [RBLOCK]) tmp12 = triton_helpers.promote_to_tensor(tl.sum(tmp10, 0)) tmp13 = tmp7 - tmp1 tmp14 = tmp2 * tmp13 tmp15 = tl.broadcast_to(tmp14, [RBLOCK]) tmp17 = triton_helpers.promote_to_tensor(tl.sum(tmp15, 0)) tmp18 = tmp6 + tmp7 tmp19 = 0.5 tmp20 = tmp12 * tmp19 tmp21 = tmp6 + tmp20 tmp22 = tmp17 * tmp19 tmp23 = tmp21 + tmp22 tmp24 = tmp23 + tmp7 tmp25 = tmp18 / tmp24 tmp26 = tmp7 - tmp25 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp26, 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, TP, add, sub, mul_1, FP, mul_3, add_1, sub_1, mul_2, FN, mul_4, add_2, add_3, Tversky, sub_2], Original ATen: [aten.mul, aten.sum, aten.add, aten.rsub, aten.div] 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 class FocalTverskyLoss(nn.Module): def __init__(self, weight=None, size_average=True): super(FocalTverskyLoss, self).__init__() def forward(self, inputs: 'torch.Tensor', targets: 'torch.Tensor', smooth: 'int'=1, alpha: 'float'=0.5, beta: 'float'=0.5, gamma: 'int'=1 ): inputs = torch.sigmoid(inputs) inputs = inputs.view(-1) targets = targets.view(-1) TP = (inputs * targets).sum() FP = ((1 - targets) * inputs).sum() FN = (targets * (1 - inputs)).sum() Tversky = (TP + smooth) / (TP + alpha * FP + beta * FN + smooth) FocalTversky = (1 - Tversky) ** gamma return FocalTversky 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_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) 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 = 1.0 tmp8 = tmp7 - tmp2 tmp9 = tmp8 * tmp1 tmp10 = tl.broadcast_to(tmp9, [RBLOCK]) tmp12 = triton_helpers.promote_to_tensor(tl.sum(tmp10, 0)) tmp13 = tmp7 - tmp1 tmp14 = tmp2 * tmp13 tmp15 = tl.broadcast_to(tmp14, [RBLOCK]) tmp17 = triton_helpers.promote_to_tensor(tl.sum(tmp15, 0)) tmp18 = tmp6 + tmp7 tmp19 = 0.5 tmp20 = tmp12 * tmp19 tmp21 = tmp6 + tmp20 tmp22 = tmp17 * tmp19 tmp23 = tmp21 + tmp22 tmp24 = tmp23 + tmp7 tmp25 = tmp18 / tmp24 tmp26 = tmp7 - tmp25 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp26, 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 FocalTverskyLossNew(nn.Module): def __init__(self, weight=None, size_average=True): super(FocalTverskyLossNew, 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]	Latterlig96/DCUnet	FocalTverskyLoss	false	8,466	[ "MIT" ]	11	87d1c137a60177d6daf1dfff0483678d5580fda0	https://github.com/Latterlig96/DCUnet/tree/87d1c137a60177d6daf1dfff0483678d5580fda0
AdditiveAttention	# 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/xj/cxjvpcb6rgnul5q2nfsy4dten5j32labhs6fyztgfdg5tzzfarcf.py # Topologically Sorted Source Nodes: [add, tanh], Original ATen: [aten.add, aten.tanh] # Source node to ATen node mapping: # add => add # tanh => tanh # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_1, %view_3), kwargs = {}) # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%add,), kwargs = {}) triton_poi_fused_add_tanh_0 = async_compile.triton('triton_poi_fused_add_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=[1024], 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_tanh_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_add_tanh_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = (xindex // 256) x4 = xindex % 64 x5 = xindex % 256 x0 = xindex % 4 x6 = xindex tmp0 = tl.load(in_ptr0 + (x4 + (64x3)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x5), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tmp5 = libdevice.tanh(tmp4) tl.store(out_ptr0 + (x6), tmp5, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/4x/c4xd6y4gkp7z3srq6gzq52swaegpimvl35zpaduo4j5wyernpskh.py # Topologically Sorted Source Nodes: [att_weights], Original ATen: [aten._softmax] # Source node to ATen node mapping: # att_weights => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_5, [1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_5, %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 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/mi/cmibf5zezxd6g5fvwgrxm77t4io4cybzrauehr6ghekpfqjr2jwl.py # Topologically Sorted Source Nodes: [att_weights], Original ATen: [aten._softmax] # Source node to ATen node mapping: # att_weights => 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=3] = 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 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') # kernel path: runs/run_shard_1/inductor_cache/wq/cwqvg6epim6vuptbvchbcfezwg433jnvdexvu6at7an7rhvlobs2.py # Topologically Sorted Source Nodes: [mul, att_out], Original ATen: [aten.mul, aten.sum] # Source node to ATen node mapping: # att_out => sum_2 # mul => mul # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%div, %primals_5), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [1]), kwargs = {}) triton_poi_fused_mul_sum_3 = async_compile.triton('triton_poi_fused_mul_sum_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_mul_sum_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_mul_sum_3(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 x1 = (xindex // 4) % 16 x2 = (xindex // 64) x3 = xindex % 64 x4 = xindex tmp0 = tl.load(in_ptr0 + (x1 + (64x2)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x3), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + x1 + (64x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + (64 + x3), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (32 + x1 + (64x2)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (128 + x3), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (48 + x1 + (64x2)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr1 + (192 + x3), 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 tl.store(out_ptr0 + (x4), tmp14, 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, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, ), (1, )) assert_size_stride(primals_5, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_6, (1, 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: [linear], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_5, (64, 4), (4, 1), 0), reinterpret_tensor(primals_3, (4, 4), (1, 4), 0), out=buf1) del primals_3 buf2 = empty_strided_cuda((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [add, tanh], Original ATen: [aten.add, aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_add_tanh_0.run(buf0, buf1, primals_4, buf2, 1024, grid=grid(1024), stream=stream0) del primals_4 buf3 = reinterpret_tensor(buf1, (256, 1), (1, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [att_score], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf2, (256, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 1), (1, 4), 0), out=buf3) buf4 = reinterpret_tensor(buf0, (4, 4, 4, 4, 1), (64, 16, 4, 1, 256), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [att_weights], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf3, buf4, 256, grid=grid(256), stream=stream0) buf5 = reinterpret_tensor(buf3, (4, 4, 4, 4, 1), (64, 16, 4, 1, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [att_weights], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf4, buf5, 256, grid=grid(256), stream=stream0) buf6 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf4 # reuse # Topologically Sorted Source Nodes: [mul, att_out], Original ATen: [aten.mul, aten.sum] triton_poi_fused_mul_sum_3.run(buf5, primals_5, buf6, 256, grid=grid(256), stream=stream0) return (buf6, reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0), primals_5, reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), buf2, buf5, 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, 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, 4), (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, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_6 = 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, 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.functional as F import torch.nn as nn class AdditiveAttention(nn.Module): def __init__(self, k_size, v_size, hidden_size=None, bias=True): super(AdditiveAttention, self).__init__() if hidden_size is None: hidden_size = v_size self.W1 = nn.Linear(k_size, hidden_size, bias=False) self.W2 = nn.Linear(v_size, hidden_size, bias=bias) self.V = nn.Linear(hidden_size, 1, bias=False) self.reset_params() def reset_params(self): nn.init.xavier_normal_(self.W1.weight) nn.init.xavier_normal_(self.W2.weight) nn.init.xavier_uniform_(self.V.weight) def forward(self, q, v, mask=None): """ :param q: (bz, hidden_size) :param v: (bz, n_step, hidden_size) :param mask: (bz, n_step) :return: """ expand_q = q.unsqueeze(1) att_score = self.V(torch.tanh(self.W1(expand_q) + self.W2(v))) if mask is not None: att_score = att_score.masked_fill(~mask.unsqueeze(-1), - 1000000000.0) att_weights = F.softmax(att_score, dim=1) attn_dist = att_weights.squeeze(dim=-1) att_out = (att_weights * v).sum(dim=1) return att_out, attn_dist def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'k_size': 4, 'v_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 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_tanh_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex // 256 x4 = xindex % 64 x5 = xindex % 256 x0 = xindex % 4 x6 = xindex tmp0 = tl.load(in_ptr0 + (x4 + 64 * x3), xmask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr1 + x5, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tmp5 = libdevice.tanh(tmp4) tl.store(out_ptr0 + x6, tmp5, 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 = 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 = 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) @triton.jit def triton_poi_fused_mul_sum_3(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 x1 = xindex // 4 % 16 x2 = xindex // 64 x3 = xindex % 64 x4 = xindex tmp0 = tl.load(in_ptr0 + (x1 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr1 + x3, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (16 + x1 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp4 = tl.load(in_ptr1 + (64 + x3), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (32 + x1 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp8 = tl.load(in_ptr1 + (128 + x3), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (48 + x1 + 64 * x2), xmask, eviction_policy= 'evict_last') tmp12 = tl.load(in_ptr1 + (192 + x3), 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 tl.store(out_ptr0 + x4, tmp14, 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, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4,), (1,)) assert_size_stride(primals_5, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_6, (1, 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_1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 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_3, (4, 4), (1, 4), 0), out=buf1) del primals_3 buf2 = empty_strided_cuda((4, 4, 4, 4, 4), (256, 64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_tanh_0[grid(1024)](buf0, buf1, primals_4, buf2, 1024, XBLOCK=128, num_warps=4, num_stages=1) del primals_4 buf3 = reinterpret_tensor(buf1, (256, 1), (1, 1), 0) del buf1 extern_kernels.mm(reinterpret_tensor(buf2, (256, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 1), (1, 4), 0), out=buf3) buf4 = reinterpret_tensor(buf0, (4, 4, 4, 4, 1), (64, 16, 4, 1, 256), 0 ) del buf0 triton_poi_fused__softmax_1[grid(256)](buf3, buf4, 256, XBLOCK=128, num_warps=4, num_stages=1) buf5 = reinterpret_tensor(buf3, (4, 4, 4, 4, 1), (64, 16, 4, 1, 1), 0) del buf3 triton_poi_fused__softmax_2[grid(256)](buf4, buf5, 256, XBLOCK=128, num_warps=4, num_stages=1) buf6 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf4 triton_poi_fused_mul_sum_3[grid(256)](buf5, primals_5, buf6, 256, XBLOCK=128, num_warps=4, num_stages=1) return buf6, reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), primals_5, reinterpret_tensor(primals_1, (64, 4), (4, 1), 0 ), buf2, buf5, primals_6 class AdditiveAttentionNew(nn.Module): def __init__(self, k_size, v_size, hidden_size=None, bias=True): super(AdditiveAttentionNew, self).__init__() if hidden_size is None: hidden_size = v_size self.W1 = nn.Linear(k_size, hidden_size, bias=False) self.W2 = nn.Linear(v_size, hidden_size, bias=bias) self.V = nn.Linear(hidden_size, 1, bias=False) self.reset_params() def reset_params(self): nn.init.xavier_normal_(self.W1.weight) nn.init.xavier_normal_(self.W2.weight) nn.init.xavier_uniform_(self.V.weight) def forward(self, input_0, input_1): primals_2 = self.W1.weight primals_3 = self.W2.weight primals_4 = self.W2.bias primals_6 = self.V.weight primals_1 = input_0 primals_5 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return output[0], output[1]	LindgeW/BiaffineNER	AdditiveAttention	false	8,467	[ "Apache-2.0" ]	13	0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf	https://github.com/LindgeW/BiaffineNER/tree/0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf
DilatedCircularConv	# 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/cf/ccfncuaiiq2b2cm2ukiqzzmjt7yfp62hajssoz5gl32cryt35yix.py # Topologically Sorted Source Nodes: [input_1], Original ATen: [aten.cat] # Source node to ATen node mapping: # input_1 => cat # Graph fragment: # %cat : [num_users=2] = call_function[target=torch.ops.aten.cat.default](args = ([%slice_1, %primals_1, %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=[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_cat_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_cat_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 192 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 12 x1 = (xindex // 12) 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 = tmp6 & tmp8 tmp10 = tl.load(in_ptr0 + ((4x1) + ((-4) + x0)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tmp12 = tl.full([1], 12, tl.int64) tmp13 = tmp0 < tmp12 tmp14 = tl.load(in_ptr0 + ((4x1) + ((-8) + x0)), tmp11 & xmask, eviction_policy='evict_last', other=0.0) tmp15 = tl.where(tmp9, tmp10, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + (x2), tmp16, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/bo/cbobw73zf5udllzw6ypzn2lpl3t5xgyic35frylcttxdzai224c5.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 = (%cat, %primals_2, %primals_3, [1], [0], [1], False, [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=[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_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 = 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') 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, 9), (36, 9, 1)) assert_size_stride(primals_3, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 12), (48, 12, 1), torch.float32) # Topologically Sorted Source Nodes: [input_1], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_1, buf0, 192, grid=grid(192), stream=stream0) del primals_1 # 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 # Topologically Sorted Source Nodes: [conv1d], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf2, primals_3, 64, grid=grid(64), stream=stream0) del primals_3 return (buf2, 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, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 9), (36, 9, 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 DilatedCircularConv(nn.Module): def __init__(self, state_dim, out_state_dim=None, n_adj=4, dilation=1): super(DilatedCircularConv, self).__init__() self.n_adj = n_adj self.dilation = dilation out_state_dim = state_dim if out_state_dim is None else out_state_dim self.fc = nn.Conv1d(state_dim, out_state_dim, kernel_size=self. n_adj * 2 + 1, dilation=self.dilation) def forward(self, input): if self.n_adj != 0: input = torch.cat([input[..., -self.n_adj * self.dilation:], input, input[..., :self.n_adj * self.dilation]], dim=2) return self.fc(input) def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'state_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 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_cat_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 192 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 12 x1 = xindex // 12 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 tmp7 = tl.full([1], 8, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tmp6 & tmp8 tmp10 = tl.load(in_ptr0 + (4 * x1 + (-4 + x0)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tl.full([1], 12, tl.int64) tmp14 = tl.load(in_ptr0 + (4 * x1 + (-8 + x0)), tmp11 & xmask, eviction_policy='evict_last', other=0.0) tmp15 = tl.where(tmp9, tmp10, tmp14) tmp16 = tl.where(tmp4, tmp5, tmp15) tl.store(out_ptr0 + x2, tmp16, xmask) @triton.jit def triton_poi_fused_convolution_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 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) 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, 9), (36, 9, 1)) assert_size_stride(primals_3, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 12), (48, 12, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(192)](primals_1, buf0, 192, XBLOCK=128, num_warps=4, num_stages=1) del primals_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 triton_poi_fused_convolution_1[grid(64)](buf2, primals_3, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_3 return buf2, primals_2, buf0 class DilatedCircularConvNew(nn.Module): def __init__(self, state_dim, out_state_dim=None, n_adj=4, dilation=1): super(DilatedCircularConvNew, self).__init__() self.n_adj = n_adj self.dilation = dilation out_state_dim = state_dim if out_state_dim is None else out_state_dim self.fc = nn.Conv1d(state_dim, out_state_dim, kernel_size=self. n_adj * 2 + 1, dilation=self.dilation) def forward(self, input_0): primals_2 = self.fc.weight primals_3 = self.fc.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	LiWentomng/boxlevelset	DilatedCircularConv	false	8,468	[ "Apache-2.0" ]	25	8cc40bf6ae4a343c482c676c72259cc12c29d31c	https://github.com/LiWentomng/boxlevelset/tree/8cc40bf6ae4a343c482c676c72259cc12c29d31c
CrossEntropyLoss	# AOT ID: ['1_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/u2/cu2beycg2t2ghizs6f4qom7bxbxmajhdaakuyq6y2korxywhp6ba.py # Topologically Sorted Source Nodes: [raw], Original ATen: [aten._log_softmax] # Source node to ATen node mapping: # raw => amax, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%arg1_1, [1], True), kwargs = {}) # %sub : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg1_1, %amax), kwargs = {}) triton_poi_fused__log_softmax_0 = async_compile.triton('triton_poi_fused__log_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__log_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__log_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 tl.store(out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/c4/cc427xvppxytjgj6e2mve2ejcy4c5rpo4bck4i5jqq2osmpf4kcv.py # Topologically Sorted Source Nodes: [raw], Original ATen: [aten._log_softmax, aten.mul, aten.sum, aten.neg] # Source node to ATen node mapping: # raw => exp, log, mul, neg, sub_1, sum_1, sum_2 # 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 = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_1, %arg0_1), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [1]), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%sum_2,), kwargs = {}) triton_poi_fused__log_softmax_mul_neg_sum_1 = async_compile.triton('triton_poi_fused__log_softmax_mul_neg_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=[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__log_softmax_mul_neg_sum_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__log_softmax_mul_neg_sum_1(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 % 16 x1 = (xindex // 16) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (64x1)), xmask) tmp2 = tl.load(in_ptr0 + (16 + x0 + (64x1)), xmask) tmp5 = tl.load(in_ptr0 + (32 + x0 + (64x1)), xmask) tmp8 = tl.load(in_ptr0 + (48 + x0 + (64x1)), xmask) tmp13 = tl.load(in_ptr1 + (x0 + (64x1)), xmask) tmp16 = tl.load(in_ptr1 + (16 + x0 + (64x1)), xmask) tmp20 = tl.load(in_ptr1 + (32 + x0 + (64x1)), xmask) tmp24 = tl.load(in_ptr1 + (48 + x0 + (64x1)), xmask) tmp1 = tl_math.exp(tmp0) tmp3 = tl_math.exp(tmp2) tmp4 = tmp1 + tmp3 tmp6 = tl_math.exp(tmp5) tmp7 = tmp4 + tmp6 tmp9 = tl_math.exp(tmp8) tmp10 = tmp7 + tmp9 tmp11 = tl_math.log(tmp10) tmp12 = tmp0 - tmp11 tmp14 = tmp12 * tmp13 tmp15 = tmp2 - tmp11 tmp17 = tmp15 * tmp16 tmp18 = tmp14 + tmp17 tmp19 = tmp5 - tmp11 tmp21 = tmp19 * tmp20 tmp22 = tmp18 + tmp21 tmp23 = tmp8 - tmp11 tmp25 = tmp23 * tmp24 tmp26 = tmp22 + tmp25 tmp27 = -tmp26 tl.store(out_ptr0 + (x2), tmp27, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ts/ctsjobnmxv45u53e6oxs6hja3tkxp7xpocbnaosy26tivui2zxg7.py # Topologically Sorted Source Nodes: [raw, mul, sum_1, truediv], Original ATen: [aten._log_softmax, aten.mul, aten.sum, aten.neg, aten.div] # Source node to ATen node mapping: # mul => mul_1 # raw => exp, log, mul, neg, sub_1, sum_1, sum_2 # sum_1 => sum_3 # truediv => div # 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 = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_1, %arg0_1), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [1]), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%sum_2,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%neg, %arg2_1), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_1,), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%unsqueeze, 256.0), kwargs = {}) triton_per_fused__log_softmax_div_mul_neg_sum_2 = async_compile.triton('triton_per_fused__log_softmax_div_mul_neg_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=[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__log_softmax_div_mul_neg_sum_2', '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__log_softmax_div_mul_neg_sum_2(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 % 64 r2 = rindex tmp0 = tl.load(in_ptr0 + (r0), None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (r2), None) tmp2 = tmp0 * tmp1 tmp3 = tl.broadcast_to(tmp2, [RBLOCK]) tmp5 = triton_helpers.promote_to_tensor(tl.sum(tmp3, 0)) tmp6 = 0.00390625 tmp7 = tmp5 * tmp6 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp7, 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, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [raw], Original ATen: [aten._log_softmax] stream0 = get_raw_stream(0) triton_poi_fused__log_softmax_0.run(arg1_1, buf0, 256, grid=grid(256), stream=stream0) del arg1_1 buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [raw], Original ATen: [aten._log_softmax, aten.mul, aten.sum, aten.neg] triton_poi_fused__log_softmax_mul_neg_sum_1.run(buf0, arg0_1, buf1, 64, grid=grid(64), stream=stream0) del arg0_1 del buf0 buf2 = empty_strided_cuda((), (), torch.float32) buf3 = reinterpret_tensor(buf2, (1, ), (1, ), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [raw, mul, sum_1, truediv], Original ATen: [aten._log_softmax, aten.mul, aten.sum, aten.neg, aten.div] triton_per_fused__log_softmax_div_mul_neg_sum_2.run(buf3, buf1, arg2_1, 1, 256, grid=grid(1), stream=stream0) del arg2_1 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) 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 def mask_cross_entropy(pred, target, label): num_rois = pred.size()[0] inds = torch.arange(0, num_rois, dtype=torch.long, device=pred.device) pred_slice = pred[inds, label].squeeze(1) return F.binary_cross_entropy_with_logits(pred_slice, target, reduction ='mean')[None] def _expand_binary_labels(labels, label_weights, label_channels): bin_labels = labels.new_full((labels.size(0), label_channels), 0) inds = torch.nonzero(labels >= 1).squeeze() if inds.numel() > 0: bin_labels[inds, labels[inds] - 1] = 1 bin_label_weights = label_weights.view(-1, 1).expand(label_weights.size (0), label_channels) return bin_labels, bin_label_weights def weighted_binary_cross_entropy(pred, label, weight, avg_factor=None): if pred.dim() != label.dim(): label, weight = _expand_binary_labels(label, weight, pred.size(-1)) if avg_factor is None: avg_factor = max(torch.sum(weight > 0).float().item(), 1.0) return F.binary_cross_entropy_with_logits(pred, label.float(), weight. float(), reduction='sum')[None] / avg_factor def weighted_cross_entropy(pred, label, weight, avg_factor=None, reduce=True): if avg_factor is None: avg_factor = max(torch.sum(weight > 0).float().item(), 1.0) raw = F.cross_entropy(pred, label, reduction='none') if reduce: return torch.sum(raw * weight)[None] / avg_factor else: return raw * weight / avg_factor class CrossEntropyLoss(nn.Module): def __init__(self, use_sigmoid=False, use_mask=False, loss_weight=1.0): super(CrossEntropyLoss, self).__init__() assert use_sigmoid is False or use_mask is False self.use_sigmoid = use_sigmoid self.use_mask = use_mask self.loss_weight = loss_weight if self.use_sigmoid: self.cls_criterion = weighted_binary_cross_entropy elif self.use_mask: self.cls_criterion = mask_cross_entropy else: self.cls_criterion = weighted_cross_entropy def forward(self, cls_score, label, label_weight, args, kwargs): loss_cls = self.loss_weight self.cls_criterion(cls_score, label, label_weight, args, *kwargs) return loss_cls 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 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__log_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 tl.store(out_ptr0 + x3, tmp8, xmask) @triton.jit def triton_poi_fused__log_softmax_mul_neg_sum_1(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 % 16 x1 = xindex // 16 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 64 * x1), xmask) tmp2 = tl.load(in_ptr0 + (16 + x0 + 64 * x1), xmask) tmp5 = tl.load(in_ptr0 + (32 + x0 + 64 * x1), xmask) tmp8 = tl.load(in_ptr0 + (48 + x0 + 64 * x1), xmask) tmp13 = tl.load(in_ptr1 + (x0 + 64 * x1), xmask) tmp16 = tl.load(in_ptr1 + (16 + x0 + 64 * x1), xmask) tmp20 = tl.load(in_ptr1 + (32 + x0 + 64 * x1), xmask) tmp24 = tl.load(in_ptr1 + (48 + x0 + 64 * x1), xmask) tmp1 = tl_math.exp(tmp0) tmp3 = tl_math.exp(tmp2) tmp4 = tmp1 + tmp3 tmp6 = tl_math.exp(tmp5) tmp7 = tmp4 + tmp6 tmp9 = tl_math.exp(tmp8) tmp10 = tmp7 + tmp9 tmp11 = tl_math.log(tmp10) tmp12 = tmp0 - tmp11 tmp14 = tmp12 * tmp13 tmp15 = tmp2 - tmp11 tmp17 = tmp15 * tmp16 tmp18 = tmp14 + tmp17 tmp19 = tmp5 - tmp11 tmp21 = tmp19 * tmp20 tmp22 = tmp18 + tmp21 tmp23 = tmp8 - tmp11 tmp25 = tmp23 * tmp24 tmp26 = tmp22 + tmp25 tmp27 = -tmp26 tl.store(out_ptr0 + x2, tmp27, xmask) @triton.jit def triton_per_fused__log_softmax_div_mul_neg_sum_2(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 % 64 r2 = rindex tmp0 = tl.load(in_ptr0 + r0, None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + r2, None) tmp2 = tmp0 * tmp1 tmp3 = tl.broadcast_to(tmp2, [RBLOCK]) tmp5 = triton_helpers.promote_to_tensor(tl.sum(tmp3, 0)) tmp6 = 0.00390625 tmp7 = tmp5 * tmp6 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp7, 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, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused__log_softmax_0[grid(256)](arg1_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del arg1_1 buf1 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused__log_softmax_mul_neg_sum_1[grid(64)](buf0, arg0_1, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) del arg0_1 del buf0 buf2 = empty_strided_cuda((), (), torch.float32) buf3 = reinterpret_tensor(buf2, (1,), (1,), 0) del buf2 triton_per_fused__log_softmax_div_mul_neg_sum_2[grid(1)](buf3, buf1, arg2_1, 1, 256, num_warps=2, num_stages=1) del arg2_1 del buf1 return buf3, def mask_cross_entropy(pred, target, label): num_rois = pred.size()[0] inds = torch.arange(0, num_rois, dtype=torch.long, device=pred.device) pred_slice = pred[inds, label].squeeze(1) return F.binary_cross_entropy_with_logits(pred_slice, target, reduction ='mean')[None] def _expand_binary_labels(labels, label_weights, label_channels): bin_labels = labels.new_full((labels.size(0), label_channels), 0) inds = torch.nonzero(labels >= 1).squeeze() if inds.numel() > 0: bin_labels[inds, labels[inds] - 1] = 1 bin_label_weights = label_weights.view(-1, 1).expand(label_weights.size (0), label_channels) return bin_labels, bin_label_weights def weighted_binary_cross_entropy(pred, label, weight, avg_factor=None): if pred.dim() != label.dim(): label, weight = _expand_binary_labels(label, weight, pred.size(-1)) if avg_factor is None: avg_factor = max(torch.sum(weight > 0).float().item(), 1.0) return F.binary_cross_entropy_with_logits(pred, label.float(), weight. float(), reduction='sum')[None] / avg_factor def weighted_cross_entropy(pred, label, weight, avg_factor=None, reduce=True): if avg_factor is None: avg_factor = max(torch.sum(weight > 0).float().item(), 1.0) raw = F.cross_entropy(pred, label, reduction='none') if reduce: return torch.sum(raw * weight)[None] / avg_factor else: return raw * weight / avg_factor class CrossEntropyLossNew(nn.Module): def __init__(self, use_sigmoid=False, use_mask=False, loss_weight=1.0): super(CrossEntropyLossNew, self).__init__() assert use_sigmoid is False or use_mask is False self.use_sigmoid = use_sigmoid self.use_mask = use_mask self.loss_weight = loss_weight if self.use_sigmoid: self.cls_criterion = weighted_binary_cross_entropy elif self.use_mask: self.cls_criterion = mask_cross_entropy else: self.cls_criterion = weighted_cross_entropy 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]	LiWentomng/boxlevelset	CrossEntropyLoss	false	8,469	[ "Apache-2.0" ]	25	8cc40bf6ae4a343c482c676c72259cc12c29d31c	https://github.com/LiWentomng/boxlevelset/tree/8cc40bf6ae4a343c482c676c72259cc12c29d31c
SmoothL1Loss	# AOT ID: ['1_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/to/ctocd5fy7vsr4edhmy5guopaktx6r76sjvr6kuzjfma5ruahc6ev.py # Topologically Sorted Source Nodes: [sub, diff, lt, mul, mul_1, truediv, sub_1, loss, mul_2, sum_1, truediv_1], Original ATen: [aten.sub, aten.abs, aten.lt, aten.mul, aten.div, aten.where, aten.sum] # Source node to ATen node mapping: # diff => abs_1 # loss => where # lt => lt # mul => mul # mul_1 => mul_1 # mul_2 => mul_2 # sub => sub # sub_1 => sub_1 # sum_1 => sum_1 # truediv => div # truediv_1 => div_1 # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %abs_1 : [num_users=4] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %lt : [num_users=1] = call_function[target=torch.ops.aten.lt.Scalar](args = (%abs_1, 1.0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%abs_1, 0.5), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, %abs_1), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul_1, 1.0), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%abs_1, 0.5), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%lt, %div, %sub_1), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%where, %arg2_1), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_2,), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%unsqueeze, 64.000001), kwargs = {}) triton_per_fused_abs_div_lt_mul_sub_sum_where_0 = async_compile.triton('triton_per_fused_abs_div_lt_mul_sub_sum_where_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_div_lt_mul_sub_sum_where_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 3, '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_div_lt_mul_sub_sum_where_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, 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) tmp12 = tl.load(in_ptr2 + (r0), None) tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = 1.0 tmp5 = tmp3 < tmp4 tmp6 = 0.5 tmp7 = tmp3 * tmp6 tmp8 = tmp7 * tmp3 tmp9 = tmp8 * tmp4 tmp10 = tmp3 - tmp6 tmp11 = tl.where(tmp5, tmp9, tmp10) tmp13 = tmp11 * tmp12 tmp14 = tl.broadcast_to(tmp13, [RBLOCK]) tmp16 = triton_helpers.promote_to_tensor(tl.sum(tmp14, 0)) tmp17 = 0.015624999755859379 tmp18 = tmp16 * 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 = 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((), (), torch.float32) buf1 = reinterpret_tensor(buf0, (1, ), (1, ), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [sub, diff, lt, mul, mul_1, truediv, sub_1, loss, mul_2, sum_1, truediv_1], Original ATen: [aten.sub, aten.abs, aten.lt, aten.mul, aten.div, aten.where, aten.sum] stream0 = get_raw_stream(0) triton_per_fused_abs_div_lt_mul_sub_sum_where_0.run(buf1, arg0_1, arg1_1, arg2_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 del arg2_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) 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 def smooth_l1_loss(pred, target, beta=1.0, reduction='mean'): assert beta > 0 assert pred.size() == target.size() and target.numel() > 0 diff = torch.abs(pred - target) loss = torch.where(diff < beta, 0.5 * diff * diff / beta, diff - 0.5 * beta ) reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.sum() / pred.numel() elif reduction_enum == 2: return loss.sum() def weighted_smoothl1(pred, target, weight, beta=1.0, avg_factor=None): if avg_factor is None: avg_factor = torch.sum(weight > 0).float().item() / 4 + 1e-06 loss = smooth_l1_loss(pred, target, beta, reduction='none') return torch.sum(loss * weight)[None] / avg_factor class SmoothL1Loss(nn.Module): def __init__(self, beta=1.0, loss_weight=1.0): super(SmoothL1Loss, self).__init__() self.beta = beta self.loss_weight = loss_weight def forward(self, pred, target, weight, args, kwargs): loss_bbox = self.loss_weight weighted_smoothl1(pred, target, weight, args, beta=self.beta, *kwargs) return loss_bbox 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 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_per_fused_abs_div_lt_mul_sub_sum_where_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, 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) tmp12 = tl.load(in_ptr2 + r0, None) tmp2 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = 1.0 tmp5 = tmp3 < tmp4 tmp6 = 0.5 tmp7 = tmp3 * tmp6 tmp8 = tmp7 * tmp3 tmp9 = tmp8 * tmp4 tmp10 = tmp3 - tmp6 tmp11 = tl.where(tmp5, tmp9, tmp10) tmp13 = tmp11 * tmp12 tmp14 = tl.broadcast_to(tmp13, [RBLOCK]) tmp16 = triton_helpers.promote_to_tensor(tl.sum(tmp14, 0)) tmp17 = 0.015624999755859379 tmp18 = tmp16 * 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 = 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((), (), torch.float32) buf1 = reinterpret_tensor(buf0, (1,), (1,), 0) del buf0 get_raw_stream(0) triton_per_fused_abs_div_lt_mul_sub_sum_where_0[grid(1)](buf1, arg0_1, arg1_1, arg2_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 del arg2_1 return buf1, def smooth_l1_loss(pred, target, beta=1.0, reduction='mean'): assert beta > 0 assert pred.size() == target.size() and target.numel() > 0 diff = torch.abs(pred - target) loss = torch.where(diff < beta, 0.5 * diff * diff / beta, diff - 0.5 * beta ) reduction_enum = F._Reduction.get_enum(reduction) if reduction_enum == 0: return loss elif reduction_enum == 1: return loss.sum() / pred.numel() elif reduction_enum == 2: return loss.sum() def weighted_smoothl1(pred, target, weight, beta=1.0, avg_factor=None): if avg_factor is None: avg_factor = torch.sum(weight > 0).float().item() / 4 + 1e-06 loss = smooth_l1_loss(pred, target, beta, reduction='none') return torch.sum(loss * weight)[None] / avg_factor class SmoothL1LossNew(nn.Module): def __init__(self, beta=1.0, loss_weight=1.0): super(SmoothL1LossNew, self).__init__() self.beta = beta self.loss_weight = loss_weight 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]	LiWentomng/boxlevelset	SmoothL1Loss	false	8,470	[ "Apache-2.0" ]	25	8cc40bf6ae4a343c482c676c72259cc12c29d31c	https://github.com/LiWentomng/boxlevelset/tree/8cc40bf6ae4a343c482c676c72259cc12c29d31c
Biaffine	# 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/2d/c2dfcb3rmvwx6dpm7qnv4bificlcp6hquadzm45twrcgdyefq3b5.py # Topologically Sorted Source Nodes: [input1], Original ATen: [aten.cat] # Source node to ATen node mapping: # input1 => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %full_default], -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': 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_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 x0 = xindex % 5 x1 = (xindex // 5) 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], 5, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = 1.0 tmp10 = tl.full(tmp9.shape, 0.0, tmp9.dtype) tmp11 = tl.where(tmp6, tmp9, tmp10) tmp12 = tl.where(tmp4, tmp5, tmp11) tl.store(out_ptr0 + (x2), tmp12, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/zo/czoexaffl4y4yao4n67vrnf45kus5bxnrnyrkyxqlotterroipcq.py # Topologically Sorted Source Nodes: [biaffine], Original ATen: [aten.clone] # Source node to ATen node mapping: # biaffine => 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_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=[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_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 = 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 + (4*y3)), tmp0, xmask & ymask) ''', 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, (5, 5), (5, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [input1], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(primals_1, buf0, 80, grid=grid(80), stream=stream0) del primals_1 buf1 = empty_strided_cuda((16, 5), (5, 1), torch.float32) # Topologically Sorted Source Nodes: [affine], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf0, (16, 5), (5, 1), 0), reinterpret_tensor(primals_3, (5, 5), (1, 5), 0), out=buf1) del primals_3 buf2 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [input2], Original ATen: [aten.cat] triton_poi_fused_cat_0.run(primals_2, buf2, 80, grid=grid(80), stream=stream0) del primals_2 buf3 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [bmm], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf1, (4, 4, 5), (20, 5, 1), 0), reinterpret_tensor(buf2, (4, 5, 4), (20, 1, 5), 0), out=buf3) del buf1 buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [biaffine], Original ATen: [aten.clone] triton_poi_fused_clone_1.run(buf3, buf4, 16, 4, grid=grid(16, 4), stream=stream0) del buf3 return (buf4, reinterpret_tensor(buf0, (16, 5), (5, 1), 0), buf2, ) 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((5, 5), (5, 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 Biaffine(nn.Module): def __init__(self, in_features, out_features=1, bias=(True, True)): super(Biaffine, self).__init__() self.in_features = in_features self.out_features = out_features self.bias = bias self.linear_input_size = in_features + bias[0] self.linear_output_size = out_features * (in_features + bias[1]) self.linear = nn.Linear(in_features=self.linear_input_size, out_features=self.linear_output_size, bias=False) self.reset_params() def reset_params(self): nn.init.xavier_uniform_(self.linear.weight) def forward(self, input1, input2): batch_size, len1, _dim1 = input1.size() batch_size, len2, _dim2 = input2.size() if self.bias[0]: ones = input1.data.new_ones(batch_size, len1, 1) input1 = torch.cat((input1, ones), dim=-1) if self.bias[1]: ones = input2.data.new_ones(batch_size, len2, 1) input2 = torch.cat((input2, ones), dim=-1) affine = self.linear(input1) affine = affine.reshape(batch_size, len1 * self.out_features, -1) biaffine = torch.bmm(affine, input2.transpose(1, 2)).transpose(1, 2 ).contiguous() biaffine = biaffine.reshape((batch_size, len2, len1, -1)).squeeze(-1) return biaffine def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([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 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 = 80 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 5 x1 = xindex // 5 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], 5, tl.int64) tmp9 = 1.0 tmp10 = tl.full(tmp9.shape, 0.0, tmp9.dtype) tmp11 = tl.where(tmp6, tmp9, tmp10) tmp12 = tl.where(tmp4, tmp5, tmp11) tl.store(out_ptr0 + x2, tmp12, xmask) @triton.jit def triton_poi_fused_clone_1(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) 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, (5, 5), (5, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(80)](primals_1, buf0, 80, XBLOCK=128, num_warps=4, num_stages=1) del primals_1 buf1 = empty_strided_cuda((16, 5), (5, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf0, (16, 5), (5, 1), 0), reinterpret_tensor(primals_3, (5, 5), (1, 5), 0), out=buf1) del primals_3 buf2 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) triton_poi_fused_cat_0[grid(80)](primals_2, buf2, 80, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf3 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf1, (4, 4, 5), (20, 5, 1), 0), reinterpret_tensor(buf2, (4, 5, 4), (20, 1, 5), 0), out=buf3) del buf1 buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_clone_1[grid(16, 4)](buf3, buf4, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) del buf3 return buf4, reinterpret_tensor(buf0, (16, 5), (5, 1), 0), buf2 class BiaffineNew(nn.Module): def __init__(self, in_features, out_features=1, bias=(True, True)): super(BiaffineNew, self).__init__() self.in_features = in_features self.out_features = out_features self.bias = bias self.linear_input_size = in_features + bias[0] self.linear_output_size = out_features * (in_features + bias[1]) self.linear = nn.Linear(in_features=self.linear_input_size, out_features=self.linear_output_size, bias=False) self.reset_params() def reset_params(self): nn.init.xavier_uniform_(self.linear.weight) def forward(self, input_0, input_1): primals_3 = self.linear.weight primals_1 = input_0 primals_2 = input_1 output = call([primals_1, primals_2, primals_3]) return output[0]	LindgeW/BiaffineNER	Biaffine	false	8,471	[ "Apache-2.0" ]	13	0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf	https://github.com/LindgeW/BiaffineNER/tree/0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf
BiaffineScorer	# 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/an/canhl4oh4gh4nxuxaqxknorbaccui7w3elxowpgpeeyq6r76trdn.py # Topologically Sorted Source Nodes: [input1], Original ATen: [aten.cat] # Source node to ATen node mapping: # input1 => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%where, %full_default], -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': 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_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 x0 = xindex % 5 x1 = (xindex // 5) 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], 5, tl.int64) tmp17 = tmp0 < tmp16 tmp18 = tl.full(tmp8.shape, 0.0, tmp8.dtype) tmp19 = tl.where(tmp15, tmp8, tmp18) tmp20 = tl.where(tmp4, tmp14, tmp19) tl.store(out_ptr0 + (x2), tmp20, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/pt/cptaddavhv2oytblnrd523iahobbaw5xwxblz3exzrxoz7xe6bfc.py # Topologically Sorted Source Nodes: [biaffine], Original ATen: [aten.clone] # Source node to ATen node mapping: # biaffine => clone # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%permute_4,), 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=[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_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 = 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 y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (64y1)), xmask & ymask) tl.store(out_ptr0 + (x2 + (16*y3)), tmp0, 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 = 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, (20, 5), (5, 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: [linear_out], Original ATen: [aten.addmm] extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (16, 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((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_out_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf1) del primals_4 del primals_5 buf2 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [input1], Original ATen: [aten.cat] stream0 = get_raw_stream(0) triton_poi_fused_cat_0.run(buf0, buf2, 80, grid=grid(80), stream=stream0) buf3 = empty_strided_cuda((16, 20), (20, 1), torch.float32) # Topologically Sorted Source Nodes: [affine], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf2, (16, 5), (5, 1), 0), reinterpret_tensor(primals_6, (5, 20), (1, 5), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) # Topologically Sorted Source Nodes: [input2], Original ATen: [aten.cat] triton_poi_fused_cat_0.run(buf1, buf4, 80, grid=grid(80), stream=stream0) buf5 = empty_strided_cuda((4, 16, 4), (64, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [bmm], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf3, (4, 16, 5), (80, 5, 1), 0), reinterpret_tensor(buf4, (4, 5, 4), (20, 1, 5), 0), out=buf5) buf6 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [biaffine], Original ATen: [aten.clone] triton_poi_fused_clone_1.run(buf5, buf6, 16, 16, grid=grid(16, 16), stream=stream0) del buf5 return (reinterpret_tensor(buf6, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), buf0, buf1, reinterpret_tensor(buf2, (16, 5), (5, 1), 0), reinterpret_tensor(buf3, (4, 5, 16), (80, 1, 5), 0), buf4, 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), (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((20, 5), (5, 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 def timestep_dropout(inputs, p=0.5, batch_first=True): """ :param inputs: (bz, time_step, feature_size) :param p: probability p mask out output nodes :param batch_first: default True :return: """ if not batch_first: inputs = inputs.transpose(0, 1) batch_size, _time_step, feature_size = inputs.size() drop_mask = inputs.data.new_full((batch_size, feature_size), 1 - p) drop_mask = torch.bernoulli(drop_mask).div(1 - p) drop_mask = drop_mask.unsqueeze(1) return inputs * drop_mask class Biaffine(nn.Module): def __init__(self, in_features, out_features=1, bias=(True, True)): super(Biaffine, self).__init__() self.in_features = in_features self.out_features = out_features self.bias = bias self.linear_input_size = in_features + bias[0] self.linear_output_size = out_features * (in_features + bias[1]) self.linear = nn.Linear(in_features=self.linear_input_size, out_features=self.linear_output_size, bias=False) self.reset_params() def reset_params(self): nn.init.xavier_uniform_(self.linear.weight) def forward(self, input1, input2): batch_size, len1, _dim1 = input1.size() batch_size, len2, _dim2 = input2.size() if self.bias[0]: ones = input1.data.new_ones(batch_size, len1, 1) input1 = torch.cat((input1, ones), dim=-1) if self.bias[1]: ones = input2.data.new_ones(batch_size, len2, 1) input2 = torch.cat((input2, ones), dim=-1) affine = self.linear(input1) affine = affine.reshape(batch_size, len1 * self.out_features, -1) biaffine = torch.bmm(affine, input2.transpose(1, 2)).transpose(1, 2 ).contiguous() biaffine = biaffine.reshape((batch_size, len2, len1, -1)).squeeze(-1) return biaffine class NonlinearMLP(nn.Module): def __init__(self, in_feature, out_feature, activation=None, bias=True): super(NonlinearMLP, self).__init__() if activation is None: self.activation = lambda x: x else: assert callable(activation) self.activation = activation self.bias = bias self.linear = nn.Linear(in_features=in_feature, out_features= out_feature, bias=bias) self.reset_params() def reset_params(self): nn.init.xavier_uniform_(self.linear.weight) if self.bias: nn.init.zeros_(self.linear.bias) def forward(self, inputs): linear_out = self.linear(inputs) return self.activation(linear_out) class BiaffineScorer(nn.Module): def __init__(self, input_size, ffnn_size, num_cls, ffnn_drop=0.33): super(BiaffineScorer, self).__init__() self.ffnn_size = ffnn_size self.ffnn_drop = ffnn_drop self._act = nn.ELU() self.mlp_start = NonlinearMLP(in_feature=input_size, out_feature= ffnn_size, activation=self._act) self.mlp_end = NonlinearMLP(in_feature=input_size, out_feature= ffnn_size, activation=self._act) self.span_biaff = Biaffine(ffnn_size, num_cls, bias=(True, True)) def forward(self, enc_hn): start_feat = self.mlp_start(enc_hn) end_feat = self.mlp_end(enc_hn) if self.training: start_feat = timestep_dropout(start_feat, self.ffnn_drop) end_feat = timestep_dropout(end_feat, self.ffnn_drop) span_score = self.span_biaff(start_feat, end_feat) return span_score def get_inputs(): return [torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'input_size': 4, 'ffnn_size': 4, 'num_cls': 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 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 = 80 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 5 x1 = xindex // 5 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 tl.full([1], 5, tl.int64) tmp18 = tl.full(tmp8.shape, 0.0, tmp8.dtype) tmp19 = tl.where(tmp15, tmp8, tmp18) tmp20 = tl.where(tmp4, tmp14, tmp19) tl.store(out_ptr0 + x2, tmp20, xmask) @triton.jit def triton_poi_fused_clone_1(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 y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 64 * y1), xmask & ymask) tl.store(out_ptr0 + (x2 + 16 * y3), tmp0, xmask & ymask) 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), (16, 4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (20, 5), (5, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (16, 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((16, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0 ), alpha=1, beta=1, out=buf1) del primals_4 del primals_5 buf2 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(80)](buf0, buf2, 80, XBLOCK=128, num_warps=4, num_stages=1) buf3 = empty_strided_cuda((16, 20), (20, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf2, (16, 5), (5, 1), 0), reinterpret_tensor(primals_6, (5, 20), (1, 5), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 5), (20, 5, 1), torch.float32) triton_poi_fused_cat_0[grid(80)](buf1, buf4, 80, XBLOCK=128, num_warps=4, num_stages=1) buf5 = empty_strided_cuda((4, 16, 4), (64, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf3, (4, 16, 5), (80, 5, 1), 0), reinterpret_tensor(buf4, (4, 5, 4), (20, 1, 5), 0), out=buf5) buf6 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) triton_poi_fused_clone_1[grid(16, 16)](buf5, buf6, 16, 16, XBLOCK= 16, YBLOCK=16, num_warps=4, num_stages=1) del buf5 return reinterpret_tensor(buf6, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(primals_3, (16, 4), (4, 1), 0 ), buf0, buf1, reinterpret_tensor(buf2, (16, 5), (5, 1), 0 ), reinterpret_tensor(buf3, (4, 5, 16), (80, 1, 5), 0), buf4, primals_6 def timestep_dropout(inputs, p=0.5, batch_first=True): """ :param inputs: (bz, time_step, feature_size) :param p: probability p mask out output nodes :param batch_first: default True :return: """ if not batch_first: inputs = inputs.transpose(0, 1) batch_size, _time_step, feature_size = inputs.size() drop_mask = inputs.data.new_full((batch_size, feature_size), 1 - p) drop_mask = torch.bernoulli(drop_mask).div(1 - p) drop_mask = drop_mask.unsqueeze(1) return inputs * drop_mask class Biaffine(nn.Module): def __init__(self, in_features, out_features=1, bias=(True, True)): super(Biaffine, self).__init__() self.in_features = in_features self.out_features = out_features self.bias = bias self.linear_input_size = in_features + bias[0] self.linear_output_size = out_features * (in_features + bias[1]) self.linear = nn.Linear(in_features=self.linear_input_size, out_features=self.linear_output_size, bias=False) self.reset_params() def reset_params(self): nn.init.xavier_uniform_(self.linear.weight) def forward(self, input1, input2): batch_size, len1, _dim1 = input1.size() batch_size, len2, _dim2 = input2.size() if self.bias[0]: ones = input1.data.new_ones(batch_size, len1, 1) input1 = torch.cat((input1, ones), dim=-1) if self.bias[1]: ones = input2.data.new_ones(batch_size, len2, 1) input2 = torch.cat((input2, ones), dim=-1) affine = self.linear(input1) affine = affine.reshape(batch_size, len1 * self.out_features, -1) biaffine = torch.bmm(affine, input2.transpose(1, 2)).transpose(1, 2 ).contiguous() biaffine = biaffine.reshape((batch_size, len2, len1, -1)).squeeze(-1) return biaffine class NonlinearMLP(nn.Module): def __init__(self, in_feature, out_feature, activation=None, bias=True): super(NonlinearMLP, self).__init__() if activation is None: self.activation = lambda x: x else: assert callable(activation) self.activation = activation self.bias = bias self.linear = nn.Linear(in_features=in_feature, out_features= out_feature, bias=bias) self.reset_params() def reset_params(self): nn.init.xavier_uniform_(self.linear.weight) if self.bias: nn.init.zeros_(self.linear.bias) def forward(self, inputs): linear_out = self.linear(inputs) return self.activation(linear_out) class BiaffineScorerNew(nn.Module): def __init__(self, input_size, ffnn_size, num_cls, ffnn_drop=0.33): super(BiaffineScorerNew, self).__init__() self.ffnn_size = ffnn_size self.ffnn_drop = ffnn_drop self._act = nn.ELU() self.mlp_start = NonlinearMLP(in_feature=input_size, out_feature= ffnn_size, activation=self._act) self.mlp_end = NonlinearMLP(in_feature=input_size, out_feature= ffnn_size, activation=self._act) self.span_biaff = Biaffine(ffnn_size, num_cls, bias=(True, True)) def forward(self, input_0): primals_1 = self.mlp_start.linear.weight primals_2 = self.mlp_start.linear.bias primals_4 = self.mlp_end.linear.weight primals_5 = self.mlp_end.linear.bias primals_6 = self.span_biaff.linear.weight primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return output[0]	LindgeW/BiaffineNER	BiaffineScorer	false	8,472	[ "Apache-2.0" ]	13	0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf	https://github.com/LindgeW/BiaffineNER/tree/0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf
ILN	# 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/cthqi3ws5pz6dxsdwhifrl55sjhbveemff7wl3je5ywfqeurh2dq.py # Topologically Sorted Source Nodes: [ln_mean, ln_var, add_1, sqrt_1], Original ATen: [aten.mean, aten.var, aten.add, aten.sqrt] # Source node to ATen node mapping: # add_1 => add_1 # ln_mean => mean_1 # ln_var => var_1 # sqrt_1 => sqrt_1 # Graph fragment: # %mean_1 : [num_users=2] = call_function[target=torch.ops.aten.mean.dim](args = (%primals_1, [1, 2, 3], True), kwargs = {}) # %var_1 : [num_users=1] = call_function[target=torch.ops.aten.var.correction](args = (%primals_1, [1, 2, 3]), kwargs = {correction: 1, keepdim: True}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%var_1, 1e-05), kwargs = {}) # %sqrt_1 : [num_users=2] = call_function[target=torch.ops.aten.sqrt.default](args = (%add_1,), kwargs = {}) triton_per_fused_add_mean_sqrt_var_0 = async_compile.triton('triton_per_fused_add_mean_sqrt_var_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=[4, 64], 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_add_mean_sqrt_var_0', 'mutated_arg_names': ['in_out_ptr0', 'in_out_ptr1'], 'no_x_dim': False, 'num_load': 1, '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_mean_sqrt_var_0(in_out_ptr0, in_out_ptr1, in_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 4 rnumel = 64 RBLOCK: tl.constexpr = 64 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 + (64x0)), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp6 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 64, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp1 - tmp12 tmp14 = tmp13 tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = 64.0 tmp20 = tmp4 / tmp19 tmp21 = 63.0 tmp22 = tmp18 / tmp21 tmp23 = 1e-05 tmp24 = tmp22 + tmp23 tmp25 = libdevice.sqrt(tmp24) tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp20, xmask) tl.debug_barrier() tl.store(in_out_ptr1 + (x0), tmp25, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/mx/cmxhn6aafvt4vwbxrfkplkxsetomguyzfcsq2q6ekpn6fswa3asa.py # Topologically Sorted Source Nodes: [in_mean, in_var, sub, add, sqrt, out_in, sub_1, out_ln, mul, sub_2, mul_1, out, mul_2, out_1], Original ATen: [aten.mean, aten.var, aten.sub, aten.add, aten.sqrt, aten.div, aten.mul, aten.rsub] # Source node to ATen node mapping: # add => add # in_mean => mean # in_var => var # mul => mul # mul_1 => mul_1 # mul_2 => mul_2 # out => add_2 # out_1 => add_3 # out_in => div # out_ln => div_1 # sqrt => sqrt # sub => sub # sub_1 => sub_1 # sub_2 => sub_2 # Graph fragment: # %mean : [num_users=2] = call_function[target=torch.ops.aten.mean.dim](args = (%primals_1, [2, 3], True), kwargs = {}) # %var : [num_users=1] = call_function[target=torch.ops.aten.var.correction](args = (%primals_1, [2, 3]), kwargs = {correction: 1, keepdim: True}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_1, %mean), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%var, 1e-05), kwargs = {}) # %sqrt : [num_users=2] = call_function[target=torch.ops.aten.sqrt.default](args = (%add,), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub, %sqrt), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_1, %mean_1), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub_1, %sqrt_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expand, %div), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %expand), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_2, %div_1), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %mul_1), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_2, %expand_2), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_2, %expand_3), kwargs = {}) triton_per_fused_add_div_mean_mul_rsub_sqrt_sub_var_1 = async_compile.triton('triton_per_fused_add_div_mean_mul_rsub_sqrt_sub_var_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=[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: 'fp32', 8: 'fp32', 9: 'i32', 10: '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), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_div_mean_mul_rsub_sqrt_sub_var_1', 'mutated_arg_names': ['in_out_ptr0', 'in_out_ptr1'], 'no_x_dim': False, 'num_load': 6, '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_div_mean_mul_rsub_sqrt_sub_var_1(in_out_ptr0, in_out_ptr1, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, 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 x2 = xindex % 4 x3 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (r1 + (16x0)), xmask, other=0.0) tmp26 = tl.load(in_ptr1 + (x2), xmask, eviction_policy='evict_last') tmp32 = tl.load(in_ptr2 + (x3), xmask, eviction_policy='evict_last') tmp34 = tl.load(in_ptr3 + (x3), xmask, eviction_policy='evict_last') tmp38 = tl.load(in_ptr4 + (x2), xmask, eviction_policy='evict_last') tmp40 = tl.load(in_ptr5 + (x2), xmask, eviction_policy='evict_last') tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp6 = tl.broadcast_to(tmp1, [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 = tmp1 - 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 = tmp4 / tmp19 tmp21 = 15.0 tmp22 = tmp18 / tmp21 tmp23 = 1e-05 tmp24 = tmp22 + tmp23 tmp25 = libdevice.sqrt(tmp24) tmp27 = tmp0 - tmp20 tmp28 = tmp27 / tmp25 tmp29 = tmp26 * tmp28 tmp30 = 1.0 tmp31 = tmp30 - tmp26 tmp33 = tmp0 - tmp32 tmp35 = tmp33 / tmp34 tmp36 = tmp31 * tmp35 tmp37 = tmp29 + tmp36 tmp39 = tmp37 * tmp38 tmp41 = tmp39 + tmp40 tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp20, xmask) tl.debug_barrier() tl.store(in_out_ptr1 + (x0), tmp25, xmask) tl.store(out_ptr0 + (r1 + (16*x0)), tmp41, 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, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (1, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_3, (1, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_4, (1, 4, 1, 1), (4, 1, 1, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf6 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf9 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf7 = reinterpret_tensor(buf6, (4, 1, 1, 1), (1, 1, 1, 1), 0); del buf6 # reuse buf11 = reinterpret_tensor(buf9, (4, 1, 1, 1), (1, 1, 1, 1), 0); del buf9 # reuse # Topologically Sorted Source Nodes: [ln_mean, ln_var, add_1, sqrt_1], Original ATen: [aten.mean, aten.var, aten.add, aten.sqrt] stream0 = get_raw_stream(0) triton_per_fused_add_mean_sqrt_var_0.run(buf7, buf11, primals_1, 4, 64, grid=grid(4), stream=stream0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf3 = 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 buf5 = reinterpret_tensor(buf3, (4, 4, 1, 1), (4, 1, 1, 1), 0); del buf3 # reuse buf12 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [in_mean, in_var, sub, add, sqrt, out_in, sub_1, out_ln, mul, sub_2, mul_1, out, mul_2, out_1], Original ATen: [aten.mean, aten.var, aten.sub, aten.add, aten.sqrt, aten.div, aten.mul, aten.rsub] triton_per_fused_add_div_mean_mul_rsub_sqrt_sub_var_1.run(buf1, buf5, primals_1, primals_2, buf7, buf11, primals_3, primals_4, buf12, 16, 16, grid=grid(16), stream=stream0) del primals_4 return (buf12, primals_1, primals_2, primals_3, buf1, buf5, buf7, 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((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((1, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((1, 4, 1, 1), (4, 1, 1, 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.utils.data import torch.utils.data.distributed import torch import torch.nn as nn from torch.nn.parameter import Parameter class ILN(nn.Module): def __init__(self, num_features, eps=1e-05): super(ILN, self).__init__() self.eps = eps self.rho = Parameter(torch.Tensor(1, num_features, 1, 1)) self.gamma = Parameter(torch.Tensor(1, num_features, 1, 1)) self.beta = Parameter(torch.Tensor(1, num_features, 1, 1)) self.rho.data.fill_(0.0) self.gamma.data.fill_(1.0) self.beta.data.fill_(0.0) def forward(self, x): in_mean, in_var = torch.mean(x, dim=[2, 3], keepdim=True), torch.var(x, dim=[2, 3], keepdim=True) out_in = (x - in_mean) / torch.sqrt(in_var + self.eps) ln_mean, ln_var = torch.mean(x, dim=[1, 2, 3], keepdim=True ), torch.var(x, dim=[1, 2, 3], keepdim=True) out_ln = (x - ln_mean) / torch.sqrt(ln_var + self.eps) out = self.rho.expand(x.shape[0], -1, -1, -1) * out_in + (1 - self. rho.expand(x.shape[0], -1, -1, -1)) * out_ln out = out * self.gamma.expand(x.shape[0], -1, -1, -1 ) + self.beta.expand(x.shape[0], -1, -1, -1) return out def get_inputs(): return [torch.rand([4, 4, 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 from torch._inductor.runtime.triton_helpers import libdevice import torch.utils.data import torch.utils.data.distributed import torch import torch.nn as nn from torch.nn.parameter import Parameter 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_mean_sqrt_var_0(in_out_ptr0, in_out_ptr1, in_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 4 RBLOCK: tl.constexpr = 64 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 + 64 * x0), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp6 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 64, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp1 - tmp12 tmp14 = tmp13 * tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = 64.0 tmp20 = tmp4 / tmp19 tmp21 = 63.0 tmp22 = tmp18 / tmp21 tmp23 = 1e-05 tmp24 = tmp22 + tmp23 tmp25 = libdevice.sqrt(tmp24) tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp20, xmask) tl.debug_barrier() tl.store(in_out_ptr1 + x0, tmp25, xmask) @triton.jit def triton_per_fused_add_div_mean_mul_rsub_sqrt_sub_var_1(in_out_ptr0, in_out_ptr1, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, 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 x2 = xindex % 4 x3 = xindex // 4 tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp26 = tl.load(in_ptr1 + x2, xmask, eviction_policy='evict_last') tmp32 = tl.load(in_ptr2 + x3, xmask, eviction_policy='evict_last') tmp34 = tl.load(in_ptr3 + x3, xmask, eviction_policy='evict_last') tmp38 = tl.load(in_ptr4 + x2, xmask, eviction_policy='evict_last') tmp40 = tl.load(in_ptr5 + x2, xmask, eviction_policy='evict_last') tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp6 = tl.broadcast_to(tmp1, [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 = tmp1 - 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 = tmp4 / tmp19 tmp21 = 15.0 tmp22 = tmp18 / tmp21 tmp23 = 1e-05 tmp24 = tmp22 + tmp23 tmp25 = libdevice.sqrt(tmp24) tmp27 = tmp0 - tmp20 tmp28 = tmp27 / tmp25 tmp29 = tmp26 * tmp28 tmp30 = 1.0 tmp31 = tmp30 - tmp26 tmp33 = tmp0 - tmp32 tmp35 = tmp33 / tmp34 tmp36 = tmp31 * tmp35 tmp37 = tmp29 + tmp36 tmp39 = tmp37 * tmp38 tmp41 = tmp39 + tmp40 tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp20, xmask) tl.debug_barrier() tl.store(in_out_ptr1 + x0, tmp25, xmask) tl.store(out_ptr0 + (r1 + 16 * x0), tmp41, xmask) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (1, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_3, (1, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_4, (1, 4, 1, 1), (4, 1, 1, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf6 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf9 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf7 = reinterpret_tensor(buf6, (4, 1, 1, 1), (1, 1, 1, 1), 0) del buf6 buf11 = reinterpret_tensor(buf9, (4, 1, 1, 1), (1, 1, 1, 1), 0) del buf9 get_raw_stream(0) triton_per_fused_add_mean_sqrt_var_0[grid(4)](buf7, buf11, primals_1, 4, 64, XBLOCK=1, num_warps=2, num_stages=1) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf3 = 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 buf5 = reinterpret_tensor(buf3, (4, 4, 1, 1), (4, 1, 1, 1), 0) del buf3 buf12 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_per_fused_add_div_mean_mul_rsub_sqrt_sub_var_1[grid(16)](buf1, buf5, primals_1, primals_2, buf7, buf11, primals_3, primals_4, buf12, 16, 16, XBLOCK=1, num_warps=2, num_stages=1) del primals_4 return buf12, primals_1, primals_2, primals_3, buf1, buf5, buf7, buf11 class ILNNew(nn.Module): def __init__(self, num_features, eps=1e-05): super(ILNNew, self).__init__() self.eps = eps self.rho = Parameter(torch.Tensor(1, num_features, 1, 1)) self.gamma = Parameter(torch.Tensor(1, num_features, 1, 1)) self.beta = Parameter(torch.Tensor(1, num_features, 1, 1)) self.rho.data.fill_(0.0) self.gamma.data.fill_(1.0) self.beta.data.fill_(0.0) def forward(self, input_0): primals_2 = self.rho primals_3 = self.gamma primals_4 = self.beta primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	Lornatang/UGATIT_PyTorch	ILN	false	8,473	[ "Apache-2.0" ]	25	03519e4829b85ceee67c031a28d5a9318ac932b5	https://github.com/Lornatang/UGATIT_PyTorch/tree/03519e4829b85ceee67c031a28d5a9318ac932b5
MedianPool2d	# 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/h6/ch66a7fv4ibs6uzgjzlpbnvvgycnijp2555725lecsqnqdvnwhku.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 = (%unfold_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=[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_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 = 2304 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 3 x1 = (xindex // 3) % 3 x2 = (xindex // 9) % 4 x3 = (xindex // 36) % 4 x4 = (xindex // 144) x5 = xindex tmp0 = tl.load(in_ptr0 + (15 + ((-1)(tl_math.abs((-3) + (tl_math.abs((-1) + x0 + x2))))) + ((-4)(tl_math.abs((-3) + (tl_math.abs((-1) + x1 + x3))))) + (16*x4)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (x5), 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, 4, 3, 3), (576, 144, 36, 9, 3, 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, 2304, grid=grid(2304), stream=stream0) del arg0_1 # Topologically Sorted Source Nodes: [median], Original ATen: [aten.median] buf1 = torch.ops.aten.median.dim(reinterpret_tensor(buf0, (4, 4, 4, 4, 9), (576, 144, 36, 9, 1), 0), -1) del buf0 buf2 = buf1[0] 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((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 import torch.nn as nn from torch.nn.modules.utils import _pair from torch.nn.modules.utils import _quadruple class MedianPool2d(nn.Module): """Median pool (usable as median filter when stride=1) module. Args: kernel_size: size of pooling kernel, int or 2-tuple stride: pool stride, int or 2-tuple padding: pool padding, int or 4-tuple (l, r, t, b) as in pytorch F.pad same: override padding and enforce same padding, boolean """ def __init__(self, kernel_size=3, stride=1, padding=0, same=True): """Initialize with kernel_size, stride, padding.""" super().__init__() self.k = _pair(kernel_size) self.stride = _pair(stride) self.padding = _quadruple(padding) self.same = same def _padding(self, x): if self.same: ih, iw = x.size()[2:] if ih % self.stride[0] == 0: ph = max(self.k[0] - self.stride[0], 0) else: ph = max(self.k[0] - ih % self.stride[0], 0) if iw % self.stride[1] == 0: pw = max(self.k[1] - self.stride[1], 0) else: pw = max(self.k[1] - iw % self.stride[1], 0) pl = pw // 2 pr = pw - pl pt = ph // 2 pb = ph - pt padding = pl, pr, pt, pb else: padding = self.padding return padding def forward(self, x): x = F.pad(x, self._padding(x), mode='reflect') x = x.unfold(2, self.k[0], self.stride[0]).unfold(3, self.k[1], self.stride[1]) x = x.contiguous().view(x.size()[:4] + (-1,)).median(dim=-1)[0] 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 math as tl_math import torch.nn as nn from torch.nn.modules.utils import _pair from torch.nn.modules.utils import _quadruple 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 = 2304 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 3 x1 = xindex // 3 % 3 x2 = xindex // 9 % 4 x3 = xindex // 36 % 4 x4 = xindex // 144 x5 = xindex tmp0 = tl.load(in_ptr0 + (15 + -1 * tl_math.abs(-3 + tl_math.abs(-1 + x0 + x2)) + -4 * tl_math.abs(-3 + tl_math.abs(-1 + x1 + x3)) + 16 * x4), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + x5, 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, 4, 3, 3), (576, 144, 36, 9, 3, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(2304)](arg0_1, buf0, 2304, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 buf1 = torch.ops.aten.median.dim(reinterpret_tensor(buf0, (4, 4, 4, 4, 9), (576, 144, 36, 9, 1), 0), -1) del buf0 buf2 = buf1[0] del buf1 return buf2, class MedianPool2dNew(nn.Module): """Median pool (usable as median filter when stride=1) module. Args: kernel_size: size of pooling kernel, int or 2-tuple stride: pool stride, int or 2-tuple padding: pool padding, int or 4-tuple (l, r, t, b) as in pytorch F.pad same: override padding and enforce same padding, boolean """ def __init__(self, kernel_size=3, stride=1, padding=0, same=True): """Initialize with kernel_size, stride, padding.""" super().__init__() self.k = _pair(kernel_size) self.stride = _pair(stride) self.padding = _quadruple(padding) self.same = same def _padding(self, x): if self.same: ih, iw = x.size()[2:] if ih % self.stride[0] == 0: ph = max(self.k[0] - self.stride[0], 0) else: ph = max(self.k[0] - ih % self.stride[0], 0) if iw % self.stride[1] == 0: pw = max(self.k[1] - self.stride[1], 0) else: pw = max(self.k[1] - iw % self.stride[1], 0) pl = pw // 2 pr = pw - pl pt = ph // 2 pb = ph - pt padding = pl, pr, pt, pb else: padding = self.padding return padding def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	LuckMonkeys/ATSPrivacy	MedianPool2d	false	8,474	[ "MIT" ]	14	6b580942c6b98b6348d313f2bf90202ec19cefce	https://github.com/LuckMonkeys/ATSPrivacy/tree/6b580942c6b98b6348d313f2bf90202ec19cefce
MaskedLanguageModel	# 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/rr/crrkfiuzinrqlkjsh6ixacvyrm76qb7yzuyt5euwmtbejf7u6uax.py # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax] # Source node to ATen node mapping: # log_softmax => amax, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_1, [-1], True), kwargs = {}) # %sub : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_1, %amax), kwargs = {}) triton_poi_fused__log_softmax_0 = async_compile.triton('triton_poi_fused__log_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__log_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__log_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 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 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/s5/cs5nvchdlk2mjpozf2fnesegrjp7oqi5e5eols33r54x3d4godfi.py # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax] # Source node to ATen node mapping: # log_softmax => 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_1 = async_compile.triton('triton_poi_fused__log_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__log_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__log_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') 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 = 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: [linear], 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: [log_softmax], Original ATen: [aten._log_softmax] stream0 = get_raw_stream(0) triton_poi_fused__log_softmax_0.run(buf0, buf1, 256, grid=grid(256), stream=stream0) buf2 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax] triton_poi_fused__log_softmax_1.run(buf1, buf2, 256, grid=grid(256), stream=stream0) del buf1 return (buf2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf2, ) 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 torch.optim.lr_scheduler import torch.nn as nn import torch.optim import torch.onnx.operators class MaskedLanguageModel(nn.Module): """ predicting origin token from masked input sequence n-class classification problem, n-class = vocab_size """ def __init__(self, hidden, vocab_size): """ :param hidden: output size of BERT model :param vocab_size: total vocab size """ super().__init__() self.linear = nn.Linear(hidden, vocab_size) self.softmax = nn.LogSoftmax(dim=-1) def forward(self, x): return self.softmax(self.linear(x)) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'hidden': 4, 'vocab_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.optim.lr_scheduler import torch.nn as nn import torch.optim import torch.onnx.operators 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__log_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 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 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_poi_fused__log_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') 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 = 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__log_softmax_0[grid(256)](buf0, buf1, 256, XBLOCK= 256, num_warps=4, num_stages=1) buf2 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 triton_poi_fused__log_softmax_1[grid(256)](buf1, buf2, 256, XBLOCK= 128, num_warps=4, num_stages=1) del buf1 return buf2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf2 class MaskedLanguageModelNew(nn.Module): """ predicting origin token from masked input sequence n-class classification problem, n-class = vocab_size """ def __init__(self, hidden, vocab_size): """ :param hidden: output size of BERT model :param vocab_size: total vocab size """ super().__init__() self.linear = nn.Linear(hidden, vocab_size) self.softmax = nn.LogSoftmax(dim=-1) 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]	LogIntelligence/LogADEmpirical	MaskedLanguageModel	false	8,475	[ "MIT" ]	11	48458aee65c1c84466b04dd4092fae79a7f341fd	https://github.com/LogIntelligence/LogADEmpirical/tree/48458aee65c1c84466b04dd4092fae79a7f341fd
ToRGB	# 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/ag/caggqh3nrqirp3azykpm6daivhojwggbhob6pnubsheittrjeiky.py # Topologically Sorted Source Nodes: [mul], Original ATen: [aten.mul] # Source node to ATen node mapping: # mul => mul # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_2, 0.5), 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=[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_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_0(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 = 0.5 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/qw/cqw2ahskucrmwkbadqswj76db4kfcxn5w76kji7peia7kwu4zbkq.py # Topologically Sorted Source Nodes: [mul_1], Original ATen: [aten.mul] # Source node to ATen node mapping: # mul_1 => mul_1 # Graph fragment: # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_3, 1), kwargs = {}) triton_poi_fused_mul_1 = async_compile.triton('triton_poi_fused_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=[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_mul_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_mul_1(in_ptr0, out_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_ptr0 + (x0), xmask) tmp1 = 1.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ri/crit4jqlxgpbdpuevorirqqqw2hyqzwbnqdfjekkjh4qbv2q3g3u.py # Topologically Sorted Source Nodes: [mul_2, weight], Original ATen: [aten.mul] # Source node to ATen node mapping: # mul_2 => mul_2 # weight => mul_3 # Graph fragment: # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_5, 0.5), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_2, %view), kwargs = {}) triton_poi_fused_mul_2 = async_compile.triton('triton_poi_fused_mul_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: '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_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_mul_2(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 x3 = xindex % 16 x0 = xindex % 4 x2 = (xindex // 16) x4 = xindex tmp0 = tl.load(in_ptr0 + (x3), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (x0 + (4x2)), xmask, eviction_policy='evict_last') tmp1 = 0.5 tmp2 = tmp0 tmp1 tmp4 = tmp2 * tmp3 tl.store(out_ptr0 + (x4), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/4g/c4gbmpdynxx6wfqdz27w5n5ajxpixnp56lripmrhh4cnazdbqwnu.py # Topologically Sorted Source Nodes: [out_3], Original ATen: [aten.add] # Source node to ATen node mapping: # out_3 => add # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_3, %primals_6), 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: '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_3', '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_3(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, 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, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (1, 4, 4, 1, 1), (16, 4, 1, 1, 1)) assert_size_stride(primals_6, (1, 4, 1, 1), (4, 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: [mul], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(primals_2, buf0, 16, grid=grid(16), stream=stream0) del primals_2 buf1 = empty_strided_cuda((4, ), (1, ), torch.float32) # Topologically Sorted Source Nodes: [mul_1], Original ATen: [aten.mul] triton_poi_fused_mul_1.run(primals_3, buf1, 4, grid=grid(4), stream=stream0) del primals_3 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul_1, out], Original ATen: [aten.mul, aten.addmm] extern_kernels.addmm(buf1, primals_4, reinterpret_tensor(buf0, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del buf0 del buf1 buf3 = empty_strided_cuda((4, 4, 4, 1, 1), (16, 4, 1, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [mul_2, weight], Original ATen: [aten.mul] triton_poi_fused_mul_2.run(primals_5, buf2, buf3, 64, grid=grid(64), stream=stream0) # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(reinterpret_tensor(primals_1, (1, 16, 4, 4), (256, 16, 4, 1), 0), reinterpret_tensor(buf3, (16, 4, 1, 1), (4, 1, 0, 0), 0), stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf4, (1, 16, 4, 4), (256, 16, 4, 1)) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf4 # reuse # Topologically Sorted Source Nodes: [out_3], Original ATen: [aten.add] triton_poi_fused_add_3.run(buf5, primals_6, 256, grid=grid(256), stream=stream0) del primals_6 return (buf5, primals_4, primals_5, buf2, reinterpret_tensor(buf3, (16, 4, 1, 1), (4, 1, 1, 1), 0), reinterpret_tensor(primals_1, (1, 16, 4, 4), (256, 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, 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((1, 4, 4, 1, 1), (16, 4, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_6 = 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, 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)	from torch.autograd import Function import abc import math import torch from torch import nn import torch.nn.functional as F from collections import abc def make_kernel(k): k = torch.tensor(k, dtype=torch.float32) if k.ndim == 1: k = k[None, :] * k[:, None] k /= k.sum() return k def upfirdn2d_native(input, kernel, up_x, up_y, down_x, down_y, pad_x0, pad_x1, pad_y0, pad_y1): _, channel, in_h, in_w = input.shape input = input.reshape(-1, in_h, in_w, 1) _, in_h, in_w, minor = input.shape kernel_h, kernel_w = kernel.shape out = input.view(-1, in_h, 1, in_w, 1, minor) out = F.pad(out, [0, 0, 0, up_x - 1, 0, 0, 0, up_y - 1]) out = out.view(-1, in_h * up_y, in_w * up_x, minor) out = F.pad(out, [0, 0, max(pad_x0, 0), max(pad_x1, 0), max(pad_y0, 0), max(pad_y1, 0)]) out = out[:, max(-pad_y0, 0):out.shape[1] - max(-pad_y1, 0), max(- pad_x0, 0):out.shape[2] - max(-pad_x1, 0), :] out = out.permute(0, 3, 1, 2) out = out.reshape([-1, 1, in_h * up_y + pad_y0 + pad_y1, in_w * up_x + pad_x0 + pad_x1]) w = torch.flip(kernel, [0, 1]).view(1, 1, kernel_h, kernel_w) out = F.conv2d(out, w) out = out.reshape(-1, minor, in_h * up_y + pad_y0 + pad_y1 - kernel_h + 1, in_w * up_x + pad_x0 + pad_x1 - kernel_w + 1) out = out.permute(0, 2, 3, 1) out = out[:, ::down_y, ::down_x, :] out_h = (in_h * up_y + pad_y0 + pad_y1 - kernel_h + down_y) // down_y out_w = (in_w * up_x + pad_x0 + pad_x1 - kernel_w + down_x) // down_x return out.view(-1, channel, out_h, out_w) def upfirdn2d(input, kernel, up=1, down=1, pad=(0, 0)): if not isinstance(up, abc.Iterable): up = up, up if not isinstance(down, abc.Iterable): down = down, down if len(pad) == 2: pad = pad[0], pad[1], pad[0], pad[1] if input.device.type == 'cpu': out = upfirdn2d_native(input, kernel, up, down, pad) else: out = UpFirDn2d.apply(input, kernel, up, down, pad) return out def fused_leaky_relu(input, bias=None, negative_slope=0.2, scale=2 * 0.5): if input.device.type == 'cpu': if bias is not None: rest_dim = [1] * (input.ndim - bias.ndim - 1) return F.leaky_relu(input + bias.view(1, bias.shape[0], * rest_dim), negative_slope=0.2) * scale else: return F.leaky_relu(input, negative_slope=0.2) * scale else: return FusedLeakyReLUFunction.apply(input.contiguous(), bias, negative_slope, scale) class UpFirDn2dBackward(Function): @staticmethod def forward(ctx, grad_output, kernel, grad_kernel, up, down, pad, g_pad, in_size, out_size): up_x, up_y = up down_x, down_y = down g_pad_x0, g_pad_x1, g_pad_y0, g_pad_y1 = g_pad grad_output = grad_output.reshape(-1, out_size[0], out_size[1], 1) grad_input = upfirdn2d_op.upfirdn2d(grad_output, grad_kernel, down_x, down_y, up_x, up_y, g_pad_x0, g_pad_x1, g_pad_y0, g_pad_y1) grad_input = grad_input.view(in_size[0], in_size[1], in_size[2], in_size[3]) ctx.save_for_backward(kernel) pad_x0, pad_x1, pad_y0, pad_y1 = pad ctx.up_x = up_x ctx.up_y = up_y ctx.down_x = down_x ctx.down_y = down_y ctx.pad_x0 = pad_x0 ctx.pad_x1 = pad_x1 ctx.pad_y0 = pad_y0 ctx.pad_y1 = pad_y1 ctx.in_size = in_size ctx.out_size = out_size return grad_input @staticmethod def backward(ctx, gradgrad_input): kernel, = ctx.saved_tensors gradgrad_input = gradgrad_input.reshape(-1, ctx.in_size[2], ctx. in_size[3], 1) gradgrad_out = upfirdn2d_op.upfirdn2d(gradgrad_input, kernel, ctx. up_x, ctx.up_y, ctx.down_x, ctx.down_y, ctx.pad_x0, ctx.pad_x1, ctx.pad_y0, ctx.pad_y1) gradgrad_out = gradgrad_out.view(ctx.in_size[0], ctx.in_size[1], ctx.out_size[0], ctx.out_size[1]) return gradgrad_out, None, None, None, None, None, None, None, None class UpFirDn2d(Function): @staticmethod def forward(ctx, input, kernel, up, down, pad): up_x, up_y = up down_x, down_y = down pad_x0, pad_x1, pad_y0, pad_y1 = pad kernel_h, kernel_w = kernel.shape _batch, channel, in_h, in_w = input.shape ctx.in_size = input.shape input = input.reshape(-1, in_h, in_w, 1) ctx.save_for_backward(kernel, torch.flip(kernel, [0, 1])) out_h = (in_h * up_y + pad_y0 + pad_y1 - kernel_h + down_y) // down_y out_w = (in_w * up_x + pad_x0 + pad_x1 - kernel_w + down_x) // down_x ctx.out_size = out_h, out_w ctx.up = up_x, up_y ctx.down = down_x, down_y ctx.pad = pad_x0, pad_x1, pad_y0, pad_y1 g_pad_x0 = kernel_w - pad_x0 - 1 g_pad_y0 = kernel_h - pad_y0 - 1 g_pad_x1 = in_w * up_x - out_w * down_x + pad_x0 - up_x + 1 g_pad_y1 = in_h * up_y - out_h * down_y + pad_y0 - up_y + 1 ctx.g_pad = g_pad_x0, g_pad_x1, g_pad_y0, g_pad_y1 out = upfirdn2d_op.upfirdn2d(input, kernel, up_x, up_y, down_x, down_y, pad_x0, pad_x1, pad_y0, pad_y1) out = out.view(-1, channel, out_h, out_w) return out @staticmethod def backward(ctx, grad_output): kernel, grad_kernel = ctx.saved_tensors grad_input = None if ctx.needs_input_grad[0]: grad_input = UpFirDn2dBackward.apply(grad_output, kernel, grad_kernel, ctx.up, ctx.down, ctx.pad, ctx.g_pad, ctx. in_size, ctx.out_size) return grad_input, None, None, None, None class Upsample(nn.Module): def __init__(self, kernel, factor=2): super().__init__() self.factor = factor kernel = make_kernel(kernel) * factor ** 2 self.register_buffer('kernel', kernel) p = kernel.shape[0] - factor pad0 = (p + 1) // 2 + factor - 1 pad1 = p // 2 self.pad = pad0, pad1 def forward(self, input): out = upfirdn2d(input, self.kernel, up=self.factor, down=1, pad= self.pad) return out class Blur(nn.Module): def __init__(self, kernel, pad, upsample_factor=1): super().__init__() kernel = make_kernel(kernel) if upsample_factor > 1: kernel = kernel * upsample_factor ** 2 self.register_buffer('kernel', kernel) self.pad = pad def forward(self, input): out = upfirdn2d(input, self.kernel, pad=self.pad) return out class FusedLeakyReLUFunctionBackward(Function): @staticmethod def forward(ctx, grad_output, out, bias, negative_slope, scale): ctx.save_for_backward(out) ctx.negative_slope = negative_slope ctx.scale = scale empty = grad_output.new_empty(0) grad_input = fused.fused_bias_act(grad_output.contiguous(), empty, out, 3, 1, negative_slope, scale) dim = [0] if grad_input.ndim > 2: dim += list(range(2, grad_input.ndim)) if bias: grad_bias = grad_input.sum(dim).detach() else: grad_bias = empty return grad_input, grad_bias @staticmethod def backward(ctx, gradgrad_input, gradgrad_bias): out, = ctx.saved_tensors gradgrad_out = fused.fused_bias_act(gradgrad_input.contiguous(), gradgrad_bias, out, 3, 1, ctx.negative_slope, ctx.scale) return gradgrad_out, None, None, None, None class FusedLeakyReLUFunction(Function): @staticmethod def forward(ctx, input, bias, negative_slope, scale): empty = input.new_empty(0) ctx.bias = bias is not None if bias is None: bias = empty out = fused.fused_bias_act(input, bias, empty, 3, 0, negative_slope, scale) ctx.save_for_backward(out) ctx.negative_slope = negative_slope ctx.scale = scale return out @staticmethod def backward(ctx, grad_output): out, = ctx.saved_tensors grad_input, grad_bias = FusedLeakyReLUFunctionBackward.apply( grad_output, out, ctx.bias, ctx.negative_slope, ctx.scale) if not ctx.bias: grad_bias = None return grad_input, grad_bias, None, None class EqualLinear(nn.Module): def __init__(self, in_dim, out_dim, bias=True, bias_init=0, lr_mul=1, activation=None): super().__init__() self.weight = nn.Parameter(torch.randn(out_dim, in_dim).div_(lr_mul)) if bias: self.bias = nn.Parameter(torch.zeros(out_dim).fill_(bias_init)) else: self.bias = None self.activation = activation self.scale = 1 / math.sqrt(in_dim) * lr_mul self.lr_mul = lr_mul def forward(self, input): if self.activation: out = F.linear(input, self.weight * self.scale) out = fused_leaky_relu(out, self.bias * self.lr_mul) else: out = F.linear(input, self.weight * self.scale, bias=self.bias * self.lr_mul) return out def __repr__(self): return ( f'{self.__class__.__name__}({self.weight.shape[1]}, {self.weight.shape[0]})' ) class ModulatedConv2d(nn.Module): def __init__(self, in_channel, out_channel, kernel_size, style_dim, demodulate=True, upsample=False, downsample=False, blur_kernel=[1, 3, 3, 1], fused=True): super().__init__() self.eps = 1e-08 self.kernel_size = kernel_size self.in_channel = in_channel self.out_channel = out_channel self.upsample = upsample self.downsample = downsample if upsample: factor = 2 p = len(blur_kernel) - factor - (kernel_size - 1) pad0 = (p + 1) // 2 + factor - 1 pad1 = p // 2 + 1 self.blur = Blur(blur_kernel, pad=(pad0, pad1), upsample_factor =factor) if downsample: factor = 2 p = len(blur_kernel) - factor + (kernel_size - 1) pad0 = (p + 1) // 2 pad1 = p // 2 self.blur = Blur(blur_kernel, pad=(pad0, pad1)) fan_in = in_channel * kernel_size ** 2 self.scale = 1 / math.sqrt(fan_in) self.padding = kernel_size // 2 self.weight = nn.Parameter(torch.randn(1, out_channel, in_channel, kernel_size, kernel_size)) self.modulation = EqualLinear(style_dim, in_channel, bias_init=1) self.demodulate = demodulate self.fused = fused def __repr__(self): return ( f'{self.__class__.__name__}({self.in_channel}, {self.out_channel}, {self.kernel_size}, upsample={self.upsample}, downsample={self.downsample})' ) def forward(self, input, style): batch, in_channel, height, width = input.shape if not self.fused: weight = self.scale * self.weight.squeeze(0) style = self.modulation(style) if self.demodulate: w = weight.unsqueeze(0) * style.view(batch, 1, in_channel, 1, 1 ) dcoefs = (w.square().sum((2, 3, 4)) + 1e-08).rsqrt() input = input * style.reshape(batch, in_channel, 1, 1) if self.upsample: weight = weight.transpose(0, 1) out = F.conv_transpose2d(input, weight, padding=0, stride=2) out = self.blur(out) elif self.downsample: input = self.blur(input) out = F.conv2d(input, weight, padding=0, stride=2) else: out = F.conv2d(input, weight, padding=self.padding) if self.demodulate: out = out * dcoefs.view(batch, -1, 1, 1) return out style = self.modulation(style).view(batch, 1, in_channel, 1, 1) weight = self.scale * self.weight * style if self.demodulate: demod = torch.rsqrt(weight.pow(2).sum([2, 3, 4]) + 1e-08) weight = weight * demod.view(batch, self.out_channel, 1, 1, 1) weight = weight.view(batch * self.out_channel, in_channel, self. kernel_size, self.kernel_size) if self.upsample: input = input.view(1, batch * in_channel, height, width) weight = weight.view(batch, self.out_channel, in_channel, self. kernel_size, self.kernel_size) weight = weight.transpose(1, 2).reshape(batch * in_channel, self.out_channel, self.kernel_size, self.kernel_size) out = F.conv_transpose2d(input, weight, padding=0, stride=2, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) out = self.blur(out) elif self.downsample: input = self.blur(input) _, _, height, width = input.shape input = input.view(1, batch * in_channel, height, width) out = F.conv2d(input, weight, padding=0, stride=2, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) else: input = input.view(1, batch * in_channel, height, width) out = F.conv2d(input, weight, padding=self.padding, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) return out class ToRGB(nn.Module): def __init__(self, in_channel, image_channel, style_dim, upsample=True, blur_kernel=[1, 3, 3, 1]): super().__init__() if upsample: self.upsample = Upsample(blur_kernel) self.conv = ModulatedConv2d(in_channel, image_channel, 1, style_dim, demodulate=False) self.bias = nn.Parameter(torch.zeros(1, image_channel, 1, 1)) def forward(self, input, style, skip=None): out = self.conv(input, style) out = out + self.bias if skip is not None: skip = self.upsample(skip) out = out + skip return out def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'in_channel': 4, 'image_channel': 4, 'style_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.autograd import Function import abc import math from torch import nn import torch.nn.functional as F from collections import abc 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, 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 = 0.5 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused_mul_1(in_ptr0, out_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_ptr0 + x0, xmask) tmp1 = 1.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused_mul_2(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 x3 = xindex % 16 x0 = xindex % 4 x2 = xindex // 16 x4 = xindex tmp0 = tl.load(in_ptr0 + x3, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (x0 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp1 = 0.5 tmp2 = tmp0 * tmp1 tmp4 = tmp2 * tmp3 tl.store(out_ptr0 + x4, tmp4, xmask) @triton.jit def triton_poi_fused_add_3(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, 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, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (1, 4, 4, 1, 1), (16, 4, 1, 1, 1)) assert_size_stride(primals_6, (1, 4, 1, 1), (4, 1, 1, 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_2, buf0, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_2 buf1 = empty_strided_cuda((4,), (1,), torch.float32) triton_poi_fused_mul_1[grid(4)](primals_3, buf1, 4, XBLOCK=4, num_warps=1, num_stages=1) del primals_3 buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(buf1, primals_4, reinterpret_tensor(buf0, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del buf0 del buf1 buf3 = empty_strided_cuda((4, 4, 4, 1, 1), (16, 4, 1, 1, 1), torch. float32) triton_poi_fused_mul_2[grid(64)](primals_5, buf2, buf3, 64, XBLOCK= 64, num_warps=1, num_stages=1) buf4 = extern_kernels.convolution(reinterpret_tensor(primals_1, (1, 16, 4, 4), (256, 16, 4, 1), 0), reinterpret_tensor(buf3, (16, 4, 1, 1), (4, 1, 0, 0), 0), stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf4, (1, 16, 4, 4), (256, 16, 4, 1)) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf4 triton_poi_fused_add_3[grid(256)](buf5, primals_6, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_6 return buf5, primals_4, primals_5, buf2, reinterpret_tensor(buf3, (16, 4, 1, 1), (4, 1, 1, 1), 0), reinterpret_tensor(primals_1, (1, 16, 4, 4), (256, 16, 4, 1), 0) def make_kernel(k): k = torch.tensor(k, dtype=torch.float32) if k.ndim == 1: k = k[None, :] * k[:, None] k /= k.sum() return k def upfirdn2d_native(input, kernel, up_x, up_y, down_x, down_y, pad_x0, pad_x1, pad_y0, pad_y1): _, channel, in_h, in_w = input.shape input = input.reshape(-1, in_h, in_w, 1) _, in_h, in_w, minor = input.shape kernel_h, kernel_w = kernel.shape out = input.view(-1, in_h, 1, in_w, 1, minor) out = F.pad(out, [0, 0, 0, up_x - 1, 0, 0, 0, up_y - 1]) out = out.view(-1, in_h * up_y, in_w * up_x, minor) out = F.pad(out, [0, 0, max(pad_x0, 0), max(pad_x1, 0), max(pad_y0, 0), max(pad_y1, 0)]) out = out[:, max(-pad_y0, 0):out.shape[1] - max(-pad_y1, 0), max(- pad_x0, 0):out.shape[2] - max(-pad_x1, 0), :] out = out.permute(0, 3, 1, 2) out = out.reshape([-1, 1, in_h * up_y + pad_y0 + pad_y1, in_w * up_x + pad_x0 + pad_x1]) w = torch.flip(kernel, [0, 1]).view(1, 1, kernel_h, kernel_w) out = F.conv2d(out, w) out = out.reshape(-1, minor, in_h * up_y + pad_y0 + pad_y1 - kernel_h + 1, in_w * up_x + pad_x0 + pad_x1 - kernel_w + 1) out = out.permute(0, 2, 3, 1) out = out[:, ::down_y, ::down_x, :] out_h = (in_h * up_y + pad_y0 + pad_y1 - kernel_h + down_y) // down_y out_w = (in_w * up_x + pad_x0 + pad_x1 - kernel_w + down_x) // down_x return out.view(-1, channel, out_h, out_w) def upfirdn2d(input, kernel, up=1, down=1, pad=(0, 0)): if not isinstance(up, abc.Iterable): up = up, up if not isinstance(down, abc.Iterable): down = down, down if len(pad) == 2: pad = pad[0], pad[1], pad[0], pad[1] if input.device.type == 'cpu': out = upfirdn2d_native(input, kernel, up, down, pad) else: out = UpFirDn2d.apply(input, kernel, up, down, pad) return out def fused_leaky_relu(input, bias=None, negative_slope=0.2, scale=2 * 0.5): if input.device.type == 'cpu': if bias is not None: rest_dim = [1] * (input.ndim - bias.ndim - 1) return F.leaky_relu(input + bias.view(1, bias.shape[0], * rest_dim), negative_slope=0.2) * scale else: return F.leaky_relu(input, negative_slope=0.2) * scale else: return FusedLeakyReLUFunction.apply(input.contiguous(), bias, negative_slope, scale) class UpFirDn2dBackward(Function): @staticmethod def forward(ctx, grad_output, kernel, grad_kernel, up, down, pad, g_pad, in_size, out_size): up_x, up_y = up down_x, down_y = down g_pad_x0, g_pad_x1, g_pad_y0, g_pad_y1 = g_pad grad_output = grad_output.reshape(-1, out_size[0], out_size[1], 1) grad_input = upfirdn2d_op.upfirdn2d(grad_output, grad_kernel, down_x, down_y, up_x, up_y, g_pad_x0, g_pad_x1, g_pad_y0, g_pad_y1) grad_input = grad_input.view(in_size[0], in_size[1], in_size[2], in_size[3]) ctx.save_for_backward(kernel) pad_x0, pad_x1, pad_y0, pad_y1 = pad ctx.up_x = up_x ctx.up_y = up_y ctx.down_x = down_x ctx.down_y = down_y ctx.pad_x0 = pad_x0 ctx.pad_x1 = pad_x1 ctx.pad_y0 = pad_y0 ctx.pad_y1 = pad_y1 ctx.in_size = in_size ctx.out_size = out_size return grad_input @staticmethod def backward(ctx, gradgrad_input): kernel, = ctx.saved_tensors gradgrad_input = gradgrad_input.reshape(-1, ctx.in_size[2], ctx. in_size[3], 1) gradgrad_out = upfirdn2d_op.upfirdn2d(gradgrad_input, kernel, ctx. up_x, ctx.up_y, ctx.down_x, ctx.down_y, ctx.pad_x0, ctx.pad_x1, ctx.pad_y0, ctx.pad_y1) gradgrad_out = gradgrad_out.view(ctx.in_size[0], ctx.in_size[1], ctx.out_size[0], ctx.out_size[1]) return gradgrad_out, None, None, None, None, None, None, None, None class UpFirDn2d(Function): @staticmethod def forward(ctx, input, kernel, up, down, pad): up_x, up_y = up down_x, down_y = down pad_x0, pad_x1, pad_y0, pad_y1 = pad kernel_h, kernel_w = kernel.shape _batch, channel, in_h, in_w = input.shape ctx.in_size = input.shape input = input.reshape(-1, in_h, in_w, 1) ctx.save_for_backward(kernel, torch.flip(kernel, [0, 1])) out_h = (in_h * up_y + pad_y0 + pad_y1 - kernel_h + down_y) // down_y out_w = (in_w * up_x + pad_x0 + pad_x1 - kernel_w + down_x) // down_x ctx.out_size = out_h, out_w ctx.up = up_x, up_y ctx.down = down_x, down_y ctx.pad = pad_x0, pad_x1, pad_y0, pad_y1 g_pad_x0 = kernel_w - pad_x0 - 1 g_pad_y0 = kernel_h - pad_y0 - 1 g_pad_x1 = in_w * up_x - out_w * down_x + pad_x0 - up_x + 1 g_pad_y1 = in_h * up_y - out_h * down_y + pad_y0 - up_y + 1 ctx.g_pad = g_pad_x0, g_pad_x1, g_pad_y0, g_pad_y1 out = upfirdn2d_op.upfirdn2d(input, kernel, up_x, up_y, down_x, down_y, pad_x0, pad_x1, pad_y0, pad_y1) out = out.view(-1, channel, out_h, out_w) return out @staticmethod def backward(ctx, grad_output): kernel, grad_kernel = ctx.saved_tensors grad_input = None if ctx.needs_input_grad[0]: grad_input = UpFirDn2dBackward.apply(grad_output, kernel, grad_kernel, ctx.up, ctx.down, ctx.pad, ctx.g_pad, ctx. in_size, ctx.out_size) return grad_input, None, None, None, None class Upsample(nn.Module): def __init__(self, kernel, factor=2): super().__init__() self.factor = factor kernel = make_kernel(kernel) * factor ** 2 self.register_buffer('kernel', kernel) p = kernel.shape[0] - factor pad0 = (p + 1) // 2 + factor - 1 pad1 = p // 2 self.pad = pad0, pad1 def forward(self, input): out = upfirdn2d(input, self.kernel, up=self.factor, down=1, pad= self.pad) return out class Blur(nn.Module): def __init__(self, kernel, pad, upsample_factor=1): super().__init__() kernel = make_kernel(kernel) if upsample_factor > 1: kernel = kernel * upsample_factor ** 2 self.register_buffer('kernel', kernel) self.pad = pad def forward(self, input): out = upfirdn2d(input, self.kernel, pad=self.pad) return out class FusedLeakyReLUFunctionBackward(Function): @staticmethod def forward(ctx, grad_output, out, bias, negative_slope, scale): ctx.save_for_backward(out) ctx.negative_slope = negative_slope ctx.scale = scale empty = grad_output.new_empty(0) grad_input = fused.fused_bias_act(grad_output.contiguous(), empty, out, 3, 1, negative_slope, scale) dim = [0] if grad_input.ndim > 2: dim += list(range(2, grad_input.ndim)) if bias: grad_bias = grad_input.sum(dim).detach() else: grad_bias = empty return grad_input, grad_bias @staticmethod def backward(ctx, gradgrad_input, gradgrad_bias): out, = ctx.saved_tensors gradgrad_out = fused.fused_bias_act(gradgrad_input.contiguous(), gradgrad_bias, out, 3, 1, ctx.negative_slope, ctx.scale) return gradgrad_out, None, None, None, None class FusedLeakyReLUFunction(Function): @staticmethod def forward(ctx, input, bias, negative_slope, scale): empty = input.new_empty(0) ctx.bias = bias is not None if bias is None: bias = empty out = fused.fused_bias_act(input, bias, empty, 3, 0, negative_slope, scale) ctx.save_for_backward(out) ctx.negative_slope = negative_slope ctx.scale = scale return out @staticmethod def backward(ctx, grad_output): out, = ctx.saved_tensors grad_input, grad_bias = FusedLeakyReLUFunctionBackward.apply( grad_output, out, ctx.bias, ctx.negative_slope, ctx.scale) if not ctx.bias: grad_bias = None return grad_input, grad_bias, None, None class EqualLinear(nn.Module): def __init__(self, in_dim, out_dim, bias=True, bias_init=0, lr_mul=1, activation=None): super().__init__() self.weight = nn.Parameter(torch.randn(out_dim, in_dim).div_(lr_mul)) if bias: self.bias = nn.Parameter(torch.zeros(out_dim).fill_(bias_init)) else: self.bias = None self.activation = activation self.scale = 1 / math.sqrt(in_dim) * lr_mul self.lr_mul = lr_mul def forward(self, input): if self.activation: out = F.linear(input, self.weight * self.scale) out = fused_leaky_relu(out, self.bias * self.lr_mul) else: out = F.linear(input, self.weight * self.scale, bias=self.bias * self.lr_mul) return out def __repr__(self): return ( f'{self.__class__.__name__}({self.weight.shape[1]}, {self.weight.shape[0]})' ) class ModulatedConv2d(nn.Module): def __init__(self, in_channel, out_channel, kernel_size, style_dim, demodulate=True, upsample=False, downsample=False, blur_kernel=[1, 3, 3, 1], fused=True): super().__init__() self.eps = 1e-08 self.kernel_size = kernel_size self.in_channel = in_channel self.out_channel = out_channel self.upsample = upsample self.downsample = downsample if upsample: factor = 2 p = len(blur_kernel) - factor - (kernel_size - 1) pad0 = (p + 1) // 2 + factor - 1 pad1 = p // 2 + 1 self.blur = Blur(blur_kernel, pad=(pad0, pad1), upsample_factor =factor) if downsample: factor = 2 p = len(blur_kernel) - factor + (kernel_size - 1) pad0 = (p + 1) // 2 pad1 = p // 2 self.blur = Blur(blur_kernel, pad=(pad0, pad1)) fan_in = in_channel * kernel_size ** 2 self.scale = 1 / math.sqrt(fan_in) self.padding = kernel_size // 2 self.weight = nn.Parameter(torch.randn(1, out_channel, in_channel, kernel_size, kernel_size)) self.modulation = EqualLinear(style_dim, in_channel, bias_init=1) self.demodulate = demodulate self.fused = fused def __repr__(self): return ( f'{self.__class__.__name__}({self.in_channel}, {self.out_channel}, {self.kernel_size}, upsample={self.upsample}, downsample={self.downsample})' ) def forward(self, input, style): batch, in_channel, height, width = input.shape if not self.fused: weight = self.scale * self.weight.squeeze(0) style = self.modulation(style) if self.demodulate: w = weight.unsqueeze(0) * style.view(batch, 1, in_channel, 1, 1 ) dcoefs = (w.square().sum((2, 3, 4)) + 1e-08).rsqrt() input = input * style.reshape(batch, in_channel, 1, 1) if self.upsample: weight = weight.transpose(0, 1) out = F.conv_transpose2d(input, weight, padding=0, stride=2) out = self.blur(out) elif self.downsample: input = self.blur(input) out = F.conv2d(input, weight, padding=0, stride=2) else: out = F.conv2d(input, weight, padding=self.padding) if self.demodulate: out = out * dcoefs.view(batch, -1, 1, 1) return out style = self.modulation(style).view(batch, 1, in_channel, 1, 1) weight = self.scale * self.weight * style if self.demodulate: demod = torch.rsqrt(weight.pow(2).sum([2, 3, 4]) + 1e-08) weight = weight * demod.view(batch, self.out_channel, 1, 1, 1) weight = weight.view(batch * self.out_channel, in_channel, self. kernel_size, self.kernel_size) if self.upsample: input = input.view(1, batch * in_channel, height, width) weight = weight.view(batch, self.out_channel, in_channel, self. kernel_size, self.kernel_size) weight = weight.transpose(1, 2).reshape(batch * in_channel, self.out_channel, self.kernel_size, self.kernel_size) out = F.conv_transpose2d(input, weight, padding=0, stride=2, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) out = self.blur(out) elif self.downsample: input = self.blur(input) _, _, height, width = input.shape input = input.view(1, batch * in_channel, height, width) out = F.conv2d(input, weight, padding=0, stride=2, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) else: input = input.view(1, batch * in_channel, height, width) out = F.conv2d(input, weight, padding=self.padding, groups=batch) _, _, height, width = out.shape out = out.view(batch, self.out_channel, height, width) return out class ToRGBNew(nn.Module): def __init__(self, in_channel, image_channel, style_dim, upsample=True, blur_kernel=[1, 3, 3, 1]): super().__init__() if upsample: self.upsample = Upsample(blur_kernel) self.conv = ModulatedConv2d(in_channel, image_channel, 1, style_dim, demodulate=False) self.bias = nn.Parameter(torch.zeros(1, image_channel, 1, 1)) def forward(self, input_0, input_1): primals_6 = self.bias primals_5 = self.conv.weight primals_2 = self.conv.modulation.weight primals_3 = self.conv.modulation.bias primals_1 = input_0 primals_4 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return output[0]	LizhenWangT/FaceVerse	ToRGB	false	8,476	[ "BSD-2-Clause", "MIT" ]	20	bb4a5d3e52fb10b34bbe94f055ff637095bf9152	https://github.com/LizhenWangT/FaceVerse/tree/bb4a5d3e52fb10b34bbe94f055ff637095bf9152
HausdorffLoss	# 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/uf/cuf2n554zsgrrdxmi7emtplbgjplti2rucbziwhh3mlinlefs6nd.py # Topologically Sorted Source Nodes: [d2_matrix], Original ATen: [aten.stack] # Source node to ATen node mapping: # d2_matrix => cat # Graph fragment: # %cat : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%sqrt, %sqrt_1, %sqrt_2, %sqrt_3],), kwargs = {}) triton_poi_fused_stack_0 = async_compile.triton('triton_poi_fused_stack_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_stack_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 32, '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_stack_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 x1 = (xindex // 4) x0 = xindex % 4 x2 = 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 + (4x1), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tl.load(in_ptr1 + (4x0), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp7 = tmp5 - tmp6 tmp8 = tmp7 * tmp7 tmp9 = tl.load(in_ptr0 + (1 + (4x1)), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.load(in_ptr1 + (1 + (4x0)), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp9 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp8 + tmp12 tmp14 = tl.load(in_ptr0 + (2 + (4x1)), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp15 = tl.load(in_ptr1 + (2 + (4x0)), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp16 = tmp14 - tmp15 tmp17 = tmp16 * tmp16 tmp18 = tmp13 + tmp17 tmp19 = tl.load(in_ptr0 + (3 + (4x1)), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp20 = tl.load(in_ptr1 + (3 + (4x0)), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp21 = tmp19 - tmp20 tmp22 = tmp21 * tmp21 tmp23 = tmp18 + tmp22 tmp24 = libdevice.sqrt(tmp23) tmp25 = tl.full(tmp24.shape, 0.0, tmp24.dtype) tmp26 = tl.where(tmp4, tmp24, tmp25) tmp27 = tmp0 >= tmp3 tmp28 = tl.full([1], 8, tl.int64) tmp29 = tmp0 < tmp28 tmp30 = tmp27 & tmp29 tmp31 = tl.load(in_ptr0 + (16 + (4((-4) + x1))), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp32 = tl.load(in_ptr1 + (16 + (4x0)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp33 = tmp31 - tmp32 tmp34 = tmp33 * tmp33 tmp35 = tl.load(in_ptr0 + (17 + (4((-4) + x1))), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp36 = tl.load(in_ptr1 + (17 + (4x0)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp37 = tmp35 - tmp36 tmp38 = tmp37 * tmp37 tmp39 = tmp34 + tmp38 tmp40 = tl.load(in_ptr0 + (18 + (4((-4) + x1))), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp41 = tl.load(in_ptr1 + (18 + (4x0)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp42 = tmp40 - tmp41 tmp43 = tmp42 * tmp42 tmp44 = tmp39 + tmp43 tmp45 = tl.load(in_ptr0 + (19 + (4((-4) + x1))), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp46 = tl.load(in_ptr1 + (19 + (4x0)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp47 = tmp45 - tmp46 tmp48 = tmp47 * tmp47 tmp49 = tmp44 + tmp48 tmp50 = libdevice.sqrt(tmp49) tmp51 = tl.full(tmp50.shape, 0.0, tmp50.dtype) tmp52 = tl.where(tmp30, tmp50, tmp51) tmp53 = tmp0 >= tmp28 tmp54 = tl.full([1], 12, tl.int64) tmp55 = tmp0 < tmp54 tmp56 = tmp53 & tmp55 tmp57 = tl.load(in_ptr0 + (32 + (4((-8) + x1))), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp58 = tl.load(in_ptr1 + (32 + (4x0)), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp59 = tmp57 - tmp58 tmp60 = tmp59 * tmp59 tmp61 = tl.load(in_ptr0 + (33 + (4((-8) + x1))), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp62 = tl.load(in_ptr1 + (33 + (4x0)), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp63 = tmp61 - tmp62 tmp64 = tmp63 * tmp63 tmp65 = tmp60 + tmp64 tmp66 = tl.load(in_ptr0 + (34 + (4((-8) + x1))), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp67 = tl.load(in_ptr1 + (34 + (4x0)), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp68 = tmp66 - tmp67 tmp69 = tmp68 * tmp68 tmp70 = tmp65 + tmp69 tmp71 = tl.load(in_ptr0 + (35 + (4((-8) + x1))), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp72 = tl.load(in_ptr1 + (35 + (4x0)), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp73 = tmp71 - tmp72 tmp74 = tmp73 * tmp73 tmp75 = tmp70 + tmp74 tmp76 = libdevice.sqrt(tmp75) tmp77 = tl.full(tmp76.shape, 0.0, tmp76.dtype) tmp78 = tl.where(tmp56, tmp76, tmp77) tmp79 = tmp0 >= tmp54 tmp80 = tl.full([1], 16, tl.int64) tmp81 = tmp0 < tmp80 tmp82 = tl.load(in_ptr0 + (48 + (4((-12) + x1))), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp83 = tl.load(in_ptr1 + (48 + (4x0)), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp84 = tmp82 - tmp83 tmp85 = tmp84 * tmp84 tmp86 = tl.load(in_ptr0 + (49 + (4((-12) + x1))), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp87 = tl.load(in_ptr1 + (49 + (4x0)), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp88 = tmp86 - tmp87 tmp89 = tmp88 * tmp88 tmp90 = tmp85 + tmp89 tmp91 = tl.load(in_ptr0 + (50 + (4((-12) + x1))), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp92 = tl.load(in_ptr1 + (50 + (4x0)), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp93 = tmp91 - tmp92 tmp94 = tmp93 * tmp93 tmp95 = tmp90 + tmp94 tmp96 = tl.load(in_ptr0 + (51 + (4((-12) + x1))), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp97 = tl.load(in_ptr1 + (51 + (4x0)), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp98 = tmp96 - tmp97 tmp99 = tmp98 * tmp98 tmp100 = tmp95 + tmp99 tmp101 = libdevice.sqrt(tmp100) tmp102 = tl.full(tmp101.shape, 0.0, tmp101.dtype) tmp103 = tl.where(tmp79, tmp101, tmp102) tmp104 = tl.where(tmp56, tmp78, tmp103) tmp105 = tl.where(tmp30, tmp52, tmp104) tmp106 = tl.where(tmp4, tmp26, tmp105) tl.store(out_ptr0 + (x2), tmp106, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/el/celctfu4wbdfgiomns6zpsypz5fnhalcl57xq3mfaseeoxdoxxjb.py # Topologically Sorted Source Nodes: [min_1, min_2, term_1, term_2, res, mul], Original ATen: [aten.min, aten.mean, aten.add, aten.mul] # Source node to ATen node mapping: # min_1 => min_1 # min_2 => min_2 # mul => mul # res => add # term_1 => mean # term_2 => mean_1 # Graph fragment: # %min_1 : [num_users=1] = call_function[target=torch.ops.aten.min.dim](args = (%view, 2), kwargs = {}) # %min_2 : [num_users=1] = call_function[target=torch.ops.aten.min.dim](args = (%view, 1), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%getitem, [-1]), kwargs = {}) # %mean_1 : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%getitem_2, [-1]), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mean, %mean_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add, 1.0), kwargs = {}) triton_poi_fused_add_mean_min_mul_1 = async_compile.triton('triton_poi_fused_add_mean_min_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=[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_add_mean_min_mul_1', '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_add_mean_min_mul_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_ptr0 + (16x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (16x0)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2 + (16x0)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (3 + (16x0)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (4 + (16x0)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (5 + (16x0)), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr0 + (6 + (16x0)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (7 + (16x0)), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr0 + (8 + (16x0)), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr0 + (9 + (16x0)), xmask, eviction_policy='evict_last') tmp18 = tl.load(in_ptr0 + (10 + (16x0)), xmask, eviction_policy='evict_last') tmp20 = tl.load(in_ptr0 + (11 + (16x0)), xmask, eviction_policy='evict_last') tmp23 = tl.load(in_ptr0 + (12 + (16x0)), xmask, eviction_policy='evict_last') tmp24 = tl.load(in_ptr0 + (13 + (16x0)), xmask, eviction_policy='evict_last') tmp26 = tl.load(in_ptr0 + (14 + (16x0)), xmask, eviction_policy='evict_last') tmp28 = tl.load(in_ptr0 + (15 + (16x0)), xmask, eviction_policy='evict_last') tmp2 = triton_helpers.minimum(tmp0, tmp1) tmp4 = triton_helpers.minimum(tmp2, tmp3) tmp6 = triton_helpers.minimum(tmp4, tmp5) tmp9 = triton_helpers.minimum(tmp7, tmp8) tmp11 = triton_helpers.minimum(tmp9, tmp10) tmp13 = triton_helpers.minimum(tmp11, tmp12) tmp14 = tmp6 + tmp13 tmp17 = triton_helpers.minimum(tmp15, tmp16) tmp19 = triton_helpers.minimum(tmp17, tmp18) tmp21 = triton_helpers.minimum(tmp19, tmp20) tmp22 = tmp14 + tmp21 tmp25 = triton_helpers.minimum(tmp23, tmp24) tmp27 = triton_helpers.minimum(tmp25, tmp26) tmp29 = triton_helpers.minimum(tmp27, tmp28) tmp30 = tmp22 + tmp29 tmp31 = 4.0 tmp32 = tmp30 / tmp31 tmp33 = triton_helpers.minimum(tmp0, tmp7) tmp34 = triton_helpers.minimum(tmp33, tmp15) tmp35 = triton_helpers.minimum(tmp34, tmp23) tmp36 = triton_helpers.minimum(tmp1, tmp8) tmp37 = triton_helpers.minimum(tmp36, tmp16) tmp38 = triton_helpers.minimum(tmp37, tmp24) tmp39 = tmp35 + tmp38 tmp40 = triton_helpers.minimum(tmp3, tmp10) tmp41 = triton_helpers.minimum(tmp40, tmp18) tmp42 = triton_helpers.minimum(tmp41, tmp26) tmp43 = tmp39 + tmp42 tmp44 = triton_helpers.minimum(tmp5, tmp12) tmp45 = triton_helpers.minimum(tmp44, tmp20) tmp46 = triton_helpers.minimum(tmp45, tmp28) tmp47 = tmp43 + tmp46 tmp48 = tmp47 / tmp31 tmp49 = tmp32 + tmp48 tmp50 = 1.0 tmp51 = tmp49 * tmp50 tl.store(in_out_ptr0 + (x0), tmp51, 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), (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((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [d2_matrix], Original ATen: [aten.stack] stream0 = get_raw_stream(0) triton_poi_fused_stack_0.run(arg0_1, arg1_1, buf0, 64, grid=grid(64), stream=stream0) del arg0_1 del arg1_1 buf1 = empty_strided_cuda((4, ), (1, ), torch.float32) buf3 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [min_1, min_2, term_1, term_2, res, mul], Original ATen: [aten.min, aten.mean, aten.add, aten.mul] triton_poi_fused_add_mean_min_mul_1.run(buf3, buf0, 4, grid=grid(4), 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), (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 class HausdorffLoss(nn.Module): def __init__(self, loss_weight=1.0): super(HausdorffLoss, self).__init__() self.weight = loss_weight def forward(self, set1, set2): """ Compute the Averaged Hausdorff Distance function between two unordered sets of points (the function is symmetric). Batches are not supported, so squeeze your inputs first! :param set1: Tensor where each row is an N-dimensional point. :param set2: Tensor where each row is an N-dimensional point. :return: The Averaged Hausdorff Distance between set1 and set2. """ assert set1.ndimension() == 3, 'got %s' % set1.ndimension() assert set2.ndimension() == 3, 'got %s' % set2.ndimension() if set1.shape[0] > 0: assert set1.size()[1] == set2.size()[1 ], 'The points in both sets must have the same number of dimensions, got %s and %s.' % ( set1.size()[1], set2.size()[1]) """ the second implement to avoid the CUDA out of the memory need the size to be set1: (N, 40, 2), set2:(N, 40, 2)""" d2_matrix = torch.stack([self.cdist(item1, item2) for item1, item2 in zip(set1, set2)], dim=0) term_1 = torch.mean(torch.min(d2_matrix, 2)[0], -1) term_2 = torch.mean(torch.min(d2_matrix, 1)[0], -1) res = term_1 + term_2 else: res = set1.sum() * 0 return res * self.weight def cdist(self, x, y): """ Compute distance between each pair of the two collections of inputs. :param x: Nxd Tensor :param y: Mxd Tensor :res: NxM matrix where dist[i,j] is the norm between x[i,:] and y[j,:], i.e. dist[i,j] = \|\|x[i,:]-y[j,:]\|\| """ differences = x.unsqueeze(1) - y.unsqueeze(0) distances = torch.sum(differences ** 2, -1).sqrt() return distances def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([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.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_stack_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 x1 = xindex // 4 x0 = xindex % 4 x2 = xindex tmp0 = x1 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + 4 * x1, tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp6 = tl.load(in_ptr1 + 4 * x0, tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp7 = tmp5 - tmp6 tmp8 = tmp7 * tmp7 tmp9 = tl.load(in_ptr0 + (1 + 4 * x1), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp10 = tl.load(in_ptr1 + (1 + 4 * x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp11 = tmp9 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp8 + tmp12 tmp14 = tl.load(in_ptr0 + (2 + 4 * x1), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp15 = tl.load(in_ptr1 + (2 + 4 * x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp16 = tmp14 - tmp15 tmp17 = tmp16 * tmp16 tmp18 = tmp13 + tmp17 tmp19 = tl.load(in_ptr0 + (3 + 4 * x1), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp20 = tl.load(in_ptr1 + (3 + 4 * x0), tmp4 & xmask, eviction_policy= 'evict_last', other=0.0) tmp21 = tmp19 - tmp20 tmp22 = tmp21 * tmp21 tmp23 = tmp18 + tmp22 tmp24 = libdevice.sqrt(tmp23) tmp25 = tl.full(tmp24.shape, 0.0, tmp24.dtype) tmp26 = tl.where(tmp4, tmp24, tmp25) tmp27 = tmp0 >= tmp3 tmp28 = tl.full([1], 8, tl.int64) tmp29 = tmp0 < tmp28 tmp30 = tmp27 & tmp29 tmp31 = tl.load(in_ptr0 + (16 + 4 * (-4 + x1)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp32 = tl.load(in_ptr1 + (16 + 4 * x0), tmp30 & xmask, eviction_policy ='evict_last', other=0.0) tmp33 = tmp31 - tmp32 tmp34 = tmp33 * tmp33 tmp35 = tl.load(in_ptr0 + (17 + 4 * (-4 + x1)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp36 = tl.load(in_ptr1 + (17 + 4 * x0), tmp30 & xmask, eviction_policy ='evict_last', other=0.0) tmp37 = tmp35 - tmp36 tmp38 = tmp37 * tmp37 tmp39 = tmp34 + tmp38 tmp40 = tl.load(in_ptr0 + (18 + 4 * (-4 + x1)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp41 = tl.load(in_ptr1 + (18 + 4 * x0), tmp30 & xmask, eviction_policy ='evict_last', other=0.0) tmp42 = tmp40 - tmp41 tmp43 = tmp42 * tmp42 tmp44 = tmp39 + tmp43 tmp45 = tl.load(in_ptr0 + (19 + 4 * (-4 + x1)), tmp30 & xmask, eviction_policy='evict_last', other=0.0) tmp46 = tl.load(in_ptr1 + (19 + 4 * x0), tmp30 & xmask, eviction_policy ='evict_last', other=0.0) tmp47 = tmp45 - tmp46 tmp48 = tmp47 * tmp47 tmp49 = tmp44 + tmp48 tmp50 = libdevice.sqrt(tmp49) tmp51 = tl.full(tmp50.shape, 0.0, tmp50.dtype) tmp52 = tl.where(tmp30, tmp50, tmp51) tmp53 = tmp0 >= tmp28 tmp54 = tl.full([1], 12, tl.int64) tmp55 = tmp0 < tmp54 tmp56 = tmp53 & tmp55 tmp57 = tl.load(in_ptr0 + (32 + 4 * (-8 + x1)), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp58 = tl.load(in_ptr1 + (32 + 4 * x0), tmp56 & xmask, eviction_policy ='evict_last', other=0.0) tmp59 = tmp57 - tmp58 tmp60 = tmp59 * tmp59 tmp61 = tl.load(in_ptr0 + (33 + 4 * (-8 + x1)), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp62 = tl.load(in_ptr1 + (33 + 4 * x0), tmp56 & xmask, eviction_policy ='evict_last', other=0.0) tmp63 = tmp61 - tmp62 tmp64 = tmp63 * tmp63 tmp65 = tmp60 + tmp64 tmp66 = tl.load(in_ptr0 + (34 + 4 * (-8 + x1)), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp67 = tl.load(in_ptr1 + (34 + 4 * x0), tmp56 & xmask, eviction_policy ='evict_last', other=0.0) tmp68 = tmp66 - tmp67 tmp69 = tmp68 * tmp68 tmp70 = tmp65 + tmp69 tmp71 = tl.load(in_ptr0 + (35 + 4 * (-8 + x1)), tmp56 & xmask, eviction_policy='evict_last', other=0.0) tmp72 = tl.load(in_ptr1 + (35 + 4 * x0), tmp56 & xmask, eviction_policy ='evict_last', other=0.0) tmp73 = tmp71 - tmp72 tmp74 = tmp73 * tmp73 tmp75 = tmp70 + tmp74 tmp76 = libdevice.sqrt(tmp75) tmp77 = tl.full(tmp76.shape, 0.0, tmp76.dtype) tmp78 = tl.where(tmp56, tmp76, tmp77) tmp79 = tmp0 >= tmp54 tl.full([1], 16, tl.int64) tmp82 = tl.load(in_ptr0 + (48 + 4 * (-12 + x1)), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp83 = tl.load(in_ptr1 + (48 + 4 * x0), tmp79 & xmask, eviction_policy ='evict_last', other=0.0) tmp84 = tmp82 - tmp83 tmp85 = tmp84 * tmp84 tmp86 = tl.load(in_ptr0 + (49 + 4 * (-12 + x1)), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp87 = tl.load(in_ptr1 + (49 + 4 * x0), tmp79 & xmask, eviction_policy ='evict_last', other=0.0) tmp88 = tmp86 - tmp87 tmp89 = tmp88 * tmp88 tmp90 = tmp85 + tmp89 tmp91 = tl.load(in_ptr0 + (50 + 4 * (-12 + x1)), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp92 = tl.load(in_ptr1 + (50 + 4 * x0), tmp79 & xmask, eviction_policy ='evict_last', other=0.0) tmp93 = tmp91 - tmp92 tmp94 = tmp93 * tmp93 tmp95 = tmp90 + tmp94 tmp96 = tl.load(in_ptr0 + (51 + 4 * (-12 + x1)), tmp79 & xmask, eviction_policy='evict_last', other=0.0) tmp97 = tl.load(in_ptr1 + (51 + 4 * x0), tmp79 & xmask, eviction_policy ='evict_last', other=0.0) tmp98 = tmp96 - tmp97 tmp99 = tmp98 * tmp98 tmp100 = tmp95 + tmp99 tmp101 = libdevice.sqrt(tmp100) tmp102 = tl.full(tmp101.shape, 0.0, tmp101.dtype) tmp103 = tl.where(tmp79, tmp101, tmp102) tmp104 = tl.where(tmp56, tmp78, tmp103) tmp105 = tl.where(tmp30, tmp52, tmp104) tmp106 = tl.where(tmp4, tmp26, tmp105) tl.store(out_ptr0 + x2, tmp106, xmask) @triton.jit def triton_poi_fused_add_mean_min_mul_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_ptr0 + 16 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + 16 * x0), xmask, eviction_policy='evict_last' ) tmp3 = tl.load(in_ptr0 + (2 + 16 * x0), xmask, eviction_policy='evict_last' ) tmp5 = tl.load(in_ptr0 + (3 + 16 * x0), xmask, eviction_policy='evict_last' ) tmp7 = tl.load(in_ptr0 + (4 + 16 * x0), xmask, eviction_policy='evict_last' ) tmp8 = tl.load(in_ptr0 + (5 + 16 * x0), xmask, eviction_policy='evict_last' ) tmp10 = tl.load(in_ptr0 + (6 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp12 = tl.load(in_ptr0 + (7 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp15 = tl.load(in_ptr0 + (8 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp16 = tl.load(in_ptr0 + (9 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp18 = tl.load(in_ptr0 + (10 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp20 = tl.load(in_ptr0 + (11 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp23 = tl.load(in_ptr0 + (12 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp24 = tl.load(in_ptr0 + (13 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp26 = tl.load(in_ptr0 + (14 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp28 = tl.load(in_ptr0 + (15 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp2 = triton_helpers.minimum(tmp0, tmp1) tmp4 = triton_helpers.minimum(tmp2, tmp3) tmp6 = triton_helpers.minimum(tmp4, tmp5) tmp9 = triton_helpers.minimum(tmp7, tmp8) tmp11 = triton_helpers.minimum(tmp9, tmp10) tmp13 = triton_helpers.minimum(tmp11, tmp12) tmp14 = tmp6 + tmp13 tmp17 = triton_helpers.minimum(tmp15, tmp16) tmp19 = triton_helpers.minimum(tmp17, tmp18) tmp21 = triton_helpers.minimum(tmp19, tmp20) tmp22 = tmp14 + tmp21 tmp25 = triton_helpers.minimum(tmp23, tmp24) tmp27 = triton_helpers.minimum(tmp25, tmp26) tmp29 = triton_helpers.minimum(tmp27, tmp28) tmp30 = tmp22 + tmp29 tmp31 = 4.0 tmp32 = tmp30 / tmp31 tmp33 = triton_helpers.minimum(tmp0, tmp7) tmp34 = triton_helpers.minimum(tmp33, tmp15) tmp35 = triton_helpers.minimum(tmp34, tmp23) tmp36 = triton_helpers.minimum(tmp1, tmp8) tmp37 = triton_helpers.minimum(tmp36, tmp16) tmp38 = triton_helpers.minimum(tmp37, tmp24) tmp39 = tmp35 + tmp38 tmp40 = triton_helpers.minimum(tmp3, tmp10) tmp41 = triton_helpers.minimum(tmp40, tmp18) tmp42 = triton_helpers.minimum(tmp41, tmp26) tmp43 = tmp39 + tmp42 tmp44 = triton_helpers.minimum(tmp5, tmp12) tmp45 = triton_helpers.minimum(tmp44, tmp20) tmp46 = triton_helpers.minimum(tmp45, tmp28) tmp47 = tmp43 + tmp46 tmp48 = tmp47 / tmp31 tmp49 = tmp32 + tmp48 tmp50 = 1.0 tmp51 = tmp49 * tmp50 tl.store(in_out_ptr0 + x0, tmp51, xmask) 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((16, 4), (4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_stack_0[grid(64)](arg0_1, arg1_1, buf0, 64, XBLOCK =64, num_warps=1, num_stages=1) del arg0_1 del arg1_1 buf1 = empty_strided_cuda((4,), (1,), torch.float32) buf3 = buf1 del buf1 triton_poi_fused_add_mean_min_mul_1[grid(4)](buf3, buf0, 4, XBLOCK= 4, num_warps=1, num_stages=1) del buf0 return buf3, class HausdorffLossNew(nn.Module): def __init__(self, loss_weight=1.0): super(HausdorffLossNew, self).__init__() self.weight = loss_weight def cdist(self, x, y): """ Compute distance between each pair of the two collections of inputs. :param x: Nxd Tensor :param y: Mxd Tensor :res: NxM matrix where dist[i,j] is the norm between x[i,:] and y[j,:], i.e. dist[i,j] = \|\|x[i,:]-y[j,:]\|\| """ differences = x.unsqueeze(1) - y.unsqueeze(0) distances = torch.sum(differences ** 2, -1).sqrt() return distances def forward(self, input_0, input_1): arg0_1 = input_0 arg1_1 = input_1 output = call([arg0_1, arg1_1]) return output[0]	LiWentomng/boxlevelset	HausdorffLoss	false	8,477	[ "Apache-2.0" ]	25	8cc40bf6ae4a343c482c676c72259cc12c29d31c	https://github.com/LiWentomng/boxlevelset/tree/8cc40bf6ae4a343c482c676c72259cc12c29d31c
Generator	# 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/ef/cef3bnvzidtkwqlgd6grh6tgiu2jyjsay3uaetena7vfpuku53s6.py # Topologically Sorted Source Nodes: [product, similarities], Original ATen: [aten.mul, aten.sum] # Source node to ATen node mapping: # product => mul # similarities => sum_1 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%permute_1, %primals_4), kwargs = {}) # %sum_1 : [num_users=2] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [2]), 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=[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_mul_sum_0', '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_mul_sum_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (4x1), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (0)) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp4 = tl.load(in_ptr2 + (4x2), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (1)) tmp8 = tl.broadcast_to(tmp7, [XBLOCK]) tmp10 = tl.load(in_ptr2 + (1 + (4x2)), xmask, eviction_policy='evict_last') tmp13 = tl.load(in_ptr0 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr1 + (2)) tmp15 = tl.broadcast_to(tmp14, [XBLOCK]) tmp17 = tl.load(in_ptr2 + (2 + (4x2)), xmask, eviction_policy='evict_last') tmp20 = tl.load(in_ptr0 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp21 = tl.load(in_ptr1 + (3)) tmp22 = tl.broadcast_to(tmp21, [XBLOCK]) tmp24 = tl.load(in_ptr2 + (3 + (4x2)), xmask, eviction_policy='evict_last') tmp3 = tmp0 + tmp2 tmp5 = tmp3 * tmp4 tmp9 = tmp6 + tmp8 tmp11 = tmp9 * tmp10 tmp12 = tmp5 + tmp11 tmp16 = tmp13 + tmp15 tmp18 = tmp16 * tmp17 tmp19 = tmp12 + tmp18 tmp23 = tmp20 + tmp22 tmp25 = tmp23 * tmp24 tmp26 = tmp19 + tmp25 tl.store(out_ptr0 + (x2), tmp26, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/oo/coobrm7cytaeij2eyoctjbuz6lnjrauzvpxipvlrrepxba5rhlgq.py # Topologically Sorted Source Nodes: [result], Original ATen: [aten._softmax] # Source node to ATen node mapping: # result => 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=[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_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 = 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/wp/cwpr2jp7bpqwkbaxgttcl2ekjdtkf6lezuspoiunutzd3j2qgeyk.py # Topologically Sorted Source Nodes: [result], Original ATen: [aten._softmax] # Source node to ATen node mapping: # result => 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=[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 = 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 = 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, 1)) assert_size_stride(primals_4, (4, 4, 4), (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: [], Original ATen: [] extern_kernels.mm(primals_3, reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [product, similarities], Original ATen: [aten.mul, aten.sum] stream0 = get_raw_stream(0) triton_poi_fused_mul_sum_0.run(buf0, primals_2, primals_4, buf1, 16, grid=grid(16), stream=stream0) del primals_2 buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [result], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf1, buf2, 16, grid=grid(16), stream=stream0) buf3 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [result], Original ATen: [aten._softmax] triton_poi_fused__softmax_2.run(buf2, buf3, 16, grid=grid(16), stream=stream0) del buf2 return (buf3, primals_3, primals_4, 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, ), (1, ), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((4, 4, 4), (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.optim.lr_scheduler import torch.nn as nn import torch.optim import torch.onnx.operators def masked_softmax(vector: 'torch.Tensor', mask: 'torch.Tensor', dim: 'int' =-1, memory_efficient: 'bool'=False, mask_fill_value: 'float'=-1e+32 ) ->torch.Tensor: """ ``torch.nn.functional.softmax(vector)`` does not work if some elements of ``vector`` should be masked. This performs a softmax on just the non-masked portions of ``vector``. Passing ``None`` in for the mask is also acceptable; you'll just get a regular softmax. ``vector`` can have an arbitrary number of dimensions; the only requirement is that ``mask`` is broadcastable to ``vector's`` shape. If ``mask`` has fewer dimensions than ``vector``, we will unsqueeze on dimension 1 until they match. If you need a different unsqueezing of your mask, do it yourself before passing the mask into this function. If ``memory_efficient`` is set to true, we will simply use a very large negative number for those masked positions so that the probabilities of those positions would be approximately 0. This is not accurate in math, but works for most cases and consumes less memory. In the case that the input vector is completely masked and ``memory_efficient`` is false, this function returns an array of ``0.0``. This behavior may cause ``NaN`` if this is used as the last layer of a model that uses categorical cross-entropy loss. Instead, if ``memory_efficient`` is true, this function will treat every element as equal, and do softmax over equal numbers. """ if mask is None: result = torch.nn.functional.softmax(vector, dim=dim) else: mask = mask.float() while mask.dim() < vector.dim(): mask = mask.unsqueeze(1) if not memory_efficient: result = torch.nn.functional.softmax(vector * mask, dim=dim) result = result * mask result = result / (result.sum(dim=dim, keepdim=True) + 1e-13) else: masked_vector = vector.masked_fill((1 - mask).byte(), mask_fill_value) result = torch.nn.functional.softmax(masked_vector, dim=dim) return result class Generator(torch.nn.Module): """ An ``Attention`` takes two inputs: a (batched) vector and a matrix, plus an optional mask on the rows of the matrix. We compute the similarity between the vector and each row in the matrix, and then (optionally) perform a softmax over rows using those computed similarities. Inputs: - vector: shape ``(batch_size, embedding_dim)`` - matrix: shape ``(batch_size, num_rows, embedding_dim)`` - matrix_mask: shape ``(batch_size, num_rows)``, specifying which rows are just padding. Output: - attention: shape ``(batch_size, num_rows)``. Parameters ---------- normalize : ``bool``, optional (default: ``True``) If true, we normalize the computed similarities with a softmax, to return a probability distribution for your attention. If false, this is just computing a similarity score. """ def __init__(self, tensor_1_dim: 'int', tensor_2_dim: 'int'): super(Generator, self).__init__() self.project = nn.Linear(in_features=tensor_1_dim, out_features= tensor_2_dim) def forward(self, vector: 'torch.Tensor', matrix: 'torch.Tensor', matrix_mask: 'torch.Tensor'=None) ->torch.Tensor: trans_vec = self.project(vector) _batch, length, _dim = matrix.size() new_vec = torch.unsqueeze(trans_vec, dim=2).expand(-1, -1, length) new_vec = new_vec.transpose(1, 2) product = new_vec * matrix similarities = torch.sum(product, dim=2) probs = masked_softmax(similarities, matrix_mask) return probs def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'tensor_1_dim': 4, 'tensor_2_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.optim.lr_scheduler import torch.nn as nn import torch.optim import torch.onnx.operators 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_sum_0(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 16 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + 4 * x1, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + 0) tmp2 = tl.broadcast_to(tmp1, [XBLOCK]) tmp4 = tl.load(in_ptr2 + 4 * x2, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + 1) tmp8 = tl.broadcast_to(tmp7, [XBLOCK]) tmp10 = tl.load(in_ptr2 + (1 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp13 = tl.load(in_ptr0 + (2 + 4 * x1), xmask, eviction_policy='evict_last' ) tmp14 = tl.load(in_ptr1 + 2) tmp15 = tl.broadcast_to(tmp14, [XBLOCK]) tmp17 = tl.load(in_ptr2 + (2 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp20 = tl.load(in_ptr0 + (3 + 4 * x1), xmask, eviction_policy='evict_last' ) tmp21 = tl.load(in_ptr1 + 3) tmp22 = tl.broadcast_to(tmp21, [XBLOCK]) tmp24 = tl.load(in_ptr2 + (3 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp3 = tmp0 + tmp2 tmp5 = tmp3 * tmp4 tmp9 = tmp6 + tmp8 tmp11 = tmp9 * tmp10 tmp12 = tmp5 + tmp11 tmp16 = tmp13 + tmp15 tmp18 = tmp16 * tmp17 tmp19 = tmp12 + tmp18 tmp23 = tmp20 + tmp22 tmp25 = tmp23 * tmp24 tmp26 = tmp19 + tmp25 tl.store(out_ptr0 + x2, tmp26, xmask) @triton.jit def triton_poi_fused__softmax_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') 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 = 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 = 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, 1)) assert_size_stride(primals_4, (4, 4, 4), (16, 4, 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_3, reinterpret_tensor(primals_1, (4, 4), (1, 4), 0), out=buf0) del primals_1 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_mul_sum_0[grid(16)](buf0, primals_2, primals_4, buf1, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_2 buf2 = buf0 del buf0 triton_poi_fused__softmax_1[grid(16)](buf1, buf2, 16, XBLOCK=16, num_warps=1, num_stages=1) buf3 = buf1 del buf1 triton_poi_fused__softmax_2[grid(16)](buf2, buf3, 16, XBLOCK=16, num_warps=1, num_stages=1) del buf2 return buf3, primals_3, primals_4, buf3 def masked_softmax(vector: 'torch.Tensor', mask: 'torch.Tensor', dim: 'int' =-1, memory_efficient: 'bool'=False, mask_fill_value: 'float'=-1e+32 ) ->torch.Tensor: """ ``torch.nn.functional.softmax(vector)`` does not work if some elements of ``vector`` should be masked. This performs a softmax on just the non-masked portions of ``vector``. Passing ``None`` in for the mask is also acceptable; you'll just get a regular softmax. ``vector`` can have an arbitrary number of dimensions; the only requirement is that ``mask`` is broadcastable to ``vector's`` shape. If ``mask`` has fewer dimensions than ``vector``, we will unsqueeze on dimension 1 until they match. If you need a different unsqueezing of your mask, do it yourself before passing the mask into this function. If ``memory_efficient`` is set to true, we will simply use a very large negative number for those masked positions so that the probabilities of those positions would be approximately 0. This is not accurate in math, but works for most cases and consumes less memory. In the case that the input vector is completely masked and ``memory_efficient`` is false, this function returns an array of ``0.0``. This behavior may cause ``NaN`` if this is used as the last layer of a model that uses categorical cross-entropy loss. Instead, if ``memory_efficient`` is true, this function will treat every element as equal, and do softmax over equal numbers. """ if mask is None: result = torch.nn.functional.softmax(vector, dim=dim) else: mask = mask.float() while mask.dim() < vector.dim(): mask = mask.unsqueeze(1) if not memory_efficient: result = torch.nn.functional.softmax(vector * mask, dim=dim) result = result * mask result = result / (result.sum(dim=dim, keepdim=True) + 1e-13) else: masked_vector = vector.masked_fill((1 - mask).byte(), mask_fill_value) result = torch.nn.functional.softmax(masked_vector, dim=dim) return result class GeneratorNew(torch.nn.Module): """ An ``Attention`` takes two inputs: a (batched) vector and a matrix, plus an optional mask on the rows of the matrix. We compute the similarity between the vector and each row in the matrix, and then (optionally) perform a softmax over rows using those computed similarities. Inputs: - vector: shape ``(batch_size, embedding_dim)`` - matrix: shape ``(batch_size, num_rows, embedding_dim)`` - matrix_mask: shape ``(batch_size, num_rows)``, specifying which rows are just padding. Output: - attention: shape ``(batch_size, num_rows)``. Parameters ---------- normalize : ``bool``, optional (default: ``True``) If true, we normalize the computed similarities with a softmax, to return a probability distribution for your attention. If false, this is just computing a similarity score. """ def __init__(self, tensor_1_dim: 'int', tensor_2_dim: 'int'): super(GeneratorNew, self).__init__() self.project = nn.Linear(in_features=tensor_1_dim, out_features= tensor_2_dim) def forward(self, input_0, input_1): primals_1 = self.project.weight primals_2 = self.project.bias primals_3 = input_0 primals_4 = input_1 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	LogIntelligence/LogADEmpirical	Generator	false	8,478	[ "MIT" ]	11	48458aee65c1c84466b04dd4092fae79a7f341fd	https://github.com/LogIntelligence/LogADEmpirical/tree/48458aee65c1c84466b04dd4092fae79a7f341fd
NextSentencePrediction	# 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/qm/cqmqejojpdhiutcecl4uiqkwznpqhn353cvazvgjyo3qp6end7wo.py # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.clone] # Source node to ATen node mapping: # linear => clone # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%select,), 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=[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_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 = 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 = tl.load(in_ptr0 + (x0 + (64x1)), xmask) tl.store(out_ptr0 + (x2), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/26/c26winupcyxobfqstbc26s7cdod45g5vl6rvqgqwcu4qeritg7no.py # Topologically Sorted Source Nodes: [linear, log_softmax], Original ATen: [aten.add, aten._log_softmax] # Source node to ATen node mapping: # linear => add # log_softmax => amax, sub # Graph fragment: # %add : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_1, %primals_3), kwargs = {}) # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%add, [-1], True), kwargs = {}) # %sub : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add, %amax), kwargs = {}) triton_poi_fused__log_softmax_add_1 = async_compile.triton('triton_poi_fused__log_softmax_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=[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, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused__log_softmax_add_1', '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__log_softmax_add_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 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_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (2x1), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + (0)) tmp5 = tl.broadcast_to(tmp4, [XBLOCK]) tmp7 = tl.load(in_ptr0 + (1 + (2x1)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (1)) tmp9 = tl.broadcast_to(tmp8, [XBLOCK]) tmp2 = tmp0 + tmp1 tmp6 = tmp3 + tmp5 tmp10 = tmp7 + tmp9 tmp11 = triton_helpers.maximum(tmp6, tmp10) tmp12 = tmp2 - tmp11 tl.store(out_ptr0 + (x2), tmp12, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/3g/c3gu4q24itp4dqvxgetbf7jng3fr6zeo7rqh5dsmxtfjda33eyws.py # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax] # Source node to ATen node mapping: # log_softmax => 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_2 = async_compile.triton('triton_poi_fused__log_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=[32], 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_2', '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__log_softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = (xindex // 2) tmp0 = tl.load(in_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (2x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (2x1)), xmask, eviction_policy='evict_last') tmp2 = tl_math.exp(tmp1) tmp4 = tl_math.exp(tmp3) tmp5 = tmp2 + tmp4 tmp6 = tl_math.log(tmp5) tmp7 = tmp0 - tmp6 tl.store(out_ptr0 + (x2), tmp7, 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, (2, 4), (4, 1)) assert_size_stride(primals_3, (2, ), (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: [linear], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(primals_1, buf0, 64, grid=grid(64), stream=stream0) del primals_1 buf1 = empty_strided_cuda((16, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [linear], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf0, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 2), (1, 4), 0), out=buf1) del primals_2 buf2 = empty_strided_cuda((4, 4, 2), (8, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [linear, log_softmax], Original ATen: [aten.add, aten._log_softmax] triton_poi_fused__log_softmax_add_1.run(buf1, primals_3, buf2, 32, grid=grid(32), stream=stream0) del primals_3 buf3 = reinterpret_tensor(buf1, (4, 4, 2), (8, 2, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax] triton_poi_fused__log_softmax_2.run(buf2, buf3, 32, grid=grid(32), stream=stream0) del buf2 return (buf3, reinterpret_tensor(buf0, (16, 4), (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 primals_1 = rand_strided((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((2, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((2, ), (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.optim.lr_scheduler import torch.nn as nn import torch.optim import torch.onnx.operators class NextSentencePrediction(nn.Module): """ 2-class classification model : is_next, is_not_next """ def __init__(self, hidden): """ :param hidden: BERT model output size """ super().__init__() self.linear = nn.Linear(hidden, 2) self.softmax = nn.LogSoftmax(dim=-1) def forward(self, x): return self.softmax(self.linear(x[:, 0])) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'hidden': 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.optim.lr_scheduler import torch.nn as nn import torch.optim import torch.onnx.operators 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 = 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 = tl.load(in_ptr0 + (x0 + 64 * x1), xmask) tl.store(out_ptr0 + x2, tmp0, xmask) @triton.jit def triton_poi_fused__log_softmax_add_1(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 32 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_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + 2 * x1, xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + 0) tmp5 = tl.broadcast_to(tmp4, [XBLOCK]) tmp7 = tl.load(in_ptr0 + (1 + 2 * x1), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + 1) tmp9 = tl.broadcast_to(tmp8, [XBLOCK]) tmp2 = tmp0 + tmp1 tmp6 = tmp3 + tmp5 tmp10 = tmp7 + tmp9 tmp11 = triton_helpers.maximum(tmp6, tmp10) tmp12 = tmp2 - tmp11 tl.store(out_ptr0 + x2, tmp12, xmask) @triton.jit def triton_poi_fused__log_softmax_2(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 32 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x1 = xindex // 2 tmp0 = tl.load(in_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + 2 * x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + 2 * x1), xmask, eviction_policy='evict_last') tmp2 = tl_math.exp(tmp1) tmp4 = tl_math.exp(tmp3) tmp5 = tmp2 + tmp4 tmp6 = tl_math.log(tmp5) tmp7 = tmp0 - tmp6 tl.store(out_ptr0 + x2, tmp7, 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, (2, 4), (4, 1)) assert_size_stride(primals_3, (2,), (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_clone_0[grid(64)](primals_1, buf0, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_1 buf1 = empty_strided_cuda((16, 2), (2, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf0, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 2), (1, 4), 0), out=buf1) del primals_2 buf2 = empty_strided_cuda((4, 4, 2), (8, 2, 1), torch.float32) triton_poi_fused__log_softmax_add_1[grid(32)](buf1, primals_3, buf2, 32, XBLOCK=32, num_warps=1, num_stages=1) del primals_3 buf3 = reinterpret_tensor(buf1, (4, 4, 2), (8, 2, 1), 0) del buf1 triton_poi_fused__log_softmax_2[grid(32)](buf2, buf3, 32, XBLOCK=32, num_warps=1, num_stages=1) del buf2 return buf3, reinterpret_tensor(buf0, (16, 4), (4, 1), 0), buf3 class NextSentencePredictionNew(nn.Module): """ 2-class classification model : is_next, is_not_next """ def __init__(self, hidden): """ :param hidden: BERT model output size """ super().__init__() self.linear = nn.Linear(hidden, 2) self.softmax = nn.LogSoftmax(dim=-1) def forward(self, input_0): primals_2 = self.linear.weight primals_3 = self.linear.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	LogIntelligence/LogADEmpirical	NextSentencePrediction	false	8,479	[ "MIT" ]	11	48458aee65c1c84466b04dd4092fae79a7f341fd	https://github.com/LogIntelligence/LogADEmpirical/tree/48458aee65c1c84466b04dd4092fae79a7f341fd
FCLayer	# 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/dz/cdz5q7vomcevzomgmojbjfpaawkdlant2zdo54dyuevzv6uvomfh.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.tanh] # Source node to ATen node mapping: # x_1 => tanh # Graph fragment: # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%primals_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': [], '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_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) tl.store(out_ptr0 + (x0), tmp1, 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, 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: [x_1], Original ATen: [aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_tanh_0.run(primals_1, buf0, 256, grid=grid(256), stream=stream0) del primals_1 buf1 = 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(primals_2, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf1) del primals_2 del primals_3 return (reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0), 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, 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) 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 FCLayer(nn.Module): def __init__(self, input_dim, output_dim, dropout_rate=0.0, use_activation=True): super(FCLayer, self).__init__() self.use_activation = use_activation self.dropout = nn.Dropout(dropout_rate) self.linear = nn.Linear(input_dim, output_dim) self.tanh = nn.Tanh() def forward(self, x): x = self.dropout(x) if self.use_activation: x = self.tanh(x) return self.linear(x) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'output_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.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_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) tl.store(out_ptr0 + x0, tmp1, 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, 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_tanh_0[grid(256)](primals_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_1 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_3, reinterpret_tensor(buf0, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf1) del primals_2 del primals_3 return reinterpret_tensor(buf1, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(buf0, (64, 4), (4, 1), 0) class FCLayerNew(nn.Module): def __init__(self, input_dim, output_dim, dropout_rate=0.0, use_activation=True): super(FCLayerNew, self).__init__() self.use_activation = use_activation self.dropout = nn.Dropout(dropout_rate) self.linear = nn.Linear(input_dim, output_dim) self.tanh = nn.Tanh() def forward(self, input_0): primals_2 = self.linear.weight primals_3 = self.linear.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	LostCow/KLUE	FCLayer	false	8,480	[ "MIT" ]	18	73b1b0526cf6b1b6f5ef535b9527d8abe6ca1a77	https://github.com/LostCow/KLUE/tree/73b1b0526cf6b1b6f5ef535b9527d8abe6ca1a77
psi	# 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/qc/cqcqu66rzoovcxsmkmjxebplxpgvohadqsar5nypc2zlenewwoww.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 = (%getitem,), 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=[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_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 = 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 + (4*y3)), 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, 4), (64, 16, 4, 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, 64, 4, grid=grid(64, 4), stream=stream0) del arg0_1 return (reinterpret_tensor(buf0, (4, 64, 1, 1), (64, 1, 64, 64), 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 psi(nn.Module): def __init__(self, block_size): super(psi, self).__init__() self.block_size = block_size self.block_size_sq = block_size * block_size def inverse(self, input): output = input.permute(0, 2, 3, 1) batch_size, d_height, d_width, d_depth = output.size() s_depth = int(d_depth / self.block_size_sq) s_width = int(d_width * self.block_size) s_height = int(d_height * self.block_size) t_1 = output.contiguous().view(batch_size, d_height, d_width, self. block_size_sq, s_depth) spl = t_1.split(self.block_size, 3) stack = [t_t.contiguous().view(batch_size, d_height, s_width, s_depth) for t_t in spl] output = torch.stack(stack, 0).transpose(0, 1).permute(0, 2, 1, 3, 4 ).contiguous().view(batch_size, s_height, s_width, s_depth) output = output.permute(0, 3, 1, 2) return output.contiguous() def forward(self, input): output = input.permute(0, 2, 3, 1) batch_size, s_height, _s_width, s_depth = output.size() d_depth = s_depth * self.block_size_sq d_height = int(s_height / self.block_size) t_1 = output.split(self.block_size, 2) stack = [t_t.contiguous().view(batch_size, d_height, d_depth) for t_t in t_1] output = torch.stack(stack, 1) output = output.permute(0, 2, 1, 3) output = output.permute(0, 3, 1, 2) return output.contiguous() def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'block_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.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 = 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) 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_clone_0[grid(64, 4)](arg0_1, buf0, 64, 4, XBLOCK=4, YBLOCK=32, num_warps=4, num_stages=1) del arg0_1 return reinterpret_tensor(buf0, (4, 64, 1, 1), (64, 1, 64, 64), 0), class psiNew(nn.Module): def __init__(self, block_size): super(psiNew, self).__init__() self.block_size = block_size self.block_size_sq = block_size * block_size def inverse(self, input): output = input.permute(0, 2, 3, 1) batch_size, d_height, d_width, d_depth = output.size() s_depth = int(d_depth / self.block_size_sq) s_width = int(d_width * self.block_size) s_height = int(d_height * self.block_size) t_1 = output.contiguous().view(batch_size, d_height, d_width, self. block_size_sq, s_depth) spl = t_1.split(self.block_size, 3) stack = [t_t.contiguous().view(batch_size, d_height, s_width, s_depth) for t_t in spl] output = torch.stack(stack, 0).transpose(0, 1).permute(0, 2, 1, 3, 4 ).contiguous().view(batch_size, s_height, s_width, s_depth) output = output.permute(0, 3, 1, 2) return output.contiguous() def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	LuckMonkeys/ATSPrivacy	psi	false	8,481	[ "MIT" ]	14	6b580942c6b98b6348d313f2bf90202ec19cefce	https://github.com/LuckMonkeys/ATSPrivacy/tree/6b580942c6b98b6348d313f2bf90202ec19cefce
Conv_Blocks	# 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/rr/crrsb7zev4pvtps27oi5wboyqnbmaeci5weyjyw2ycmrkt7ukwjx.py # Topologically Sorted Source Nodes: [input_1, input_2], Original ATen: [aten.convolution, aten.tanh] # Source node to ATen node mapping: # input_1 => convolution # input_2 => tanh # 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 = {}) # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%convolution,), kwargs = {}) triton_poi_fused_convolution_tanh_0 = async_compile.triton('triton_poi_fused_convolution_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_convolution_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_convolution_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 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 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + (x3), tmp3, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/uw/cuwmfqwq5ulspb6usd2iikmmks54f25cbisrvs2mrbaaeir5lh6y.py # Topologically Sorted Source Nodes: [input_3], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # input_3 => getitem, getitem_1 # Graph fragment: # %getitem : [num_users=1] = 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=[64], 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 = 64 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 2 x1 = (xindex // 2) x2 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (1 + (2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (4 + (2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (5 + (2x0) + (8x1)), 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 + (x2), tmp6, xmask) tl.store(out_ptr1 + (x2), tmp16, 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, 3, 3), (36, 9, 3, 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: [input_1], 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, 4, 4), (64, 16, 4, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [input_1, input_2], Original ATen: [aten.convolution, aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_convolution_tanh_0.run(buf1, primals_2, 256, grid=grid(256), stream=stream0) del primals_2 buf2 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) buf3 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.int8) # Topologically Sorted Source Nodes: [input_3], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_1.run(buf1, buf2, buf3, 64, grid=grid(64), stream=stream0) return (buf2, primals_1, primals_3, buf1, 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, 3, 3), (36, 9, 3, 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 class Conv_Blocks(nn.Module): def __init__(self, input_dim, output_dim, filter_size=3, batch_norm= False, non_lin='tanh', dropout=0.0, first_block=False, last_block= False, skip_connection=False): super(Conv_Blocks, self).__init__() self.skip_connection = skip_connection self.last_block = last_block self.first_block = first_block self.Block = nn.Sequential() self.Block.add_module('Conv_1', nn.Conv2d(input_dim, output_dim, filter_size, 1, 1)) if batch_norm: self.Block.add_module('BN_1', nn.BatchNorm2d(output_dim)) if non_lin == 'tanh': self.Block.add_module('NonLin_1', nn.Tanh()) elif non_lin == 'relu': self.Block.add_module('NonLin_1', nn.ReLU()) elif non_lin == 'leakyrelu': self.Block.add_module('NonLin_1', nn.LeakyReLU()) else: assert False, "non_lin = {} not valid: 'tanh', 'relu', 'leakyrelu'".format( non_lin) self.Block.add_module('Pool', nn.MaxPool2d(kernel_size=(2, 2), stride=(2, 2), dilation=(1, 1), ceil_mode=False)) if dropout > 0: self.Block.add_module('Drop', nn.Dropout2d(dropout)) def forward(self, x): if self.skip_connection: if not self.first_block: x, skip_con_list = x else: skip_con_list = [] x = self.Block(x) if self.skip_connection: if not self.last_block: skip_con_list.append(x) x = [x, skip_con_list] return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'output_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 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_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 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 = libdevice.tanh(tmp2) tl.store(in_out_ptr0 + x3, tmp3, xmask) @triton.jit def triton_poi_fused_max_pool2d_with_indices_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 x0 = xindex % 2 x1 = xindex // 2 x2 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (1 + 2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (4 + 2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp5 = tl.load(in_ptr0 + (5 + 2 * x0 + 8 * x1), 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 + x2, tmp6, xmask) tl.store(out_ptr1 + x2, tmp16, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 3, 3), (36, 9, 3, 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=(1, 1), 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 get_raw_stream(0) triton_poi_fused_convolution_tanh_0[grid(256)](buf1, primals_2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) buf3 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.int8) triton_poi_fused_max_pool2d_with_indices_1[grid(64)](buf1, buf2, buf3, 64, XBLOCK=64, num_warps=1, num_stages=1) return buf2, primals_1, primals_3, buf1, buf3 class Conv_BlocksNew(nn.Module): def __init__(self, input_dim, output_dim, filter_size=3, batch_norm= False, non_lin='tanh', dropout=0.0, first_block=False, last_block= False, skip_connection=False): super(Conv_BlocksNew, self).__init__() self.skip_connection = skip_connection self.last_block = last_block self.first_block = first_block self.Block = nn.Sequential() self.Block.add_module('Conv_1', nn.Conv2d(input_dim, output_dim, filter_size, 1, 1)) if batch_norm: self.Block.add_module('BN_1', nn.BatchNorm2d(output_dim)) if non_lin == 'tanh': self.Block.add_module('NonLin_1', nn.Tanh()) elif non_lin == 'relu': self.Block.add_module('NonLin_1', nn.ReLU()) elif non_lin == 'leakyrelu': self.Block.add_module('NonLin_1', nn.LeakyReLU()) else: assert False, "non_lin = {} not valid: 'tanh', 'relu', 'leakyrelu'".format( non_lin) self.Block.add_module('Pool', nn.MaxPool2d(kernel_size=(2, 2), stride=(2, 2), dilation=(1, 1), ceil_mode=False)) if dropout > 0: self.Block.add_module('Drop', nn.Dropout2d(dropout)) def forward(self, input_0): primals_1 = self.Block.Conv_1.weight primals_2 = self.Block.Conv_1.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	LuigiFilippoChiara/GoalGAN	Conv_Blocks	false	8,482	[ "MIT" ]	36	11ac7448af7ac8934e6eb47a06c51d92f04dec8c	https://github.com/LuigiFilippoChiara/GoalGAN/tree/11ac7448af7ac8934e6eb47a06c51d92f04dec8c
UpConv_Blocks	# 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/qa/cqay4s2pmft5z4pfgtf4mlcca2zu5ldhytkd3tidnf7cwxqdyh2d.py # Topologically Sorted Source Nodes: [input_1, input_2], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # input_1 => convolution # input_2 => relu # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%primals_3, %primals_1, %primals_2, [2, 2], [1, 1], [1, 1], True, [0, 0], 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_convolution_relu_threshold_backward_0 = async_compile.triton('triton_poi_fused_convolution_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=[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_convolution_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_convolution_relu_threshold_backward_0(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 x3 = xindex x1 = (xindex // 64) % 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.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x3), tmp4, xmask) tl.store(out_ptr0 + (x3), tmp6, 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: [input_1], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_3, primals_1, stride=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 8, 8), (256, 64, 8, 1)) buf1 = buf0; del buf0 # reuse buf2 = empty_strided_cuda((4, 4, 8, 8), (256, 64, 8, 1), torch.bool) # Topologically Sorted Source Nodes: [input_1, input_2], Original ATen: [aten.convolution, aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_convolution_relu_threshold_backward_0.run(buf1, primals_2, buf2, 1024, grid=grid(1024), stream=stream0) del primals_2 return (buf1, primals_1, primals_3, buf2, ) 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 class UpConv_Blocks(nn.Module): def __init__(self, input_dim, output_dim, filter=4, padding=1, first_block=False, last_block=False, batch_norm=False, non_lin= 'relu', dropout=0, skip_connection=False): super(UpConv_Blocks, self).__init__() self.Block = nn.Sequential() self.skip_connection = skip_connection self.first_block = first_block self.last_block = last_block if self.skip_connection and not self.first_block: input_dim *= 2 else: pass self.Block.add_module('UpConv', nn.ConvTranspose2d(input_dim, output_dim, filter, 2, padding)) if not last_block: if batch_norm: self.Block.add_module('BN_up', nn.BatchNorm2d(output_dim)) if non_lin == 'tanh': self.Block.add_module('NonLin_up', nn.Tanh()) elif non_lin == 'relu': self.Block.add_module('NonLin_up', nn.ReLU()) elif non_lin == 'leakyrelu': self.Block.add_module('NonLin_up', nn.LeakyReLU()) if dropout > 0: self.Block.add_module('Drop_up', nn.Dropout2d(dropout)) def forward(self, x): if self.skip_connection: x, skip_con_list = x if not self.first_block: x = torch.cat((x, skip_con_list.pop(-1)), -3) x = self.Block(x) if self.skip_connection and not self.last_block: x = [x, skip_con_list] return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'output_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 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_relu_threshold_backward_0(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 x3 = xindex x1 = xindex // 64 % 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.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + x3, tmp4, xmask) tl.store(out_ptr0 + x3, tmp6, 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=(2, 2), padding=(1, 1), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 8, 8), (256, 64, 8, 1)) buf1 = buf0 del buf0 buf2 = empty_strided_cuda((4, 4, 8, 8), (256, 64, 8, 1), torch.bool) get_raw_stream(0) triton_poi_fused_convolution_relu_threshold_backward_0[grid(1024)](buf1 , primals_2, buf2, 1024, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 return buf1, primals_1, primals_3, buf2 class UpConv_BlocksNew(nn.Module): def __init__(self, input_dim, output_dim, filter=4, padding=1, first_block=False, last_block=False, batch_norm=False, non_lin= 'relu', dropout=0, skip_connection=False): super(UpConv_BlocksNew, self).__init__() self.Block = nn.Sequential() self.skip_connection = skip_connection self.first_block = first_block self.last_block = last_block if self.skip_connection and not self.first_block: input_dim *= 2 else: pass self.Block.add_module('UpConv', nn.ConvTranspose2d(input_dim, output_dim, filter, 2, padding)) if not last_block: if batch_norm: self.Block.add_module('BN_up', nn.BatchNorm2d(output_dim)) if non_lin == 'tanh': self.Block.add_module('NonLin_up', nn.Tanh()) elif non_lin == 'relu': self.Block.add_module('NonLin_up', nn.ReLU()) elif non_lin == 'leakyrelu': self.Block.add_module('NonLin_up', nn.LeakyReLU()) if dropout > 0: self.Block.add_module('Drop_up', nn.Dropout2d(dropout)) def forward(self, input_0): primals_1 = self.Block.UpConv.weight primals_2 = self.Block.UpConv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	LuigiFilippoChiara/GoalGAN	UpConv_Blocks	false	8,483	[ "MIT" ]	36	11ac7448af7ac8934e6eb47a06c51d92f04dec8c	https://github.com/LuigiFilippoChiara/GoalGAN/tree/11ac7448af7ac8934e6eb47a06c51d92f04dec8c
ScaleDotProductAttention	# 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/p3/cp3vh5ge4dyj3r4smr5dvjovuocujri2yvhft44mt2rcrwo3tz5y.py # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] # Source node to ATen node mapping: # matmul => 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/jg/cjgzcleousnnciyxxayqcmko4grbv4v3rc2cuyih5dkleckwt3g3.py # Topologically Sorted Source Nodes: [att_weights], Original ATen: [aten._softmax] # Source node to ATen node mapping: # att_weights => exp # Graph fragment: # %mul_tensor : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_2, 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 = {}) # %mul_tensor_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_tensor, 0.5), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%mul_tensor_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 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 = 0.5 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/5m/c5mma4y56ura3imiphserxkqyervoqe3bptp4i4swvp3yenvzn36.py # Topologically Sorted Source Nodes: [att_weights], Original ATen: [aten._softmax] # Source node to ATen node mapping: # att_weights => 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 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: [matmul], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_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: [matmul], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(arg1_1, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf0, (16, 4, 4), (16, 4, 1), 0), out=buf1) del arg1_1 buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [att_weights], 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: [att_weights], 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: [att_out], 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 del buf3 return (reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 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 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.functional as F import torch.nn as nn class ScaleDotProductAttention(nn.Module): def __init__(self, k_dim, dropout=0.1): super(ScaleDotProductAttention, self).__init__() self.scale = 1.0 / k_dim ** 0.5 self.dropout = dropout def forward(self, q, k, v, mask=None): """ :param q: (bz, q_len, q_dim) :param k: (bz, k_len, k_dim) :param v: (bz, v_len, v_dim) k_len == v_len v_dim == q_dim :param mask: (bz, k_len) 填充部分为0 :return: (bz, q_len, v_dim) """ att_score = torch.matmul(q, k.transpose(1, 2)).mul(self.scale) if mask is not None: att_mask = ~mask[:, None, :] att_score = att_score.masked_fill(att_mask, -1000000000.0) att_weights = F.softmax(att_score, dim=-1) att_out = torch.matmul(att_weights, v) return att_out 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 [[], {'k_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_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) 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 = 0.5 tmp16 = tmp14 * tmp15 tmp17 = tl_math.exp(tmp16) tl.store(out_ptr0 + x2, tmp17, 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_clone_0[grid(256)](arg0_1, buf0, 256, XBLOCK=128, 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(arg1_1, (16, 4, 4), (16, 4, 1 ), 0), reinterpret_tensor(buf0, (16, 4, 4), (16, 4, 1), 0), out =buf1) del arg1_1 buf2 = buf0 del buf0 triton_poi_fused__softmax_1[grid(256)](buf1, buf2, 256, XBLOCK=128, 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 del buf3 return reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0), class ScaleDotProductAttentionNew(nn.Module): def __init__(self, k_dim, dropout=0.1): super(ScaleDotProductAttentionNew, self).__init__() self.scale = 1.0 / k_dim ** 0.5 self.dropout = 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]	LindgeW/BiaffineNER	ScaleDotProductAttention	false	8,484	[ "Apache-2.0" ]	13	0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf	https://github.com/LindgeW/BiaffineNER/tree/0ae179e9ff731362f6c8ba6d0b24485ad45e8bbf
GRU	# 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/zn/czn6cztle4peyy4pa7mkag53s34sjkn6wpenptu6ttfuvhgzzrup.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 = ([%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 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/bh/cbhhbhqsrtzv7xixr3snht74ai7gwsx5q3h6li7ddxvmthjzhvvs.py # Topologically Sorted Source Nodes: [sigmoid], Original ATen: [aten.sigmoid] # Source node to ATen node mapping: # sigmoid => sigmoid # Graph fragment: # %sigmoid : [num_users=2] = call_function[target=torch.ops.aten.sigmoid.default](args = (%view_1,), 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=[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_sigmoid_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_sigmoid_1(in_out_ptr0, in_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.sigmoid(tmp2) tl.store(in_out_ptr0 + (x2), tmp3, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/zo/czozu32vtiodawjpaolcsvk3pxsplacavqklwiu666sdclr5d6sy.py # Topologically Sorted Source Nodes: [cat_1], Original ATen: [aten.cat] # Source node to ATen node mapping: # cat_1 => cat_1 # Graph fragment: # %cat_1 : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_1, %mul], -1), 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=[512], 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_cat_2', '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_cat_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 512 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 + ((8x1) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.load(in_ptr2 + ((4x1) + ((-4) + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp9 tmp10 tmp12 = tl.full(tmp11.shape, 0.0, tmp11.dtype) tmp13 = tl.where(tmp6, tmp11, tmp12) tmp14 = tl.where(tmp4, tmp5, tmp13) tl.store(out_ptr0 + (x2), tmp14, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/kc/ckcmffcdlgoq37kn5squz7zeihsilmmgfgpzpy5ff36q5hwupyd7.py # Topologically Sorted Source Nodes: [z, mul_1, sub, mul_2, x], Original ATen: [aten.tanh, aten.mul, aten.rsub, aten.add] # Source node to ATen node mapping: # mul_1 => mul_1 # mul_2 => mul_2 # sub => sub # x => add # z => tanh # Graph fragment: # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%view_3,), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%getitem_1, %tanh), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %getitem_1), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %primals_2), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %mul_2), kwargs = {}) triton_poi_fused_add_mul_rsub_tanh_3 = async_compile.triton('triton_poi_fused_add_mul_rsub_tanh_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: '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_mul_rsub_tanh_3', '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_mul_rsub_tanh_3(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 % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (4 + x0 + (8x1)), xmask) tmp1 = tl.load(in_ptr1 + (x2), xmask) tmp6 = tl.load(in_ptr2 + (x2), xmask) tmp2 = libdevice.tanh(tmp1) tmp3 = tmp0 tmp2 tmp4 = 1.0 tmp5 = tmp4 - tmp0 tmp7 = tmp5 * tmp6 tmp8 = tmp3 + 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, 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, (8, 8), (8, 1)) assert_size_stride(primals_4, (8, ), (1, )) assert_size_stride(primals_5, (4, 8), (8, 1)) assert_size_stride(primals_6, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 8), (128, 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_1, primals_2, buf0, 512, grid=grid(512), stream=stream0) buf1 = empty_strided_cuda((64, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf0, (64, 8), (8, 1), 0), reinterpret_tensor(primals_3, (8, 8), (1, 8), 0), out=buf1) del primals_3 buf2 = reinterpret_tensor(buf1, (4, 4, 4, 8), (128, 32, 8, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [sigmoid], Original ATen: [aten.sigmoid] triton_poi_fused_sigmoid_1.run(buf2, primals_4, 512, grid=grid(512), stream=stream0) del primals_4 buf3 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [cat_1], Original ATen: [aten.cat] triton_poi_fused_cat_2.run(primals_1, buf2, primals_2, buf3, 512, grid=grid(512), stream=stream0) del primals_1 buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_6, reinterpret_tensor(buf3, (64, 8), (8, 1), 0), reinterpret_tensor(primals_5, (8, 4), (1, 8), 0), alpha=1, beta=1, out=buf4) del primals_6 buf5 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [z, mul_1, sub, mul_2, x], Original ATen: [aten.tanh, aten.mul, aten.rsub, aten.add] triton_poi_fused_add_mul_rsub_tanh_3.run(buf2, buf4, primals_2, buf5, 256, grid=grid(256), stream=stream0) return (buf5, primals_2, reinterpret_tensor(buf0, (64, 8), (8, 1), 0), buf2, reinterpret_tensor(buf2, (4, 4, 4, 4), (128, 32, 8, 1), 4), reinterpret_tensor(buf3, (64, 8), (8, 1), 0), buf4, 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, 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((8, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, 8), (8, 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 torch import torch.nn as nn class GRU(nn.Module): def __init__(self, outfea): super(GRU, self).__init__() self.ff = nn.Linear(2 * outfea, 2 * outfea) self.zff = nn.Linear(2 * outfea, outfea) self.outfea = outfea def forward(self, x, xh): r, u = torch.split(torch.sigmoid(self.ff(torch.cat([x, xh], -1))), self.outfea, -1) z = torch.tanh(self.zff(torch.cat([x, r * xh], -1))) x = u * z + (1 - u) * xh return x def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'outfea': 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 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 = 512 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_sigmoid_1(in_out_ptr0, in_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.sigmoid(tmp2) tl.store(in_out_ptr0 + x2, tmp3, xmask) @triton.jit def triton_poi_fused_cat_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 512 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 + (8 * x1 + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.load(in_ptr2 + (4 * x1 + (-4 + x0)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp9 * tmp10 tmp12 = tl.full(tmp11.shape, 0.0, tmp11.dtype) tmp13 = tl.where(tmp6, tmp11, tmp12) tmp14 = tl.where(tmp4, tmp5, tmp13) tl.store(out_ptr0 + x2, tmp14, xmask) @triton.jit def triton_poi_fused_add_mul_rsub_tanh_3(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 % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + (4 + x0 + 8 * x1), xmask) tmp1 = tl.load(in_ptr1 + x2, xmask) tmp6 = tl.load(in_ptr2 + x2, xmask) tmp2 = libdevice.tanh(tmp1) tmp3 = tmp0 * tmp2 tmp4 = 1.0 tmp5 = tmp4 - tmp0 tmp7 = tmp5 * tmp6 tmp8 = tmp3 + tmp7 tl.store(out_ptr0 + x2, 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, (8, 8), (8, 1)) assert_size_stride(primals_4, (8,), (1,)) assert_size_stride(primals_5, (4, 8), (8, 1)) assert_size_stride(primals_6, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.float32) get_raw_stream(0) triton_poi_fused_cat_0[grid(512)](primals_1, primals_2, buf0, 512, XBLOCK=128, num_warps=4, num_stages=1) buf1 = empty_strided_cuda((64, 8), (8, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf0, (64, 8), (8, 1), 0), reinterpret_tensor(primals_3, (8, 8), (1, 8), 0), out=buf1) del primals_3 buf2 = reinterpret_tensor(buf1, (4, 4, 4, 8), (128, 32, 8, 1), 0) del buf1 triton_poi_fused_sigmoid_1[grid(512)](buf2, primals_4, 512, XBLOCK= 256, num_warps=4, num_stages=1) del primals_4 buf3 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.float32) triton_poi_fused_cat_2[grid(512)](primals_1, buf2, primals_2, buf3, 512, XBLOCK=128, num_warps=4, num_stages=1) del primals_1 buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_6, reinterpret_tensor(buf3, (64, 8), ( 8, 1), 0), reinterpret_tensor(primals_5, (8, 4), (1, 8), 0), alpha=1, beta=1, out=buf4) del primals_6 buf5 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_add_mul_rsub_tanh_3[grid(256)](buf2, buf4, primals_2, buf5, 256, XBLOCK=128, num_warps=4, num_stages=1) return buf5, primals_2, reinterpret_tensor(buf0, (64, 8), (8, 1), 0 ), buf2, reinterpret_tensor(buf2, (4, 4, 4, 4), (128, 32, 8, 1), 4 ), reinterpret_tensor(buf3, (64, 8), (8, 1), 0), buf4, primals_5 class GRUNew(nn.Module): def __init__(self, outfea): super(GRUNew, self).__init__() self.ff = nn.Linear(2 * outfea, 2 * outfea) self.zff = nn.Linear(2 * outfea, outfea) self.outfea = outfea def forward(self, input_0, input_1): primals_3 = self.ff.weight primals_4 = self.ff.bias primals_5 = self.zff.weight primals_6 = self.zff.bias primals_1 = input_0 primals_2 = input_1 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return output[0]	LMissher/STGNN	GRU	false	8,485	[ "MIT" ]	26	9c35d994738ad768ca4385273235bd30e994b746	https://github.com/LMissher/STGNN/tree/9c35d994738ad768ca4385273235bd30e994b746
VanillaGenerativeAdversarialLoss	# 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/je/cjeivr6lviuw6yxgsg65jubqgwe5tcn5hstw7xmebsjzgrut7qcw.py # Topologically Sorted Source Nodes: [binary_cross_entropy_with_logits], Original ATen: [aten.binary_cross_entropy_with_logits] # Source node to ATen node mapping: # binary_cross_entropy_with_logits => abs_1, exp, full_default, full_default_1, log1p, mean, minimum, mul, neg, sub_1, sub_2 # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 4, 4, 4], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%full_default, %arg0_1), kwargs = {}) # %full_default_1 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %minimum : [num_users=1] = call_function[target=torch.ops.aten.minimum.default](args = (%full_default_1, %arg0_1), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%arg0_1,), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%abs_1,), 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 = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%minimum, %log1p), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul, %sub_1), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%sub_2,), kwargs = {}) triton_per_fused_binary_cross_entropy_with_logits_0 = async_compile.triton('triton_per_fused_binary_cross_entropy_with_logits_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: '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_binary_cross_entropy_with_logits_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, '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_binary_cross_entropy_with_logits_0(in_out_ptr0, in_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 = 0.0 tmp2 = tmp1 * tmp0 tmp3 = triton_helpers.minimum(tmp1, tmp0) tmp4 = tl_math.abs(tmp0) tmp5 = -tmp4 tmp6 = tl_math.exp(tmp5) tmp7 = libdevice.log1p(tmp6) tmp8 = tmp3 - tmp7 tmp9 = tmp2 - tmp8 tmp10 = tl.broadcast_to(tmp9, [RBLOCK]) tmp12 = triton_helpers.promote_to_tensor(tl.sum(tmp10, 0)) tmp13 = 256.0 tmp14 = tmp12 / tmp13 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp14, 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) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [binary_cross_entropy_with_logits], Original ATen: [aten.binary_cross_entropy_with_logits] stream0 = get_raw_stream(0) triton_per_fused_binary_cross_entropy_with_logits_0.run(buf1, arg0_1, 1, 256, grid=grid(1), 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.nn.parallel import torch.utils.data import torch.utils.data.distributed class VanillaGenerativeAdversarialLoss(nn.Module): """ Loss for `Vanilla Generative Adversarial Network <https://arxiv.org/abs/1406.2661>`_ Args: reduction (str, optional): Specifies the reduction to apply to the output: ``'none'`` \| ``'mean'`` \| ``'sum'``. ``'none'``: no reduction will be applied, ``'mean'``: the sum of the output will be divided by the number of elements in the output, ``'sum'``: the output will be summed. Default: ``'mean'`` Inputs: - prediction (tensor): unnormalized discriminator predictions - real (bool): if the ground truth label is for real images or fake images. Default: true .. warning:: Do not use sigmoid as the last layer of Discriminator. """ def __init__(self, reduction='mean'): super(VanillaGenerativeAdversarialLoss, self).__init__() self.bce_loss = nn.BCEWithLogitsLoss(reduction=reduction) def forward(self, prediction, real=True): if real: label = torch.ones_like(prediction) else: label = torch.zeros_like(prediction) return self.bce_loss(prediction, label) 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 libdevice, math as tl_math import torch.nn as nn import torch.nn.parallel import torch.utils.data import torch.utils.data.distributed 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_binary_cross_entropy_with_logits_0(in_out_ptr0, in_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 = 0.0 tmp2 = tmp1 * tmp0 tmp3 = triton_helpers.minimum(tmp1, tmp0) tmp4 = tl_math.abs(tmp0) tmp5 = -tmp4 tmp6 = tl_math.exp(tmp5) tmp7 = libdevice.log1p(tmp6) tmp8 = tmp3 - tmp7 tmp9 = tmp2 - tmp8 tmp10 = tl.broadcast_to(tmp9, [RBLOCK]) tmp12 = triton_helpers.promote_to_tensor(tl.sum(tmp10, 0)) tmp13 = 256.0 tmp14 = tmp12 / tmp13 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp14, 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) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_binary_cross_entropy_with_logits_0[grid(1)](buf1, arg0_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 return buf1, class VanillaGenerativeAdversarialLossNew(nn.Module): """ Loss for `Vanilla Generative Adversarial Network <https://arxiv.org/abs/1406.2661>`_ Args: reduction (str, optional): Specifies the reduction to apply to the output: ``'none'`` \| ``'mean'`` \| ``'sum'``. ``'none'``: no reduction will be applied, ``'mean'``: the sum of the output will be divided by the number of elements in the output, ``'sum'``: the output will be summed. Default: ``'mean'`` Inputs: - prediction (tensor): unnormalized discriminator predictions - real (bool): if the ground truth label is for real images or fake images. Default: true .. warning:: Do not use sigmoid as the last layer of Discriminator. """ def __init__(self, reduction='mean'): super(VanillaGenerativeAdversarialLossNew, self).__init__() self.bce_loss = nn.BCEWithLogitsLoss(reduction=reduction) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Liuhong99/CST	VanillaGenerativeAdversarialLoss	false	8,486	[ "MIT" ]	20	f6653a4ee7968fa3ba875a182670636f648be783	https://github.com/Liuhong99/CST/tree/f6653a4ee7968fa3ba875a182670636f648be783
SAC	# 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/ba/cbap3krbrnolx3t5lbqjcltsf67h3u4gjbnv5l5gzt5iti375q4i.py # Topologically Sorted Source Nodes: [weights], Original ATen: [aten._softmax] # Source node to ATen node mapping: # weights => amax, exp, sub, sum_1 # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%primals_8, [0], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_8, %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 = {}) 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=[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__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_ptr0, out_ptr1, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 1 rnumel = 3 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 = rindex < rnumel r0 = rindex tmp0 = tl.load(in_ptr0 + (r0), rmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(rmask, 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(rmask, tmp7, 0) tmp10 = tl.sum(tmp9, 1)[:, None] tl.store(out_ptr0 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp4, None) tl.store(out_ptr1 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp10, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ce/ccerboqvd6fc5se4ytc3yz2aehq6cnp7xj4k67gcnk7pweoijx6q.py # Topologically Sorted Source Nodes: [feat_1, feat_3, feat_5, mul, mul_1, add, mul_2, feat], Original ATen: [aten.convolution, aten.mul, aten.add] # Source node to ATen node mapping: # add => add # feat => add_1 # feat_1 => convolution # feat_3 => convolution_1 # feat_5 => convolution_2 # mul => mul # mul_1 => mul_1 # mul_2 => mul_2 # Graph fragment: # %convolution : [num_users=2] = 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 = {}) # %convolution_1 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%unsqueeze, %primals_4, %primals_5, [1, 1, 1], [2, 2, 2], [2, 2, 2], False, [0, 0, 0], 1), kwargs = {}) # %convolution_2 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%unsqueeze, %primals_6, %primals_7, [1, 1, 1], [3, 3, 3], [3, 3, 3], False, [0, 0, 0], 1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze, %select), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze_1, %select_1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %mul_1), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%squeeze_2, %select_2), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, %mul_2), kwargs = {}) triton_poi_fused_add_convolution_mul_1 = async_compile.triton('triton_poi_fused_add_convolution_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=[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: 'fp32', 10: '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), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_add_convolution_mul_1', 'mutated_arg_names': ['in_out_ptr0', 'in_out_ptr1', 'in_out_ptr2'], 'no_x_dim': False, 'num_load': 11, '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_1(in_out_ptr0, in_out_ptr1, in_out_ptr2, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, 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 // 64) tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_out_ptr1 + (x2), xmask) tmp4 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_out_ptr2 + (x2), xmask) tmp7 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr3 + (0)) tmp10 = tl.broadcast_to(tmp9, [XBLOCK]) tmp11 = tl.load(in_ptr4 + (0)) tmp12 = tl.broadcast_to(tmp11, [XBLOCK]) tmp15 = tl.load(in_ptr5 + (0)) tmp16 = tl.broadcast_to(tmp15, [XBLOCK]) tmp19 = tl.load(in_ptr3 + (1)) tmp20 = tl.broadcast_to(tmp19, [XBLOCK]) tmp26 = tl.load(in_ptr3 + (2)) tmp27 = tl.broadcast_to(tmp26, [XBLOCK]) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp8 = tmp6 + tmp7 tmp13 = tmp10 - tmp12 tmp14 = tl_math.exp(tmp13) tmp17 = tmp14 / tmp16 tmp18 = tmp2 * tmp17 tmp21 = tmp20 - tmp12 tmp22 = tl_math.exp(tmp21) tmp23 = tmp22 / tmp16 tmp24 = tmp5 * tmp23 tmp25 = tmp18 + tmp24 tmp28 = tmp27 - tmp12 tmp29 = tl_math.exp(tmp28) tmp30 = tmp29 / tmp16 tmp31 = tmp8 * tmp30 tmp32 = tmp25 + tmp31 tl.store(in_out_ptr0 + (x2), tmp2, xmask) tl.store(in_out_ptr1 + (x2), tmp5, xmask) tl.store(in_out_ptr2 + (x2), tmp8, xmask) tl.store(out_ptr0 + (x2), tmp32, 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 = args args.clear() assert_size_stride(primals_1, (4, 4, 3, 3, 3), (108, 27, 9, 3, 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, 3, 3, 3), (108, 27, 9, 3, 1)) assert_size_stride(primals_5, (4, ), (1, )) assert_size_stride(primals_6, (4, 4, 3, 3, 3), (108, 27, 9, 3, 1)) assert_size_stride(primals_7, (4, ), (1, )) assert_size_stride(primals_8, (3, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [feat_1], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(reinterpret_tensor(primals_3, (1, 4, 4, 4, 4), (256, 64, 16, 4, 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(buf0, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1)) # Topologically Sorted Source Nodes: [feat_3], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(reinterpret_tensor(primals_3, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0), primals_4, stride=(1, 1, 1), padding=(2, 2, 2), dilation=(2, 2, 2), transposed=False, output_padding=(0, 0, 0), groups=1, bias=None) assert_size_stride(buf2, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1)) # Topologically Sorted Source Nodes: [feat_5], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(reinterpret_tensor(primals_3, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0), primals_6, stride=(1, 1, 1), padding=(3, 3, 3), dilation=(3, 3, 3), transposed=False, output_padding=(0, 0, 0), groups=1, bias=None) assert_size_stride(buf4, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1)) buf6 = empty_strided_cuda((1, ), (1, ), torch.float32) buf7 = empty_strided_cuda((1, ), (1, ), torch.float32) # Topologically Sorted Source Nodes: [weights], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_per_fused__softmax_0.run(primals_8, buf6, buf7, 1, 3, grid=grid(1), stream=stream0) buf1 = buf0; del buf0 # reuse buf3 = buf2; del buf2 # reuse buf5 = buf4; del buf4 # reuse buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [feat_1, feat_3, feat_5, mul, mul_1, add, mul_2, feat], Original ATen: [aten.convolution, aten.mul, aten.add] triton_poi_fused_add_convolution_mul_1.run(buf1, buf3, buf5, primals_2, primals_5, primals_7, primals_8, buf6, buf7, buf8, 256, grid=grid(256), stream=stream0) del buf6 del buf7 del primals_2 del primals_5 del primals_7 return (buf8, primals_1, primals_4, primals_6, primals_8, reinterpret_tensor(primals_3, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0), buf1, 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, 3, 3, 3), (108, 27, 9, 3, 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, 3, 3, 3), (108, 27, 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, 4, 3, 3, 3), (108, 27, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((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, primals_8]) 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 SAC(nn.Module): def __init__(self, input_channel, out_channel): super(SAC, self).__init__() self.conv_1 = nn.Conv3d(input_channel, out_channel, kernel_size=3, stride=1, padding=1) self.conv_3 = nn.Conv3d(input_channel, out_channel, kernel_size=3, stride=1, padding=2, dilation=2) self.conv_5 = nn.Conv3d(input_channel, out_channel, kernel_size=3, stride=1, padding=3, dilation=3) self.weights = nn.Parameter(torch.ones(3)) self.softmax = nn.Softmax(0) def forward(self, inputs): feat_1 = self.conv_1(inputs) feat_3 = self.conv_3(inputs) feat_5 = self.conv_5(inputs) weights = self.softmax(self.weights) feat = feat_1 * weights[0] + feat_3 * weights[1] + feat_5 * weights[2] return feat def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_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 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_ptr0, out_ptr1, xnumel, rnumel, XBLOCK: tl.constexpr): rnumel = 3 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, :] rmask = rindex < rnumel r0 = rindex tmp0 = tl.load(in_ptr0 + r0, rmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(rmask, 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(rmask, tmp7, 0) tmp10 = tl.sum(tmp9, 1)[:, None] tl.store(out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp4, None) tl.store(out_ptr1 + tl.full([XBLOCK, 1], 0, tl.int32), tmp10, None) @triton.jit def triton_poi_fused_add_convolution_mul_1(in_out_ptr0, in_out_ptr1, in_out_ptr2, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, 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 // 64 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_out_ptr1 + x2, xmask) tmp4 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_out_ptr2 + x2, xmask) tmp7 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr3 + 0) tmp10 = tl.broadcast_to(tmp9, [XBLOCK]) tmp11 = tl.load(in_ptr4 + 0) tmp12 = tl.broadcast_to(tmp11, [XBLOCK]) tmp15 = tl.load(in_ptr5 + 0) tmp16 = tl.broadcast_to(tmp15, [XBLOCK]) tmp19 = tl.load(in_ptr3 + 1) tmp20 = tl.broadcast_to(tmp19, [XBLOCK]) tmp26 = tl.load(in_ptr3 + 2) tmp27 = tl.broadcast_to(tmp26, [XBLOCK]) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp8 = tmp6 + tmp7 tmp13 = tmp10 - tmp12 tmp14 = tl_math.exp(tmp13) tmp17 = tmp14 / tmp16 tmp18 = tmp2 * tmp17 tmp21 = tmp20 - tmp12 tmp22 = tl_math.exp(tmp21) tmp23 = tmp22 / tmp16 tmp24 = tmp5 * tmp23 tmp25 = tmp18 + tmp24 tmp28 = tmp27 - tmp12 tmp29 = tl_math.exp(tmp28) tmp30 = tmp29 / tmp16 tmp31 = tmp8 * tmp30 tmp32 = tmp25 + tmp31 tl.store(in_out_ptr0 + x2, tmp2, xmask) tl.store(in_out_ptr1 + x2, tmp5, xmask) tl.store(in_out_ptr2 + x2, tmp8, xmask) tl.store(out_ptr0 + x2, tmp32, xmask) def call(args): (primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8) = args args.clear() assert_size_stride(primals_1, (4, 4, 3, 3, 3), (108, 27, 9, 3, 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, 3, 3, 3), (108, 27, 9, 3, 1)) assert_size_stride(primals_5, (4,), (1,)) assert_size_stride(primals_6, (4, 4, 3, 3, 3), (108, 27, 9, 3, 1)) assert_size_stride(primals_7, (4,), (1,)) assert_size_stride(primals_8, (3,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(reinterpret_tensor(primals_3, (1, 4, 4, 4, 4), (256, 64, 16, 4, 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(buf0, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1)) buf2 = extern_kernels.convolution(reinterpret_tensor(primals_3, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0), primals_4, stride=(1, 1, 1), padding=(2, 2, 2), dilation=(2, 2, 2), transposed=False, output_padding=(0, 0, 0), groups=1, bias=None) assert_size_stride(buf2, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1)) buf4 = extern_kernels.convolution(reinterpret_tensor(primals_3, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0), primals_6, stride=(1, 1, 1), padding=(3, 3, 3), dilation=(3, 3, 3), transposed=False, output_padding=(0, 0, 0), groups=1, bias=None) assert_size_stride(buf4, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1)) buf6 = empty_strided_cuda((1,), (1,), torch.float32) buf7 = empty_strided_cuda((1,), (1,), torch.float32) get_raw_stream(0) triton_per_fused__softmax_0[grid(1)](primals_8, buf6, buf7, 1, 3, XBLOCK=1, num_warps=2, num_stages=1) buf1 = buf0 del buf0 buf3 = buf2 del buf2 buf5 = buf4 del buf4 buf8 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_add_convolution_mul_1[grid(256)](buf1, buf3, buf5, primals_2, primals_5, primals_7, primals_8, buf6, buf7, buf8, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf6 del buf7 del primals_2 del primals_5 del primals_7 return (buf8, primals_1, primals_4, primals_6, primals_8, reinterpret_tensor(primals_3, (1, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0), buf1, buf3, buf5) class SACNew(nn.Module): def __init__(self, input_channel, out_channel): super(SACNew, self).__init__() self.conv_1 = nn.Conv3d(input_channel, out_channel, kernel_size=3, stride=1, padding=1) self.conv_3 = nn.Conv3d(input_channel, out_channel, kernel_size=3, stride=1, padding=2, dilation=2) self.conv_5 = nn.Conv3d(input_channel, out_channel, kernel_size=3, stride=1, padding=3, dilation=3) self.weights = nn.Parameter(torch.ones(3)) self.softmax = nn.Softmax(0) def forward(self, input_0): primals_8 = self.weights primals_1 = self.conv_1.weight primals_2 = self.conv_1.bias primals_4 = self.conv_3.weight primals_5 = self.conv_3.bias primals_6 = self.conv_5.weight primals_7 = self.conv_5.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7, primals_8]) return output[0]	Luoxd1996/SCPM-Net	SAC	false	8,487	[ "MIT" ]	26	2039ea5253ec831dcae79c2f0caa6e5d2641a1f9	https://github.com/Luoxd1996/SCPM-Net/tree/2039ea5253ec831dcae79c2f0caa6e5d2641a1f9
GaussianKernel	# 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/en/cenijv3vrcejrgr5s7clvfakzzxg4gsnydbhg4ycwsrf256bzrlh.py # Topologically Sorted Source Nodes: [sub, pow_1, l2_distance_square, neg, mean, mul, mul_1, truediv, exp], Original ATen: [aten.sub, aten.pow, aten.sum, aten.neg, aten.mean, aten.mul, aten.div, aten.exp] # Source node to ATen node mapping: # exp => exp # l2_distance_square => sum_1 # mean => mean # mul => mul # mul_1 => mul_1 # neg => neg # pow_1 => pow_1 # sub => sub # truediv => div # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%unsqueeze, %unsqueeze_1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 2), kwargs = {}) # %sum_1 : [num_users=2] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [2]), kwargs = {}) # %neg : [num_users=1] = call_function[target=torch.ops.aten.neg.default](args = (%sum_1,), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%sum_1,), kwargs = {}) # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mean, 1.0), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, 2), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%neg, %mul_1), kwargs = {}) # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%div,), kwargs = {}) triton_per_fused_div_exp_mean_mul_neg_pow_sub_sum_0 = async_compile.triton('triton_per_fused_div_exp_mean_mul_neg_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.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_div_exp_mean_mul_neg_pow_sub_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, '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_div_exp_mean_mul_neg_pow_sub_sum_0(in_out_ptr0, in_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 % 16 r1 = (rindex // 16) % 4 r2 = (rindex // 64) r3 = rindex tmp0 = tl.load(in_ptr0 + (r0 + (64r1)), None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (r0 + (64r2)), None, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (16 + r0 + (64r1)), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (16 + r0 + (64r2)), None, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (32 + r0 + (64r1)), None, eviction_policy='evict_last') tmp10 = tl.load(in_ptr0 + (32 + r0 + (64r2)), None, eviction_policy='evict_last') tmp14 = tl.load(in_ptr0 + (48 + r0 + (64r1)), None, eviction_policy='evict_last') tmp15 = tl.load(in_ptr0 + (48 + r0 + (64r2)), None, eviction_policy='evict_last') tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp6 = tmp4 - tmp5 tmp7 = tmp6 * tmp6 tmp8 = tmp3 + tmp7 tmp11 = tmp9 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp8 + tmp12 tmp16 = tmp14 - tmp15 tmp17 = tmp16 * tmp16 tmp18 = tmp13 + tmp17 tmp19 = tl.broadcast_to(tmp18, [RBLOCK]) tmp21 = triton_helpers.promote_to_tensor(tl.sum(tmp19, 0)) tmp22 = 256.0 tmp23 = tmp21 / tmp22 tmp24 = 1.0 tmp25 = tmp23 * tmp24 tmp26 = -tmp18 tmp27 = 2.0 tmp28 = tmp25 * tmp27 tmp29 = tmp26 / tmp28 tmp30 = tl_math.exp(tmp29) tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp25, None) tl.store(out_ptr1 + (tl.broadcast_to(r3, [RBLOCK])), tmp30, 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) buf1 = empty_strided_cuda((), (), torch.float32) buf2 = buf1; del buf1 # reuse buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sub, pow_1, l2_distance_square, neg, mean, mul, mul_1, truediv, exp], Original ATen: [aten.sub, aten.pow, aten.sum, aten.neg, aten.mean, aten.mul, aten.div, aten.exp] stream0 = get_raw_stream(0) triton_per_fused_div_exp_mean_mul_neg_pow_sub_sum_0.run(buf2, arg0_1, buf3, 1, 256, grid=grid(1), stream=stream0) del arg0_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, 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 from typing import Optional import torch.nn.parallel import torch.utils.data import torch.utils.data.distributed class GaussianKernel(nn.Module): """Gaussian Kernel Matrix Gaussian Kernel k is defined by .. math:: k(x_1, x_2) = \\exp \\left( - \\dfrac{\\\| x_1 - x_2 \\\|^2}{2\\sigma^2} \\right) where :math:`x_1, x_2 \\in R^d` are 1-d tensors. Gaussian Kernel Matrix K is defined on input group :math:`X=(x_1, x_2, ..., x_m),` .. math:: K(X)_{i,j} = k(x_i, x_j) Also by default, during training this layer keeps running estimates of the mean of L2 distances, which are then used to set hyperparameter :math:`\\sigma`. Mathematically, the estimation is :math:`\\sigma^2 = \\dfrac{\\alpha}{n^2}\\sum_{i,j} \\\| x_i - x_j \\\|^2`. If :attr:`track_running_stats` is set to ``False``, this layer then does not keep running estimates, and use a fixed :math:`\\sigma` instead. Args: sigma (float, optional): bandwidth :math:`\\sigma`. Default: None track_running_stats (bool, optional): If ``True``, this module tracks the running mean of :math:`\\sigma^2`. Otherwise, it won't track such statistics and always uses fix :math:`\\sigma^2`. Default: ``True`` alpha (float, optional): :math:`\\alpha` which decides the magnitude of :math:`\\sigma^2` when track_running_stats is set to ``True`` Inputs: - X (tensor): input group :math:`X` Shape: - Inputs: :math:`(minibatch, F)` where F means the dimension of input features. - Outputs: :math:`(minibatch, minibatch)` """ def __init__(self, sigma: 'Optional[float]'=None, track_running_stats: 'Optional[bool]'=True, alpha: 'Optional[float]'=1.0): super(GaussianKernel, self).__init__() assert track_running_stats or sigma is not None self.sigma_square = torch.tensor(sigma * sigma ) if sigma is not None else None self.track_running_stats = track_running_stats self.alpha = alpha def forward(self, X: 'torch.Tensor') ->torch.Tensor: l2_distance_square = ((X.unsqueeze(0) - X.unsqueeze(1)) ** 2).sum(2) if self.track_running_stats: self.sigma_square = self.alpha * torch.mean(l2_distance_square. detach()) return torch.exp(-l2_distance_square / (2 * self.sigma_square)) 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 from typing import Optional import torch.nn.parallel import torch.utils.data import torch.utils.data.distributed 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_div_exp_mean_mul_neg_pow_sub_sum_0(in_out_ptr0, in_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 % 16 r1 = rindex // 16 % 4 r2 = rindex // 64 r3 = rindex tmp0 = tl.load(in_ptr0 + (r0 + 64 * r1), None, eviction_policy='evict_last' ) tmp1 = tl.load(in_ptr0 + (r0 + 64 * r2), None, eviction_policy='evict_last' ) tmp4 = tl.load(in_ptr0 + (16 + r0 + 64 * r1), None, eviction_policy= 'evict_last') tmp5 = tl.load(in_ptr0 + (16 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (32 + r0 + 64 * r1), None, eviction_policy= 'evict_last') tmp10 = tl.load(in_ptr0 + (32 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp14 = tl.load(in_ptr0 + (48 + r0 + 64 * r1), None, eviction_policy= 'evict_last') tmp15 = tl.load(in_ptr0 + (48 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp6 = tmp4 - tmp5 tmp7 = tmp6 * tmp6 tmp8 = tmp3 + tmp7 tmp11 = tmp9 - tmp10 tmp12 = tmp11 * tmp11 tmp13 = tmp8 + tmp12 tmp16 = tmp14 - tmp15 tmp17 = tmp16 * tmp16 tmp18 = tmp13 + tmp17 tmp19 = tl.broadcast_to(tmp18, [RBLOCK]) tmp21 = triton_helpers.promote_to_tensor(tl.sum(tmp19, 0)) tmp22 = 256.0 tmp23 = tmp21 / tmp22 tmp24 = 1.0 tmp25 = tmp23 * tmp24 tmp26 = -tmp18 tmp27 = 2.0 tmp28 = tmp25 * tmp27 tmp29 = tmp26 / tmp28 tmp30 = tl_math.exp(tmp29) tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp25, None) tl.store(out_ptr1 + tl.broadcast_to(r3, [RBLOCK]), tmp30, 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) buf1 = empty_strided_cuda((), (), torch.float32) buf2 = buf1 del buf1 buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_per_fused_div_exp_mean_mul_neg_pow_sub_sum_0[grid(1)](buf2, arg0_1, buf3, 1, 256, num_warps=2, num_stages=1) del arg0_1 return buf3, buf2 class GaussianKernelNew(nn.Module): """Gaussian Kernel Matrix Gaussian Kernel k is defined by .. math:: k(x_1, x_2) = \\exp \\left( - \\dfrac{\\\| x_1 - x_2 \\\|^2}{2\\sigma^2} \\right) where :math:`x_1, x_2 \\in R^d` are 1-d tensors. Gaussian Kernel Matrix K is defined on input group :math:`X=(x_1, x_2, ..., x_m),` .. math:: K(X)_{i,j} = k(x_i, x_j) Also by default, during training this layer keeps running estimates of the mean of L2 distances, which are then used to set hyperparameter :math:`\\sigma`. Mathematically, the estimation is :math:`\\sigma^2 = \\dfrac{\\alpha}{n^2}\\sum_{i,j} \\\| x_i - x_j \\\|^2`. If :attr:`track_running_stats` is set to ``False``, this layer then does not keep running estimates, and use a fixed :math:`\\sigma` instead. Args: sigma (float, optional): bandwidth :math:`\\sigma`. Default: None track_running_stats (bool, optional): If ``True``, this module tracks the running mean of :math:`\\sigma^2`. Otherwise, it won't track such statistics and always uses fix :math:`\\sigma^2`. Default: ``True`` alpha (float, optional): :math:`\\alpha` which decides the magnitude of :math:`\\sigma^2` when track_running_stats is set to ``True`` Inputs: - X (tensor): input group :math:`X` Shape: - Inputs: :math:`(minibatch, F)` where F means the dimension of input features. - Outputs: :math:`(minibatch, minibatch)` """ def __init__(self, sigma: 'Optional[float]'=None, track_running_stats: 'Optional[bool]'=True, alpha: 'Optional[float]'=1.0): super(GaussianKernelNew, self).__init__() assert track_running_stats or sigma is not None self.sigma_square = torch.tensor(sigma * sigma ) if sigma is not None else None self.track_running_stats = track_running_stats self.alpha = alpha def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Liuhong99/CST	GaussianKernel	false	8,488	[ "MIT" ]	20	f6653a4ee7968fa3ba875a182670636f648be783	https://github.com/Liuhong99/CST/tree/f6653a4ee7968fa3ba875a182670636f648be783
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/3n/c3nhzhjk7aymkoykq6gbqijcfovov5gt6ryr2kfsh4i7hax5glr5.py # Topologically Sorted Source Nodes: [mul, intersection, add_1, add, total, union, add_2, IoU, sub_1], Original ATen: [aten.mul, aten.sum, aten.add, aten.sub, aten.div, aten.rsub] # Source node to ATen node mapping: # IoU => div # add => add # add_1 => add_1 # add_2 => add_2 # intersection => sum_1 # mul => mul # sub_1 => sub_1 # total => sum_2 # union => sub # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view, %view_1), kwargs = {}) # %sum_1 : [num_users=2] = call_function[target=torch.ops.aten.sum.default](args = (%mul,), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_1, 1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view, %view_1), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%add,), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%sum_2, %sum_1), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sub, 1), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%add_1, %add_2), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %div), kwargs = {}) triton_per_fused_add_div_mul_rsub_sub_sum_0 = async_compile.triton('triton_per_fused_add_div_mul_rsub_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_rsub_sub_sum_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 2, '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_div_mul_rsub_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) 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 = tmp1 + tmp2 tmp8 = tl.broadcast_to(tmp7, [RBLOCK]) tmp10 = triton_helpers.promote_to_tensor(tl.sum(tmp8, 0)) tmp11 = 1.0 tmp12 = tmp6 + tmp11 tmp13 = tmp10 - tmp6 tmp14 = tmp13 + tmp11 tmp15 = tmp12 / tmp14 tmp16 = tmp11 - tmp15 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp16, 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) buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [mul, intersection, add_1, add, total, union, add_2, IoU, sub_1], Original ATen: [aten.mul, aten.sum, aten.add, aten.sub, aten.div, aten.rsub] stream0 = get_raw_stream(0) triton_per_fused_add_div_mul_rsub_sub_sum_0.run(buf2, arg0_1, arg1_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_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) 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, weight=None, size_average=True): super(IoULoss, self).__init__() def forward(self, inputs: 'torch.Tensor', targets: 'torch.Tensor', smooth: 'int'=1): inputs = torch.sigmoid(inputs) inputs = inputs.view(-1) targets = targets.view(-1) intersection = (inputs * targets).sum() total = (inputs + targets).sum() union = total - intersection IoU = (intersection + smooth) / (union + smooth) return 1 - IoU 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_per_fused_add_div_mul_rsub_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) 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 = tmp1 + tmp2 tmp8 = tl.broadcast_to(tmp7, [RBLOCK]) tmp10 = triton_helpers.promote_to_tensor(tl.sum(tmp8, 0)) tmp11 = 1.0 tmp12 = tmp6 + tmp11 tmp13 = tmp10 - tmp6 tmp14 = tmp13 + tmp11 tmp15 = tmp12 / tmp14 tmp16 = tmp11 - tmp15 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp16, 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) buf2 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_div_mul_rsub_sub_sum_0[grid(1)](buf2, arg0_1, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf2, class IoULossNew(nn.Module): def __init__(self, weight=None, size_average=True): super(IoULossNew, 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]	Latterlig96/DCUnet	IoULoss	false	8,489	[ "MIT" ]	11	87d1c137a60177d6daf1dfff0483678d5580fda0	https://github.com/Latterlig96/DCUnet/tree/87d1c137a60177d6daf1dfff0483678d5580fda0
AdaILN	# 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/cthqi3ws5pz6dxsdwhifrl55sjhbveemff7wl3je5ywfqeurh2dq.py # Topologically Sorted Source Nodes: [ln_mean, ln_var, add_1, sqrt_1], Original ATen: [aten.mean, aten.var, aten.add, aten.sqrt] # Source node to ATen node mapping: # add_1 => add_1 # ln_mean => mean_1 # ln_var => var_1 # sqrt_1 => sqrt_1 # Graph fragment: # %mean_1 : [num_users=2] = call_function[target=torch.ops.aten.mean.dim](args = (%primals_1, [1, 2, 3], True), kwargs = {}) # %var_1 : [num_users=1] = call_function[target=torch.ops.aten.var.correction](args = (%primals_1, [1, 2, 3]), kwargs = {correction: 1, keepdim: True}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%var_1, 1e-05), kwargs = {}) # %sqrt_1 : [num_users=2] = call_function[target=torch.ops.aten.sqrt.default](args = (%add_1,), kwargs = {}) triton_per_fused_add_mean_sqrt_var_0 = async_compile.triton('triton_per_fused_add_mean_sqrt_var_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=[4, 64], 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_add_mean_sqrt_var_0', 'mutated_arg_names': ['in_out_ptr0', 'in_out_ptr1'], 'no_x_dim': False, 'num_load': 1, '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_mean_sqrt_var_0(in_out_ptr0, in_out_ptr1, in_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 4 rnumel = 64 RBLOCK: tl.constexpr = 64 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 + (64x0)), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp6 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 64, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp1 - tmp12 tmp14 = tmp13 tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = 64.0 tmp20 = tmp4 / tmp19 tmp21 = 63.0 tmp22 = tmp18 / tmp21 tmp23 = 1e-05 tmp24 = tmp22 + tmp23 tmp25 = libdevice.sqrt(tmp24) tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp20, xmask) tl.debug_barrier() tl.store(in_out_ptr1 + (x0), tmp25, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/zu/czumxjxor4bsbb7vnlghf7afyemoi6y6dq2np462ijyf4gqp6vso.py # Topologically Sorted Source Nodes: [in_mean, in_var, sub, add, sqrt, out_in, sub_1, out_ln, mul, sub_2, mul_1, out], Original ATen: [aten.mean, aten.var, aten.sub, aten.add, aten.sqrt, aten.div, aten.mul, aten.rsub] # Source node to ATen node mapping: # add => add # in_mean => mean # in_var => var # mul => mul # mul_1 => mul_1 # out => add_2 # out_in => div # out_ln => div_1 # sqrt => sqrt # sub => sub # sub_1 => sub_1 # sub_2 => sub_2 # Graph fragment: # %mean : [num_users=2] = call_function[target=torch.ops.aten.mean.dim](args = (%primals_1, [2, 3], True), kwargs = {}) # %var : [num_users=1] = call_function[target=torch.ops.aten.var.correction](args = (%primals_1, [2, 3]), kwargs = {correction: 1, keepdim: True}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_1, %mean), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%var, 1e-05), kwargs = {}) # %sqrt : [num_users=2] = call_function[target=torch.ops.aten.sqrt.default](args = (%add,), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub, %sqrt), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_1, %mean_1), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub_1, %sqrt_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expand, %div), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %expand), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_2, %div_1), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %mul_1), kwargs = {}) triton_per_fused_add_div_mean_mul_rsub_sqrt_sub_var_1 = async_compile.triton('triton_per_fused_add_div_mean_mul_rsub_sqrt_sub_var_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=[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_add_div_mean_mul_rsub_sqrt_sub_var_1', '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_add_div_mean_mul_rsub_sqrt_sub_var_1(in_out_ptr0, in_out_ptr1, in_ptr0, in_ptr1, in_ptr2, in_ptr3, 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 x2 = xindex % 4 x3 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (r1 + (16x0)), xmask, other=0.0) tmp26 = tl.load(in_ptr1 + (x2), xmask, eviction_policy='evict_last') tmp32 = tl.load(in_ptr2 + (x3), xmask, eviction_policy='evict_last') tmp34 = tl.load(in_ptr3 + (x3), xmask, eviction_policy='evict_last') tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp6 = tl.broadcast_to(tmp1, [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 = tmp1 - 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 = tmp4 / tmp19 tmp21 = 15.0 tmp22 = tmp18 / tmp21 tmp23 = 1e-05 tmp24 = tmp22 + tmp23 tmp25 = libdevice.sqrt(tmp24) tmp27 = tmp0 - tmp20 tmp28 = tmp27 / tmp25 tmp29 = tmp26 * tmp28 tmp30 = 1.0 tmp31 = tmp30 - tmp26 tmp33 = tmp0 - tmp32 tmp35 = tmp33 / tmp34 tmp36 = tmp31 * tmp35 tmp37 = tmp29 + tmp36 tl.debug_barrier() tl.store(in_out_ptr0 + (x0), tmp20, xmask) tl.debug_barrier() tl.store(in_out_ptr1 + (x0), tmp25, xmask) tl.store(out_ptr0 + (r1 + (16x0)), tmp37, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/d3/cd33725lemh2f45r7wwddtmmvvs6shjc35g27z46zdsw7ix4vw5q.py # Topologically Sorted Source Nodes: [sub, out_in, sub_1, out_ln, mul, sub_2, mul_1, out, mul_2, out_1], Original ATen: [aten.sub, aten.div, aten.mul, aten.rsub, aten.add] # Source node to ATen node mapping: # mul => mul # mul_1 => mul_1 # mul_2 => mul_2 # out => add_2 # out_1 => add_3 # out_in => div # out_ln => div_1 # sub => sub # sub_1 => sub_1 # sub_2 => sub_2 # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_1, %mean), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub, %sqrt), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_1, %mean_1), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub_1, %sqrt_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expand, %div), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %expand), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_2, %div_1), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %mul_1), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_2, %unsqueeze_1), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_2, %unsqueeze_3), kwargs = {}) triton_poi_fused_add_div_mul_rsub_sub_2 = async_compile.triton('triton_poi_fused_add_div_mul_rsub_sub_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], 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_div_mul_rsub_sub_2', '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_div_mul_rsub_sub_2(in_ptr0, in_ptr1, in_ptr2, 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) x3 = xindex % 256 x0 = xindex % 16 x2 = (xindex // 256) x4 = xindex tmp0 = tl.load(in_ptr0 + (x3), None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x0 + (16x2)), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x0 + (16x2)), None, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tmp4 = tmp2 + tmp3 tl.store(out_ptr0 + (x4), tmp4, None) ''', 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, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (1, 4, 1, 1), (4, 1, 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) buf6 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf9 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf7 = reinterpret_tensor(buf6, (4, 1, 1, 1), (1, 1, 1, 1), 0); del buf6 # reuse buf11 = reinterpret_tensor(buf9, (4, 1, 1, 1), (1, 1, 1, 1), 0); del buf9 # reuse # Topologically Sorted Source Nodes: [ln_mean, ln_var, add_1, sqrt_1], Original ATen: [aten.mean, aten.var, aten.add, aten.sqrt] stream0 = get_raw_stream(0) triton_per_fused_add_mean_sqrt_var_0.run(buf7, buf11, primals_1, 4, 64, grid=grid(4), stream=stream0) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf3 = 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 buf5 = reinterpret_tensor(buf3, (4, 4, 1, 1), (4, 1, 1, 1), 0); del buf3 # reuse buf12 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [in_mean, in_var, sub, add, sqrt, out_in, sub_1, out_ln, mul, sub_2, mul_1, out], Original ATen: [aten.mean, aten.var, aten.sub, aten.add, aten.sqrt, aten.div, aten.mul, aten.rsub] triton_per_fused_add_div_mean_mul_rsub_sqrt_sub_var_1.run(buf1, buf5, primals_1, primals_2, buf7, buf11, buf12, 16, 16, grid=grid(16), stream=stream0) del primals_2 buf13 = empty_strided_cuda((4, 4, 4, 4, 4, 4), (1024, 256, 64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [sub, out_in, sub_1, out_ln, mul, sub_2, mul_1, out, mul_2, out_1], Original ATen: [aten.sub, aten.div, aten.mul, aten.rsub, aten.add] triton_poi_fused_add_div_mul_rsub_sub_2.run(buf12, primals_3, primals_4, buf13, 4096, grid=grid(4096), stream=stream0) del buf12 del primals_4 return (buf13, primals_1, primals_3, buf1, buf5, buf7, 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((4, 4, 4, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((1, 4, 1, 1), (4, 1, 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.utils.data import torch.utils.data.distributed import torch import torch.nn as nn from torch.nn.parameter import Parameter class AdaILN(nn.Module): def __init__(self, num_features, eps=1e-05): super(AdaILN, self).__init__() self.eps = eps self.rho = Parameter(torch.Tensor(1, num_features, 1, 1)) self.rho.data.fill_(0.9) def forward(self, x, gamma, beta): in_mean, in_var = torch.mean(x, dim=[2, 3], keepdim=True), torch.var(x, dim=[2, 3], keepdim=True) out_in = (x - in_mean) / torch.sqrt(in_var + self.eps) ln_mean, ln_var = torch.mean(x, dim=[1, 2, 3], keepdim=True ), torch.var(x, dim=[1, 2, 3], keepdim=True) out_ln = (x - ln_mean) / torch.sqrt(ln_var + self.eps) out = self.rho.expand(x.shape[0], -1, -1, -1) * out_in + (1 - self. rho.expand(x.shape[0], -1, -1, -1)) * out_ln out = out * gamma.unsqueeze(2).unsqueeze(3) + beta.unsqueeze(2 ).unsqueeze(3) return out 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 [[], {'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 from torch._inductor.runtime.triton_helpers import libdevice import torch.utils.data import torch.utils.data.distributed import torch import torch.nn as nn from torch.nn.parameter import Parameter 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_mean_sqrt_var_0(in_out_ptr0, in_out_ptr1, in_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 4 RBLOCK: tl.constexpr = 64 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 + 64 * x0), xmask, other=0.0) tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp6 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp8 = tl.where(xmask, tmp6, 0) tmp9 = tl.sum(tmp8, 1)[:, None] tmp10 = tl.full([XBLOCK, 1], 64, tl.int32) tmp11 = tmp10.to(tl.float32) tmp12 = tmp9 / tmp11 tmp13 = tmp1 - tmp12 tmp14 = tmp13 * tmp13 tmp15 = tl.broadcast_to(tmp14, [XBLOCK, RBLOCK]) tmp17 = tl.where(xmask, tmp15, 0) tmp18 = tl.sum(tmp17, 1)[:, None] tmp19 = 64.0 tmp20 = tmp4 / tmp19 tmp21 = 63.0 tmp22 = tmp18 / tmp21 tmp23 = 1e-05 tmp24 = tmp22 + tmp23 tmp25 = libdevice.sqrt(tmp24) tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp20, xmask) tl.debug_barrier() tl.store(in_out_ptr1 + x0, tmp25, xmask) @triton.jit def triton_per_fused_add_div_mean_mul_rsub_sqrt_sub_var_1(in_out_ptr0, in_out_ptr1, in_ptr0, in_ptr1, in_ptr2, in_ptr3, 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 x2 = xindex % 4 x3 = xindex // 4 tmp0 = tl.load(in_ptr0 + (r1 + 16 * x0), xmask, other=0.0) tmp26 = tl.load(in_ptr1 + x2, xmask, eviction_policy='evict_last') tmp32 = tl.load(in_ptr2 + x3, xmask, eviction_policy='evict_last') tmp34 = tl.load(in_ptr3 + x3, xmask, eviction_policy='evict_last') tmp1 = tl.broadcast_to(tmp0, [XBLOCK, RBLOCK]) tmp3 = tl.where(xmask, tmp1, 0) tmp4 = tl.sum(tmp3, 1)[:, None] tmp6 = tl.broadcast_to(tmp1, [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 = tmp1 - 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 = tmp4 / tmp19 tmp21 = 15.0 tmp22 = tmp18 / tmp21 tmp23 = 1e-05 tmp24 = tmp22 + tmp23 tmp25 = libdevice.sqrt(tmp24) tmp27 = tmp0 - tmp20 tmp28 = tmp27 / tmp25 tmp29 = tmp26 * tmp28 tmp30 = 1.0 tmp31 = tmp30 - tmp26 tmp33 = tmp0 - tmp32 tmp35 = tmp33 / tmp34 tmp36 = tmp31 * tmp35 tmp37 = tmp29 + tmp36 tl.debug_barrier() tl.store(in_out_ptr0 + x0, tmp20, xmask) tl.debug_barrier() tl.store(in_out_ptr1 + x0, tmp25, xmask) tl.store(out_ptr0 + (r1 + 16 * x0), tmp37, xmask) @triton.jit def triton_poi_fused_add_div_mul_rsub_sub_2(in_ptr0, in_ptr1, in_ptr2, out_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 % 256 x0 = xindex % 16 x2 = xindex // 256 x4 = xindex tmp0 = tl.load(in_ptr0 + x3, None, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x0 + 16 * x2), None, eviction_policy='evict_last' ) tmp3 = tl.load(in_ptr2 + (x0 + 16 * x2), None, eviction_policy='evict_last' ) tmp2 = tmp0 * tmp1 tmp4 = tmp2 + tmp3 tl.store(out_ptr0 + x4, tmp4, None) def call(args): primals_1, primals_2, primals_3, primals_4 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (1, 4, 1, 1), (4, 1, 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) buf6 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf9 = empty_strided_cuda((4, 1, 1, 1), (1, 4, 4, 4), torch.float32) buf7 = reinterpret_tensor(buf6, (4, 1, 1, 1), (1, 1, 1, 1), 0) del buf6 buf11 = reinterpret_tensor(buf9, (4, 1, 1, 1), (1, 1, 1, 1), 0) del buf9 get_raw_stream(0) triton_per_fused_add_mean_sqrt_var_0[grid(4)](buf7, buf11, primals_1, 4, 64, XBLOCK=1, num_warps=2, num_stages=1) buf0 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 16, 16), torch.float32) buf3 = 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 buf5 = reinterpret_tensor(buf3, (4, 4, 1, 1), (4, 1, 1, 1), 0) del buf3 buf12 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_per_fused_add_div_mean_mul_rsub_sqrt_sub_var_1[grid(16)](buf1, buf5, primals_1, primals_2, buf7, buf11, buf12, 16, 16, XBLOCK= 1, num_warps=2, num_stages=1) del primals_2 buf13 = empty_strided_cuda((4, 4, 4, 4, 4, 4), (1024, 256, 64, 16, 4, 1), torch.float32) triton_poi_fused_add_div_mul_rsub_sub_2[grid(4096)](buf12, primals_3, primals_4, buf13, 4096, XBLOCK=256, num_warps=4, num_stages=1) del buf12 del primals_4 return buf13, primals_1, primals_3, buf1, buf5, buf7, buf11 class AdaILNNew(nn.Module): def __init__(self, num_features, eps=1e-05): super(AdaILNNew, self).__init__() self.eps = eps self.rho = Parameter(torch.Tensor(1, num_features, 1, 1)) self.rho.data.fill_(0.9) def forward(self, input_0, input_1, input_2): primals_2 = self.rho primals_1 = input_0 primals_3 = input_1 primals_4 = input_2 output = call([primals_1, primals_2, primals_3, primals_4]) return output[0]	Lornatang/UGATIT_PyTorch	AdaILN	false	8,490	[ "Apache-2.0" ]	25	03519e4829b85ceee67c031a28d5a9318ac932b5	https://github.com/Lornatang/UGATIT_PyTorch/tree/03519e4829b85ceee67c031a28d5a9318ac932b5
AttentionHead	# 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/c5/cc5hodm36vyyy6mtrsd3kh6yp3wh2yz4b7xlcd53hs3fb3erko24.py # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] # Source node to ATen node mapping: # softmax => 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, [-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, 2.0), 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 = 0.5 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: [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_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): 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), (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), (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), (16, 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: [linear], Original ATen: [aten.addmm] extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (16, 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((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(primals_6, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf1) del primals_4 del primals_5 buf2 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_2], Original ATen: [aten.addmm] extern_kernels.addmm(primals_8, reinterpret_tensor(primals_9, (16, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_7 del primals_8 buf3 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [temp], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf1, (4, 4, 4), (16, 1, 4), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(buf3, buf4, 64, grid=grid(64), stream=stream0) buf5 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf4, buf5, 64, grid=grid(64), stream=stream0) buf6 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [bmm_1], Original ATen: [aten.bmm] extern_kernels.bmm(buf5, reinterpret_tensor(buf2, (4, 4, 4), (16, 4, 1), 0), out=buf6) return (buf6, reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_6, (16, 4), (4, 1), 0), reinterpret_tensor(primals_9, (16, 4), (4, 1), 0), buf5, reinterpret_tensor(buf2, (4, 4, 4), (16, 1, 4), 0), reinterpret_tensor(buf0, (4, 4, 4), (16, 1, 4), 0), reinterpret_tensor(buf1, (4, 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, 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), (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), (16, 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 Tensor import torch.optim.lr_scheduler import torch.nn as nn import torch.nn.functional as F import torch.optim import torch.onnx.operators def scaled_dot_product_attention(query: 'Tensor', key: 'Tensor', value: 'Tensor') ->Tensor: temp = query.bmm(key.transpose(1, 2)) scale = query.size(-1) ** 0.5 softmax = F.softmax(temp / scale, dim=-1) return softmax.bmm(value) class AttentionHead(nn.Module): def __init__(self, dim_in: 'int', dim_k: 'int', dim_v: 'int'): super().__init__() self.q = nn.Linear(dim_in, dim_k) self.k = nn.Linear(dim_in, dim_k) self.v = nn.Linear(dim_in, dim_v) def forward(self, query: 'Tensor', key: 'Tensor', value: 'Tensor' ) ->Tensor: return scaled_dot_product_attention(self.q(query), self.k(key), self.v(value)) def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4]) ] def get_init_inputs(): return [[], {'dim_in': 4, 'dim_k': 4, 'dim_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 math as tl_math from torch import Tensor import torch.optim.lr_scheduler import torch.nn as nn import torch.nn.functional as F import torch.optim import torch.onnx.operators 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 = 0.5 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): (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), (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), (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), (16, 4, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (16, 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((16, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(primals_6, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0 ), alpha=1, beta=1, out=buf1) del primals_4 del primals_5 buf2 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_8, reinterpret_tensor(primals_9, (16, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0 ), alpha=1, beta=1, out=buf2) del primals_7 del primals_8 buf3 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf1, (4, 4, 4), (16, 1, 4), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(64)](buf3, buf4, 64, XBLOCK=64, num_warps=1, num_stages=1) buf5 = buf3 del buf3 triton_poi_fused__softmax_1[grid(64)](buf4, buf5, 64, XBLOCK=64, num_warps=1, num_stages=1) buf6 = buf4 del buf4 extern_kernels.bmm(buf5, reinterpret_tensor(buf2, (4, 4, 4), (16, 4, 1), 0), out=buf6) return buf6, reinterpret_tensor(primals_3, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_6, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_9, (16, 4), (4, 1), 0 ), buf5, reinterpret_tensor(buf2, (4, 4, 4), (16, 1, 4), 0 ), reinterpret_tensor(buf0, (4, 4, 4), (16, 1, 4), 0 ), reinterpret_tensor(buf1, (4, 4, 4), (16, 4, 1), 0) def scaled_dot_product_attention(query: 'Tensor', key: 'Tensor', value: 'Tensor') ->Tensor: temp = query.bmm(key.transpose(1, 2)) scale = query.size(-1) ** 0.5 softmax = F.softmax(temp / scale, dim=-1) return softmax.bmm(value) class AttentionHeadNew(nn.Module): def __init__(self, dim_in: 'int', dim_k: 'int', dim_v: 'int'): super().__init__() self.q = nn.Linear(dim_in, dim_k) self.k = nn.Linear(dim_in, dim_k) self.v = nn.Linear(dim_in, dim_v) def forward(self, input_0, input_1, input_2): primals_1 = self.q.weight primals_2 = self.q.bias primals_4 = self.k.weight primals_5 = self.k.bias primals_7 = self.v.weight primals_8 = self.v.bias primals_3 = input_0 primals_6 = input_1 primals_9 = 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]	LogIntelligence/LogADEmpirical	AttentionHead	false	8,491	[ "MIT" ]	11	48458aee65c1c84466b04dd4092fae79a7f341fd	https://github.com/LogIntelligence/LogADEmpirical/tree/48458aee65c1c84466b04dd4092fae79a7f341fd
PatchToPatchEdgeConvolution	# 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/lg/clgvalhvo7ygyvwhczo52ybtcvk6b7yiltaj5x7jlylvvui4lb63.py # Topologically Sorted Source Nodes: [batch_edge_idcs], Original ATen: [aten.zeros] # Source node to ATen node mapping: # batch_edge_idcs => full # Graph fragment: # %full : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 4], 0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) triton_poi_fused_zeros_0 = async_compile.triton('triton_poi_fused_zeros_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: '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_zeros_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_zeros_0(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 = 0.0 tl.store(out_ptr0 + (x0), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/zp/czp73p6psv7ch6fl3kwwz2ybx3birwwyi2azbsa6qs42ju5qealv.py # Topologically Sorted Source Nodes: [eq, batch_edge_idcs_2, row_sum, inv, setitem], Original ATen: [aten.eq, aten._to_copy, aten.sum, aten.reciprocal, aten.mul, aten.lift_fresh, aten.index_put] # Source node to ATen node mapping: # batch_edge_idcs_2 => convert_element_type # eq => eq # inv => mul, reciprocal # row_sum => sum_1 # setitem => full_default, index_put # Graph fragment: # %eq : [num_users=1] = call_function[target=torch.ops.aten.eq.Scalar](args = (%permute_11, 2.0), kwargs = {}) # %convert_element_type : [num_users=2] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%eq, torch.float32), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%convert_element_type, [1]), kwargs = {}) # %reciprocal : [num_users=1] = call_function[target=torch.ops.aten.reciprocal.default](args = (%sum_1,), kwargs = {}) # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%reciprocal, 1.0), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cpu, pin_memory: False}) # %index_put : [num_users=1] = call_function[target=torch.ops.aten.index_put_.default](args = (%mul, [%isinf], %full_default), kwargs = {}) triton_poi_fused__to_copy_eq_index_put_lift_fresh_mul_reciprocal_sum_1 = async_compile.triton('triton_poi_fused__to_copy_eq_index_put_lift_fresh_mul_reciprocal_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=[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__to_copy_eq_index_put_lift_fresh_mul_reciprocal_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__to_copy_eq_index_put_lift_fresh_mul_reciprocal_sum_1(in_ptr0, out_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_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp1 = 2.0 tmp2 = tmp0 == tmp1 tmp3 = tmp2.to(tl.float32) tmp5 = tmp4 == tmp1 tmp6 = tmp5.to(tl.float32) tmp7 = tmp3 + tmp6 tmp9 = tmp8 == tmp1 tmp10 = tmp9.to(tl.float32) tmp11 = tmp7 + tmp10 tmp13 = tmp12 == tmp1 tmp14 = tmp13.to(tl.float32) tmp15 = tmp11 + tmp14 tmp16 = tl.full([1], 1, tl.int32) tmp17 = tmp16 / tmp15 tmp18 = 1.0 tmp19 = tmp17 * tmp18 tmp20 = libdevice.isinf(tmp19).to(tl.int1) tmp21 = 0.0 tmp22 = tl.where(tmp20, tmp21, tmp19) tl.store(out_ptr0 + (x0), tmp22, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/qz/cqzvcq6hyo636fyn6n4po46nua32cearyebor3w5tumkhdovphzr.py # Topologically Sorted Source Nodes: [eq, batch_edge_idcs_2, batch_edge_idcs_3], Original ATen: [aten.eq, aten._to_copy, aten.mul] # Source node to ATen node mapping: # batch_edge_idcs_2 => convert_element_type # batch_edge_idcs_3 => mul_1 # eq => eq # Graph fragment: # %eq : [num_users=1] = call_function[target=torch.ops.aten.eq.Scalar](args = (%permute_11, 2.0), kwargs = {}) # %convert_element_type : [num_users=2] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%eq, torch.float32), kwargs = {}) # %mul_1 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convert_element_type, %view_1), kwargs = {}) triton_poi_fused__to_copy_eq_mul_2 = async_compile.triton('triton_poi_fused__to_copy_eq_mul_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__to_copy_eq_mul_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__to_copy_eq_mul_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 x1 = (xindex // 4) tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp4 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp1 = 2.0 tmp2 = tmp0 == tmp1 tmp3 = tmp2.to(tl.float32) tmp5 = tmp3 * tmp4 tl.store(in_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, primals_6 = 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, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, 4), (4, 1)) assert_size_stride(primals_6, (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: [batch_edge_idcs], Original ATen: [aten.zeros] stream0 = get_raw_stream(0) triton_poi_fused_zeros_0.run(buf0, 16, grid=grid(16), stream=stream0) # Topologically Sorted Source Nodes: [batch_edge_idcs], Original ATen: [aten._sparse_addmm] buf1 = torch.ops.aten._sparse_addmm.default(reinterpret_tensor(buf0, (4, 4), (1, 4), 0), primals_2, primals_1, beta=0) del primals_1 del primals_2 buf2 = buf1 del buf1 # Topologically Sorted Source Nodes: [_sparse_mm_1], Original ATen: [aten._sparse_addmm] buf3 = torch.ops.aten._sparse_addmm.default(reinterpret_tensor(buf0, (4, 4), (1, 4), 0), buf2, primals_3, beta=0) del primals_3 buf4 = buf3 del buf3 buf5 = empty_strided_cuda((4, ), (1, ), torch.float32) # Topologically Sorted Source Nodes: [eq, batch_edge_idcs_2, row_sum, inv, setitem], Original ATen: [aten.eq, aten._to_copy, aten.sum, aten.reciprocal, aten.mul, aten.lift_fresh, aten.index_put] triton_poi_fused__to_copy_eq_index_put_lift_fresh_mul_reciprocal_sum_1.run(buf4, buf5, 4, grid=grid(4), stream=stream0) buf6 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [eq, batch_edge_idcs_2, batch_edge_idcs_3], Original ATen: [aten.eq, aten._to_copy, aten.mul] triton_poi_fused__to_copy_eq_mul_2.run(buf6, buf5, 16, grid=grid(16), stream=stream0) del buf5 buf7 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.addmm(primals_6, primals_5, primals_4, alpha=1, beta=1, out=buf7) del primals_4 del primals_6 buf8 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [h], Original ATen: [aten.mm] extern_kernels.mm(buf6, buf7, out=buf8) del buf7 return (buf8, reinterpret_tensor(buf6, (4, 4), (1, 4), 0), reinterpret_tensor(primals_5, (4, 4), (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, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4), (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, 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 math import torch import torch.nn as nn import torch.sparse as sp class PatchToPatchEdgeConvolution(nn.Module): def __init__(self, in_features, out_features): super(PatchToPatchEdgeConvolution, self).__init__() self.weight = nn.parameter.Parameter(torch.FloatTensor(in_features, out_features)) self.bias = nn.parameter.Parameter(torch.FloatTensor(out_features)) self.reset_parameters() def reset_parameters(self): stdv = 1.0 / math.sqrt(self.weight.size(1)) self.weight.data.uniform_(-stdv, stdv) if self.bias is not None: self.bias.data.uniform_(-stdv, stdv) def forward(self, edge_nodes, adj_matrix, inc_matrix, edge_feats): """ :param edge_nodes: Matrix indicating the nodes which each edge in the batch connects. Shape [B, N] :param adj_matrix: Sparse adjacency matrix of the graph of shape [N, N]. Must contain only 1-entries (i.e. should not be normalised). :param inc_matrix: Sparse incidence matrix of the graph of shape [N, E]. :param edge_feats: Features of all edges in the graph. Shape [E, D]. :return: Hidden representation of shape [B, K]. """ batch_edge_idcs = sp.mm(adj_matrix.transpose(1, 0), edge_nodes. transpose(1, 0)) batch_edge_idcs = sp.mm(inc_matrix.transpose(1, 0), batch_edge_idcs ).transpose(1, 0) batch_edge_idcs = (batch_edge_idcs == 2.0).float() row_sum = torch.sum(batch_edge_idcs, dim=1) inv = 1.0 / row_sum inv[torch.isinf(inv)] = 0.0 batch_edge_idcs = batch_edge_idcs * inv.view(-1, 1) h_edges = torch.mm(edge_feats, self.weight) + self.bias h = torch.spmm(batch_edge_idcs, h_edges) return h def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4]), torch.rand([4, 4]), torch.rand([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 import 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_zeros_0(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 = 0.0 tl.store(out_ptr0 + x0, tmp0, xmask) @triton.jit def triton_poi_fused__to_copy_eq_index_put_lift_fresh_mul_reciprocal_sum_1( in_ptr0, out_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_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (1 + 4 * x0), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (2 + 4 * x0), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr0 + (3 + 4 * x0), xmask, eviction_policy='evict_last' ) tmp1 = 2.0 tmp2 = tmp0 == tmp1 tmp3 = tmp2.to(tl.float32) tmp5 = tmp4 == tmp1 tmp6 = tmp5.to(tl.float32) tmp7 = tmp3 + tmp6 tmp9 = tmp8 == tmp1 tmp10 = tmp9.to(tl.float32) tmp11 = tmp7 + tmp10 tmp13 = tmp12 == tmp1 tmp14 = tmp13.to(tl.float32) tmp15 = tmp11 + tmp14 tmp16 = tl.full([1], 1, tl.int32) tmp17 = tmp16 / tmp15 tmp18 = 1.0 tmp19 = tmp17 * tmp18 tmp20 = libdevice.isinf(tmp19).to(tl.int1) tmp21 = 0.0 tmp22 = tl.where(tmp20, tmp21, tmp19) tl.store(out_ptr0 + x0, tmp22, xmask) @triton.jit def triton_poi_fused__to_copy_eq_mul_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 x1 = xindex // 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp4 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp1 = 2.0 tmp2 = tmp0 == tmp1 tmp3 = tmp2.to(tl.float32) tmp5 = tmp3 * tmp4 tl.store(in_out_ptr0 + x2, tmp5, 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, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_4, (4, 4), (4, 1)) assert_size_stride(primals_5, (4, 4), (4, 1)) assert_size_stride(primals_6, (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_zeros_0[grid(16)](buf0, 16, XBLOCK=16, num_warps=1, num_stages=1) buf1 = torch.ops.aten._sparse_addmm.default(reinterpret_tensor(buf0, (4, 4), (1, 4), 0), primals_2, primals_1, beta=0) del primals_1 del primals_2 buf2 = buf1 del buf1 buf3 = torch.ops.aten._sparse_addmm.default(reinterpret_tensor(buf0, (4, 4), (1, 4), 0), buf2, primals_3, beta=0) del primals_3 buf4 = buf3 del buf3 buf5 = empty_strided_cuda((4,), (1,), torch.float32) triton_poi_fused__to_copy_eq_index_put_lift_fresh_mul_reciprocal_sum_1[ grid(4)](buf4, buf5, 4, XBLOCK=4, num_warps=1, num_stages=1) buf6 = buf4 del buf4 triton_poi_fused__to_copy_eq_mul_2[grid(16)](buf6, buf5, 16, XBLOCK =16, num_warps=1, num_stages=1) del buf5 buf7 = buf2 del buf2 extern_kernels.addmm(primals_6, primals_5, primals_4, alpha=1, beta =1, out=buf7) del primals_4 del primals_6 buf8 = buf0 del buf0 extern_kernels.mm(buf6, buf7, out=buf8) del buf7 return buf8, reinterpret_tensor(buf6, (4, 4), (1, 4), 0 ), reinterpret_tensor(primals_5, (4, 4), (1, 4), 0) class PatchToPatchEdgeConvolutionNew(nn.Module): def __init__(self, in_features, out_features): super(PatchToPatchEdgeConvolutionNew, self).__init__() self.weight = nn.parameter.Parameter(torch.FloatTensor(in_features, out_features)) self.bias = nn.parameter.Parameter(torch.FloatTensor(out_features)) self.reset_parameters() def reset_parameters(self): stdv = 1.0 / math.sqrt(self.weight.size(1)) self.weight.data.uniform_(-stdv, stdv) if self.bias is not None: self.bias.data.uniform_(-stdv, stdv) def forward(self, input_0, input_1, input_2, input_3): primals_1 = self.weight primals_6 = self.bias primals_2 = input_0 primals_3 = input_1 primals_4 = input_2 primals_5 = input_3 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return output[0]	Lujian-123321/gcn-	PatchToPatchEdgeConvolution	false	8,492	[ "MIT" ]	12	8f3a0a1d979bc7f075352e194e1e39687f0b12ab	https://github.com/Lujian-123321/gcn-/tree/8f3a0a1d979bc7f075352e194e1e39687f0b12ab
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/yt/cytnyxjh3dotvphcnkxlzf4zhtuvmnhwb47n4t6f4qebc4gd6xd3.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 # add_1 => add_1 # mul => mul # mul_1 => mul_1 # mul_2 => mul_2 # mul_3 => mul_3 # pow_1 => pow_1 # tanh => tanh # Graph fragment: # %mul : [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_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%pow_1, 0.044715), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_1, %mul_1), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add, 0.7978845608028654), kwargs = {}) # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%mul_2,), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%tanh, 1), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul, %add_1), kwargs = {}) triton_poi_fused_add_mul_pow_tanh_0 = async_compile.triton('triton_poi_fused_add_mul_pow_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_add_mul_pow_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_add_mul_pow_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 = 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') 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, (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((64, 4), (4, 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, 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, pow_1, mul_1, add, mul_2, tanh, add_1, mul_3], Original ATen: [aten.mul, aten.pow, aten.add, aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_add_mul_pow_tanh_0.run(buf0, buf1, 256, grid=grid(256), stream=stream0) buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 return (reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf0, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), 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) 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 math import torch import torch.optim.lr_scheduler import torch.nn as nn import torch.optim import torch.onnx.operators class GELU(nn.Module): """ Paper Section 3.4, last paragraph notice that BERT used the GELU instead of RELU """ def forward(self, x): return 0.5 * x * (1 + torch.tanh(math.sqrt(2 / math.pi) * (x + 0.044715 * torch.pow(x, 3)))) class PositionwiseFeedForward(nn.Module): """Implements FFN equation.""" 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.dropout = nn.Dropout(dropout) self.activation = GELU() def forward(self, x): return self.w_2(self.dropout(self.activation(self.w_1(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.optim.lr_scheduler import torch.nn as nn import torch.optim import torch.onnx.operators 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_pow_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 = 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) 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, (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((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_add_mul_pow_tanh_0[grid(256)](buf0, buf1, 256, XBLOCK=128, num_warps=4, num_stages=1) buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 return reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), buf0, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), primals_4 class GELU(nn.Module): """ Paper Section 3.4, last paragraph notice that BERT used the GELU instead of RELU """ def forward(self, x): return 0.5 * x * (1 + torch.tanh(math.sqrt(2 / math.pi) * (x + 0.044715 * torch.pow(x, 3)))) class PositionwiseFeedForwardNew(nn.Module): """Implements FFN equation.""" 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.dropout = nn.Dropout(dropout) self.activation = GELU() def forward(self, input_0): primals_1 = self.w_1.weight primals_2 = self.w_1.bias primals_4 = self.w_2.weight primals_5 = self.w_2.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	LogIntelligence/LogADEmpirical	PositionwiseFeedForward	false	8,493	[ "MIT" ]	11	48458aee65c1c84466b04dd4092fae79a7f341fd	https://github.com/LogIntelligence/LogADEmpirical/tree/48458aee65c1c84466b04dd4092fae79a7f341fd
LeastSquaresGenerativeAdversarialLoss	# 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/ip/cippvy5en4qn5d6dgbs7ruqmunzdbptkyopaf7msrila2v37y4wk.py # Topologically Sorted Source Nodes: [label, mse_loss], Original ATen: [aten.ones_like, aten.mse_loss] # Source node to ATen node mapping: # label => full_default # mse_loss => mean, pow_1, sub # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 4, 4, 4], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %full_default), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 2), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%pow_1,), kwargs = {}) triton_per_fused_mse_loss_ones_like_0 = async_compile.triton('triton_per_fused_mse_loss_ones_like_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: '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_mse_loss_ones_like_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, '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_mse_loss_ones_like_0(in_out_ptr0, in_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 = 1.0 tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp7 = 256.0 tmp8 = tmp6 / tmp7 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp8, 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) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [label, mse_loss], Original ATen: [aten.ones_like, aten.mse_loss] stream0 = get_raw_stream(0) triton_per_fused_mse_loss_ones_like_0.run(buf1, arg0_1, 1, 256, grid=grid(1), 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.nn.parallel import torch.utils.data import torch.utils.data.distributed class LeastSquaresGenerativeAdversarialLoss(nn.Module): """ Loss for `Least Squares Generative Adversarial Network (LSGAN) <https://arxiv.org/abs/1611.04076>`_ Args: reduction (str, optional): Specifies the reduction to apply to the output: ``'none'`` \| ``'mean'`` \| ``'sum'``. ``'none'``: no reduction will be applied, ``'mean'``: the sum of the output will be divided by the number of elements in the output, ``'sum'``: the output will be summed. Default: ``'mean'`` Inputs: - prediction (tensor): unnormalized discriminator predictions - real (bool): if the ground truth label is for real images or fake images. Default: true .. warning:: Do not use sigmoid as the last layer of Discriminator. """ def __init__(self, reduction='mean'): super(LeastSquaresGenerativeAdversarialLoss, self).__init__() self.mse_loss = nn.MSELoss(reduction=reduction) def forward(self, prediction, real=True): if real: label = torch.ones_like(prediction) else: label = torch.zeros_like(prediction) return self.mse_loss(prediction, label) 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 import torch.nn.parallel import torch.utils.data import torch.utils.data.distributed 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_mse_loss_ones_like_0(in_out_ptr0, in_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 = 1.0 tmp2 = tmp0 - tmp1 tmp3 = tmp2 * tmp2 tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp7 = 256.0 tmp8 = tmp6 / tmp7 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp8, 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) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_mse_loss_ones_like_0[grid(1)](buf1, arg0_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 return buf1, class LeastSquaresGenerativeAdversarialLossNew(nn.Module): """ Loss for `Least Squares Generative Adversarial Network (LSGAN) <https://arxiv.org/abs/1611.04076>`_ Args: reduction (str, optional): Specifies the reduction to apply to the output: ``'none'`` \| ``'mean'`` \| ``'sum'``. ``'none'``: no reduction will be applied, ``'mean'``: the sum of the output will be divided by the number of elements in the output, ``'sum'``: the output will be summed. Default: ``'mean'`` Inputs: - prediction (tensor): unnormalized discriminator predictions - real (bool): if the ground truth label is for real images or fake images. Default: true .. warning:: Do not use sigmoid as the last layer of Discriminator. """ def __init__(self, reduction='mean'): super(LeastSquaresGenerativeAdversarialLossNew, self).__init__() self.mse_loss = nn.MSELoss(reduction=reduction) def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Liuhong99/CST	LeastSquaresGenerativeAdversarialLoss	false	8,494	[ "MIT" ]	20	f6653a4ee7968fa3ba875a182670636f648be783	https://github.com/Liuhong99/CST/tree/f6653a4ee7968fa3ba875a182670636f648be783
FastGuidedFilter	# 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/pg/cpg5ebxlkd4ihhzctgpj3twgy3pbpkdvi56ohhbgugdm4yaft6im.py # Topologically Sorted Source Nodes: [mul, kernel_x, x, kernel_x_1, x_2, mul_2], Original ATen: [aten.mul, aten.full, aten.convolution] # Source node to ATen node mapping: # kernel_x => full_default # kernel_x_1 => full_default_2 # mul => mul # mul_2 => mul_2 # x => convolution # x_2 => convolution_2 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 1, 1, 9], 0.1111111111111111), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%arg0_1, %full_default, None, [1, 1], [0, 4], [1, 1], False, [0, 0], 4), kwargs = {}) # %full_default_2 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 1, 1, 9], 0.1111111111111111), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%arg1_1, %full_default_2, None, [1, 1], [0, 4], [1, 1], False, [0, 0], 4), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg0_1, %arg0_1), kwargs = {}) triton_poi_fused_convolution_full_mul_0 = async_compile.triton('triton_poi_fused_convolution_full_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, 16], tile_hint=TileHint.DEFAULT, 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_poi_fused_convolution_full_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_convolution_full_mul_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, 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 y3 = yindex y0 = yindex % 4 y1 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x2 + (16y3)), xmask & ymask) tmp1 = tl.load(in_ptr1 + (x2 + (16y3)), xmask & ymask) tmp2 = tmp0 * tmp1 tmp3 = tmp0 * tmp0 tl.store(out_ptr0 + (y0 + (4x2) + (64y1)), tmp2, xmask & ymask) tl.store(out_ptr1 + (y0 + (4x2) + (64y1)), tmp0, xmask & ymask) tl.store(out_ptr2 + (y0 + (4x2) + (64y1)), tmp3, xmask & ymask) tl.store(out_ptr3 + (y0 + (4x2) + (64y1)), tmp1, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/am/cameigl5tamgzxcncmsme47osbzr4lmiovyqaeehisu7vymo2ra7.py # Topologically Sorted Source Nodes: [kernel_x_2], Original ATen: [aten.full] # Source node to ATen node mapping: # kernel_x_2 => full_default_4 # Graph fragment: # %full_default_4 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 1, 1, 9], 0.1111111111111111), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) triton_poi_fused_full_1 = async_compile.triton('triton_poi_fused_full_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: '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,), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_full_1', '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_full_1(out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 36 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = 0.1111111111111111 tl.store(out_ptr0 + (x0), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/cn/ccn4ks6wixov7u4uir2w5ofcr35xhr5tnrjk2lkk3y6fdgjdnnnk.py # Topologically Sorted Source Nodes: [mul_1, cov_xy, mul_3, var_x, add, A, A_1, mul_5, mul_4, b, b_1, add_1], Original ATen: [aten.mul, aten.sub, aten.add, aten.div, aten._to_copy, aten.arange, aten.clamp, aten._unsafe_index] # Source node to ATen node mapping: # A => div # A_1 => _unsafe_index, _unsafe_index_1, _unsafe_index_2, _unsafe_index_3, add_3, add_5, add_6, add_7, clamp_max_2, clamp_max_3, clamp_min_1, clamp_min_2, clamp_min_3, convert_element_type_1, convert_element_type_2, convert_element_type_3, iota_1, mul_6, mul_7, mul_8, mul_9, sub_4, sub_5, sub_6, sub_7, sub_8, sub_9 # add => add # add_1 => add_15 # b => sub_2 # b_1 => _unsafe_index_4, _unsafe_index_5, _unsafe_index_6, _unsafe_index_7, add_10, add_12, add_13, add_14, clamp_max_6, clamp_max_7, clamp_min_5, clamp_min_6, clamp_min_7, convert_element_type_5, convert_element_type_6, convert_element_type_7, iota_3, mul_11, mul_12, mul_13, mul_14, sub_11, sub_12, sub_13, sub_14, sub_15, sub_16 # cov_xy => sub # mul_1 => mul_1 # mul_3 => mul_3 # mul_4 => mul_4 # mul_5 => mul_15 # var_x => sub_1 # Graph fragment: # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution_1, %convolution_3), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%convolution_5, %mul_1), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution_1, %convolution_1), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%convolution_7, %mul_3), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sub_1, 1e-05), kwargs = {}) # %div : [num_users=5] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub, %add), kwargs = {}) # %convert_element_type_1 : [num_users=4] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%view, torch.int64), kwargs = {}) # %iota_1 : [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}) # %convert_element_type_2 : [num_users=1] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%iota_1, torch.float32), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%convert_element_type_2, 0.5), kwargs = {}) # %mul_6 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_3, 1.0), kwargs = {}) # %sub_4 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul_6, 0.5), kwargs = {}) # %clamp_min_1 : [num_users=2] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sub_4, 0.0), kwargs = {}) # %convert_element_type_3 : [num_users=4] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%clamp_min_1, torch.int64), kwargs = {}) # %_unsafe_index_3 : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%div, [None, None, %clamp_max, %clamp_max_1]), kwargs = {}) # %_unsafe_index_2 : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%div, [None, None, %clamp_max, %convert_element_type_3]), kwargs = {}) # %sub_7 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%_unsafe_index_3, %_unsafe_index_2), kwargs = {}) # %sub_5 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%clamp_min_1, %convert_element_type_3), kwargs = {}) # %clamp_min_2 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sub_5, 0.0), kwargs = {}) # %clamp_max_2 : [num_users=2] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min_2, 1.0), kwargs = {}) # %mul_8 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_7, %clamp_max_2), kwargs = {}) # %add_6 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%_unsafe_index_2, %mul_8), kwargs = {}) # %_unsafe_index_1 : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%div, [None, None, %convert_element_type_1, %clamp_max_1]), kwargs = {}) # %_unsafe_index : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%div, [None, None, %convert_element_type_1, %convert_element_type_3]), kwargs = {}) # %sub_6 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%_unsafe_index_1, %_unsafe_index), kwargs = {}) # %mul_7 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_6, %clamp_max_2), kwargs = {}) # %add_5 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%_unsafe_index, %mul_7), kwargs = {}) # %sub_9 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_6, %add_5), kwargs = {}) # %sub_8 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view, %convert_element_type_1), kwargs = {}) # %clamp_min_3 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sub_8, 0.0), kwargs = {}) # %clamp_max_3 : [num_users=1] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min_3, 1.0), kwargs = {}) # %mul_9 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_9, %clamp_max_3), kwargs = {}) # %add_7 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_5, %mul_9), kwargs = {}) # %mul_15 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_7, %arg2_1), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%div, %convolution_1), kwargs = {}) # %sub_2 : [num_users=4] = call_function[target=torch.ops.aten.sub.Tensor](args = (%convolution_3, %mul_4), kwargs = {}) # %convert_element_type_5 : [num_users=4] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%view_2, torch.int64), kwargs = {}) # %iota_3 : [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}) # %convert_element_type_6 : [num_users=1] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%iota_3, torch.float32), kwargs = {}) # %add_10 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%convert_element_type_6, 0.5), kwargs = {}) # %mul_11 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_10, 1.0), kwargs = {}) # %sub_11 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul_11, 0.5), kwargs = {}) # %clamp_min_5 : [num_users=2] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sub_11, 0.0), kwargs = {}) # %convert_element_type_7 : [num_users=4] = call_function[target=torch.ops.prims.convert_element_type.default](args = (%clamp_min_5, torch.int64), kwargs = {}) # %_unsafe_index_7 : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%sub_2, [None, None, %clamp_max_4, %clamp_max_5]), kwargs = {}) # %_unsafe_index_6 : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%sub_2, [None, None, %clamp_max_4, %convert_element_type_7]), kwargs = {}) # %sub_14 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%_unsafe_index_7, %_unsafe_index_6), kwargs = {}) # %sub_12 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%clamp_min_5, %convert_element_type_7), kwargs = {}) # %clamp_min_6 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sub_12, 0.0), kwargs = {}) # %clamp_max_6 : [num_users=2] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min_6, 1.0), kwargs = {}) # %mul_13 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_14, %clamp_max_6), kwargs = {}) # %add_13 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%_unsafe_index_6, %mul_13), kwargs = {}) # %_unsafe_index_5 : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%sub_2, [None, None, %convert_element_type_5, %clamp_max_5]), kwargs = {}) # %_unsafe_index_4 : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%sub_2, [None, None, %convert_element_type_5, %convert_element_type_7]), kwargs = {}) # %sub_13 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%_unsafe_index_5, %_unsafe_index_4), kwargs = {}) # %mul_12 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_13, %clamp_max_6), kwargs = {}) # %add_12 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%_unsafe_index_4, %mul_12), kwargs = {}) # %sub_16 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_13, %add_12), kwargs = {}) # %sub_15 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_2, %convert_element_type_5), kwargs = {}) # %clamp_min_7 : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%sub_15, 0.0), kwargs = {}) # %clamp_max_7 : [num_users=1] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min_7, 1.0), kwargs = {}) # %mul_14 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub_16, %clamp_max_7), kwargs = {}) # %add_14 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_12, %mul_14), kwargs = {}) # %add_15 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_15, %add_14), kwargs = {}) triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_div_mul_sub_2 = async_compile.triton('triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_div_mul_sub_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: '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__to_copy__unsafe_index_add_arange_clamp_div_mul_sub_2', 'mutated_arg_names': ['in_out_ptr2'], '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__unsafe_index_add_arange_clamp_div_mul_sub_2(in_out_ptr2, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 4) % 4 x0 = xindex % 4 x2 = (xindex // 16) % 4 x3 = (xindex // 64) x5 = xindex tmp97 = tl.load(in_ptr4 + (x5), xmask) tmp0 = x1 tmp1 = tmp0.to(tl.float32) tmp2 = 0.5 tmp3 = tmp1 + tmp2 tmp4 = 1.0 tmp5 = tmp3 * tmp4 tmp6 = tmp5 - tmp2 tmp7 = 0.0 tmp8 = triton_helpers.maximum(tmp6, tmp7) tmp9 = tmp8.to(tl.int32) tmp10 = tl.full([1], 1, tl.int64) tmp11 = tmp9 + tmp10 tmp12 = tl.full([1], 3, tl.int64) tmp13 = triton_helpers.minimum(tmp11, tmp12) tmp14 = x0 tmp15 = tmp14.to(tl.float32) tmp16 = tmp15 + tmp2 tmp17 = tmp16 * tmp4 tmp18 = tmp17 - tmp2 tmp19 = triton_helpers.maximum(tmp18, tmp7) tmp20 = tmp19.to(tl.int32) tmp21 = tmp20 + tmp10 tmp22 = triton_helpers.minimum(tmp21, tmp12) tmp23 = tl.load(in_ptr0 + (x2 + (4tmp22) + (16tmp13) + (64x3)), xmask, eviction_policy='evict_last') tmp24 = tl.load(in_ptr1 + (x2 + (4tmp22) + (16tmp13) + (64x3)), xmask, eviction_policy='evict_last') tmp25 = tl.load(in_ptr2 + (x2 + (4tmp22) + (16tmp13) + (64x3)), xmask, eviction_policy='evict_last') tmp26 = tmp24 tmp25 tmp27 = tmp23 - tmp26 tmp28 = tl.load(in_ptr3 + (x2 + (4tmp22) + (16tmp13) + (64x3)), xmask, eviction_policy='evict_last') tmp29 = tmp24 tmp24 tmp30 = tmp28 - tmp29 tmp31 = 1e-05 tmp32 = tmp30 + tmp31 tmp33 = tmp27 / tmp32 tmp34 = tl.load(in_ptr0 + (x2 + (4tmp20) + (16tmp13) + (64x3)), xmask, eviction_policy='evict_last') tmp35 = tl.load(in_ptr1 + (x2 + (4tmp20) + (16tmp13) + (64x3)), xmask, eviction_policy='evict_last') tmp36 = tl.load(in_ptr2 + (x2 + (4tmp20) + (16tmp13) + (64x3)), xmask, eviction_policy='evict_last') tmp37 = tmp35 tmp36 tmp38 = tmp34 - tmp37 tmp39 = tl.load(in_ptr3 + (x2 + (4tmp20) + (16tmp13) + (64x3)), xmask, eviction_policy='evict_last') tmp40 = tmp35 tmp35 tmp41 = tmp39 - tmp40 tmp42 = tmp41 + tmp31 tmp43 = tmp38 / tmp42 tmp44 = tl.load(in_ptr0 + (x2 + (4tmp22) + (16tmp9) + (64x3)), xmask, eviction_policy='evict_last') tmp45 = tl.load(in_ptr1 + (x2 + (4tmp22) + (16tmp9) + (64x3)), xmask, eviction_policy='evict_last') tmp46 = tl.load(in_ptr2 + (x2 + (4tmp22) + (16tmp9) + (64x3)), xmask, eviction_policy='evict_last') tmp47 = tmp45 tmp46 tmp48 = tmp44 - tmp47 tmp49 = tl.load(in_ptr3 + (x2 + (4tmp22) + (16tmp9) + (64x3)), xmask, eviction_policy='evict_last') tmp50 = tmp45 tmp45 tmp51 = tmp49 - tmp50 tmp52 = tmp51 + tmp31 tmp53 = tmp48 / tmp52 tmp54 = tl.load(in_ptr0 + (x2 + (4tmp20) + (16tmp9) + (64x3)), xmask, eviction_policy='evict_last') tmp55 = tl.load(in_ptr1 + (x2 + (4tmp20) + (16tmp9) + (64x3)), xmask, eviction_policy='evict_last') tmp56 = tl.load(in_ptr2 + (x2 + (4tmp20) + (16tmp9) + (64x3)), xmask, eviction_policy='evict_last') tmp57 = tmp55 tmp56 tmp58 = tmp54 - tmp57 tmp59 = tl.load(in_ptr3 + (x2 + (4tmp20) + (16tmp9) + (64x3)), xmask, eviction_policy='evict_last') tmp60 = tmp55 tmp55 tmp61 = tmp59 - tmp60 tmp62 = tmp61 + tmp31 tmp63 = tmp58 / tmp62 tmp64 = tmp53 - tmp63 tmp65 = tmp20.to(tl.float32) tmp66 = tmp19 - tmp65 tmp67 = triton_helpers.maximum(tmp66, tmp7) tmp68 = triton_helpers.minimum(tmp67, tmp4) tmp69 = tmp64 * tmp68 tmp70 = tmp63 + tmp69 tmp71 = tmp33 * tmp24 tmp72 = tmp25 - tmp71 tmp73 = tmp43 * tmp35 tmp74 = tmp36 - tmp73 tmp75 = tmp53 * tmp45 tmp76 = tmp46 - tmp75 tmp77 = tmp63 * tmp55 tmp78 = tmp56 - tmp77 tmp79 = tmp76 - tmp78 tmp80 = tmp79 * tmp68 tmp81 = tmp78 + tmp80 tmp82 = tmp33 - tmp43 tmp83 = tmp82 * tmp68 tmp84 = tmp43 + tmp83 tmp85 = tmp84 - tmp70 tmp86 = tmp9.to(tl.float32) tmp87 = tmp8 - tmp86 tmp88 = triton_helpers.maximum(tmp87, tmp7) tmp89 = triton_helpers.minimum(tmp88, tmp4) tmp90 = tmp85 * tmp89 tmp91 = tmp72 - tmp74 tmp92 = tmp91 * tmp68 tmp93 = tmp74 + tmp92 tmp94 = tmp93 - tmp81 tmp95 = tmp94 * tmp89 tmp96 = tmp70 + tmp90 tmp98 = tmp96 * tmp97 tmp99 = tmp81 + tmp95 tmp100 = tmp98 + tmp99 tl.store(in_out_ptr2 + (x5), tmp100, 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, 1, 16, 4), torch.float32) buf6 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) buf15 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) buf11 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) # Topologically Sorted Source Nodes: [mul, kernel_x, x, kernel_x_1, x_2, mul_2], Original ATen: [aten.mul, aten.full, aten.convolution] stream0 = get_raw_stream(0) triton_poi_fused_convolution_full_mul_0.run(arg0_1, arg1_1, buf0, buf6, buf15, buf11, 16, 16, grid=grid(16, 16), stream=stream0) del arg0_1 del arg1_1 buf1 = empty_strided_cuda((4, 1, 1, 9), (9, 9, 9, 1), torch.float32) # Topologically Sorted Source Nodes: [kernel_x_2], Original ATen: [aten.full] triton_poi_fused_full_1.run(buf1, 36, grid=grid(36), stream=stream0) # Topologically Sorted Source Nodes: [mul, kernel_x_2, x_4], Original ATen: [aten.mul, aten.full, aten.convolution] buf2 = extern_kernels.convolution(buf0, buf1, stride=(1, 1), padding=(0, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf2, (4, 4, 4, 4), (64, 1, 16, 4)) del buf0 buf3 = reinterpret_tensor(buf1, (4, 1, 9, 1), (9, 9, 1, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [kernel_y_2], Original ATen: [aten.full] triton_poi_fused_full_1.run(buf3, 36, grid=grid(36), stream=stream0) # Topologically Sorted Source Nodes: [kernel_y_2, x_5], Original ATen: [aten.full, aten.convolution] buf4 = extern_kernels.convolution(buf2, buf3, stride=(1, 1), padding=(4, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf4, (4, 4, 4, 4), (64, 1, 16, 4)) del buf2 buf5 = reinterpret_tensor(buf3, (4, 1, 1, 9), (9, 9, 9, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [kernel_x], Original ATen: [aten.full] triton_poi_fused_full_1.run(buf5, 36, grid=grid(36), stream=stream0) # Topologically Sorted Source Nodes: [kernel_x, x], Original ATen: [aten.full, aten.convolution] buf7 = extern_kernels.convolution(buf6, buf5, stride=(1, 1), padding=(0, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf7, (4, 4, 4, 4), (64, 1, 16, 4)) del buf6 buf8 = reinterpret_tensor(buf5, (4, 1, 9, 1), (9, 9, 1, 1), 0); del buf5 # reuse # Topologically Sorted Source Nodes: [kernel_y], Original ATen: [aten.full] triton_poi_fused_full_1.run(buf8, 36, grid=grid(36), stream=stream0) # Topologically Sorted Source Nodes: [kernel_y, x_1], Original ATen: [aten.full, aten.convolution] buf9 = extern_kernels.convolution(buf7, buf8, stride=(1, 1), padding=(4, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf9, (4, 4, 4, 4), (64, 1, 16, 4)) del buf7 buf10 = reinterpret_tensor(buf8, (4, 1, 1, 9), (9, 9, 9, 1), 0); del buf8 # reuse # Topologically Sorted Source Nodes: [kernel_x_1], Original ATen: [aten.full] triton_poi_fused_full_1.run(buf10, 36, grid=grid(36), stream=stream0) # Topologically Sorted Source Nodes: [kernel_x_1, x_2], Original ATen: [aten.full, aten.convolution] buf12 = extern_kernels.convolution(buf11, buf10, stride=(1, 1), padding=(0, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf12, (4, 4, 4, 4), (64, 1, 16, 4)) del buf11 buf13 = reinterpret_tensor(buf10, (4, 1, 9, 1), (9, 9, 1, 1), 0); del buf10 # reuse # Topologically Sorted Source Nodes: [kernel_y_1], Original ATen: [aten.full] triton_poi_fused_full_1.run(buf13, 36, grid=grid(36), stream=stream0) # Topologically Sorted Source Nodes: [kernel_y_1, x_3], Original ATen: [aten.full, aten.convolution] buf14 = extern_kernels.convolution(buf12, buf13, stride=(1, 1), padding=(4, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf14, (4, 4, 4, 4), (64, 1, 16, 4)) del buf12 buf16 = reinterpret_tensor(buf13, (4, 1, 1, 9), (9, 9, 9, 1), 0); del buf13 # reuse # Topologically Sorted Source Nodes: [kernel_x_3], Original ATen: [aten.full] triton_poi_fused_full_1.run(buf16, 36, grid=grid(36), stream=stream0) # Topologically Sorted Source Nodes: [mul_2, kernel_x_3, x_6], Original ATen: [aten.mul, aten.full, aten.convolution] buf17 = extern_kernels.convolution(buf15, buf16, stride=(1, 1), padding=(0, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf17, (4, 4, 4, 4), (64, 1, 16, 4)) del buf15 buf18 = reinterpret_tensor(buf16, (4, 1, 9, 1), (9, 9, 1, 1), 0); del buf16 # reuse # Topologically Sorted Source Nodes: [kernel_y_3], Original ATen: [aten.full] triton_poi_fused_full_1.run(buf18, 36, grid=grid(36), stream=stream0) # Topologically Sorted Source Nodes: [kernel_y_3, x_7], Original ATen: [aten.full, aten.convolution] buf19 = extern_kernels.convolution(buf17, buf18, stride=(1, 1), padding=(4, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf19, (4, 4, 4, 4), (64, 1, 16, 4)) del buf18 buf20 = reinterpret_tensor(buf17, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf17 # reuse buf25 = buf20; del buf20 # reuse buf32 = buf25; del buf25 # reuse # Topologically Sorted Source Nodes: [mul_1, cov_xy, mul_3, var_x, add, A, A_1, mul_5, mul_4, b, b_1, add_1], Original ATen: [aten.mul, aten.sub, aten.add, aten.div, aten._to_copy, aten.arange, aten.clamp, aten._unsafe_index] triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_div_mul_sub_2.run(buf32, buf4, buf9, buf14, buf19, arg2_1, 256, grid=grid(256), stream=stream0) del arg2_1 del buf14 del buf19 del buf4 del buf9 return (buf32, ) 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 torchvision.transforms import functional as F from torch import nn from torch.nn import functional as F class BoxFilter(nn.Module): def __init__(self, r): super(BoxFilter, self).__init__() self.r = r def forward(self, x): kernel_size = 2 * self.r + 1 kernel_x = torch.full((x.data.shape[1], 1, 1, kernel_size), 1 / kernel_size, device=x.device, dtype=x.dtype) kernel_y = torch.full((x.data.shape[1], 1, kernel_size, 1), 1 / kernel_size, device=x.device, dtype=x.dtype) x = F.conv2d(x, kernel_x, padding=(0, self.r), groups=x.data.shape[1]) x = F.conv2d(x, kernel_y, padding=(self.r, 0), groups=x.data.shape[1]) return x class FastGuidedFilter(nn.Module): def __init__(self, r: 'int', eps: 'float'=1e-05): super().__init__() self.r = r self.eps = eps self.boxfilter = BoxFilter(r) def forward(self, lr_x, lr_y, hr_x): mean_x = self.boxfilter(lr_x) mean_y = self.boxfilter(lr_y) cov_xy = self.boxfilter(lr_x * lr_y) - mean_x * mean_y var_x = self.boxfilter(lr_x * lr_x) - mean_x * mean_x A = cov_xy / (var_x + self.eps) b = mean_y - A * mean_x A = F.interpolate(A, hr_x.shape[2:], mode='bilinear', align_corners =False) b = F.interpolate(b, hr_x.shape[2:], mode='bilinear', align_corners =False) return A * hr_x + b 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 [[], {'r': 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 torchvision.transforms import functional as F from torch import nn from torch.nn import 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_convolution_full_mul_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, 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 y3 = yindex y0 = yindex % 4 y1 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x2 + 16 * y3), xmask & ymask) tmp1 = tl.load(in_ptr1 + (x2 + 16 * y3), xmask & ymask) tmp2 = tmp0 * tmp1 tmp3 = tmp0 * tmp0 tl.store(out_ptr0 + (y0 + 4 * x2 + 64 * y1), tmp2, xmask & ymask) tl.store(out_ptr1 + (y0 + 4 * x2 + 64 * y1), tmp0, xmask & ymask) tl.store(out_ptr2 + (y0 + 4 * x2 + 64 * y1), tmp3, xmask & ymask) tl.store(out_ptr3 + (y0 + 4 * x2 + 64 * y1), tmp1, xmask & ymask) @triton.jit def triton_poi_fused_full_1(out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 36 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = 0.1111111111111111 tl.store(out_ptr0 + x0, tmp0, xmask) @triton.jit def triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_div_mul_sub_2( in_out_ptr2, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 4 % 4 x0 = xindex % 4 x2 = xindex // 16 % 4 x3 = xindex // 64 x5 = xindex tmp97 = tl.load(in_ptr4 + x5, xmask) tmp0 = x1 tmp1 = tmp0.to(tl.float32) tmp2 = 0.5 tmp3 = tmp1 + tmp2 tmp4 = 1.0 tmp5 = tmp3 * tmp4 tmp6 = tmp5 - tmp2 tmp7 = 0.0 tmp8 = triton_helpers.maximum(tmp6, tmp7) tmp9 = tmp8.to(tl.int32) tmp10 = tl.full([1], 1, tl.int64) tmp11 = tmp9 + tmp10 tmp12 = tl.full([1], 3, tl.int64) tmp13 = triton_helpers.minimum(tmp11, tmp12) tmp14 = x0 tmp15 = tmp14.to(tl.float32) tmp16 = tmp15 + tmp2 tmp17 = tmp16 * tmp4 tmp18 = tmp17 - tmp2 tmp19 = triton_helpers.maximum(tmp18, tmp7) tmp20 = tmp19.to(tl.int32) tmp21 = tmp20 + tmp10 tmp22 = triton_helpers.minimum(tmp21, tmp12) tmp23 = tl.load(in_ptr0 + (x2 + 4 * tmp22 + 16 * tmp13 + 64 * x3), xmask, eviction_policy='evict_last') tmp24 = tl.load(in_ptr1 + (x2 + 4 * tmp22 + 16 * tmp13 + 64 * x3), xmask, eviction_policy='evict_last') tmp25 = tl.load(in_ptr2 + (x2 + 4 * tmp22 + 16 * tmp13 + 64 * x3), xmask, eviction_policy='evict_last') tmp26 = tmp24 * tmp25 tmp27 = tmp23 - tmp26 tmp28 = tl.load(in_ptr3 + (x2 + 4 * tmp22 + 16 * tmp13 + 64 * x3), xmask, eviction_policy='evict_last') tmp29 = tmp24 * tmp24 tmp30 = tmp28 - tmp29 tmp31 = 1e-05 tmp32 = tmp30 + tmp31 tmp33 = tmp27 / tmp32 tmp34 = tl.load(in_ptr0 + (x2 + 4 * tmp20 + 16 * tmp13 + 64 * x3), xmask, eviction_policy='evict_last') tmp35 = tl.load(in_ptr1 + (x2 + 4 * tmp20 + 16 * tmp13 + 64 * x3), xmask, eviction_policy='evict_last') tmp36 = tl.load(in_ptr2 + (x2 + 4 * tmp20 + 16 * tmp13 + 64 * x3), xmask, eviction_policy='evict_last') tmp37 = tmp35 * tmp36 tmp38 = tmp34 - tmp37 tmp39 = tl.load(in_ptr3 + (x2 + 4 * tmp20 + 16 * tmp13 + 64 * x3), xmask, eviction_policy='evict_last') tmp40 = tmp35 * tmp35 tmp41 = tmp39 - tmp40 tmp42 = tmp41 + tmp31 tmp43 = tmp38 / tmp42 tmp44 = tl.load(in_ptr0 + (x2 + 4 * tmp22 + 16 * tmp9 + 64 * x3), xmask, eviction_policy='evict_last') tmp45 = tl.load(in_ptr1 + (x2 + 4 * tmp22 + 16 * tmp9 + 64 * x3), xmask, eviction_policy='evict_last') tmp46 = tl.load(in_ptr2 + (x2 + 4 * tmp22 + 16 * tmp9 + 64 * x3), xmask, eviction_policy='evict_last') tmp47 = tmp45 * tmp46 tmp48 = tmp44 - tmp47 tmp49 = tl.load(in_ptr3 + (x2 + 4 * tmp22 + 16 * tmp9 + 64 * x3), xmask, eviction_policy='evict_last') tmp50 = tmp45 * tmp45 tmp51 = tmp49 - tmp50 tmp52 = tmp51 + tmp31 tmp53 = tmp48 / tmp52 tmp54 = tl.load(in_ptr0 + (x2 + 4 * tmp20 + 16 * tmp9 + 64 * x3), xmask, eviction_policy='evict_last') tmp55 = tl.load(in_ptr1 + (x2 + 4 * tmp20 + 16 * tmp9 + 64 * x3), xmask, eviction_policy='evict_last') tmp56 = tl.load(in_ptr2 + (x2 + 4 * tmp20 + 16 * tmp9 + 64 * x3), xmask, eviction_policy='evict_last') tmp57 = tmp55 * tmp56 tmp58 = tmp54 - tmp57 tmp59 = tl.load(in_ptr3 + (x2 + 4 * tmp20 + 16 * tmp9 + 64 * x3), xmask, eviction_policy='evict_last') tmp60 = tmp55 * tmp55 tmp61 = tmp59 - tmp60 tmp62 = tmp61 + tmp31 tmp63 = tmp58 / tmp62 tmp64 = tmp53 - tmp63 tmp65 = tmp20.to(tl.float32) tmp66 = tmp19 - tmp65 tmp67 = triton_helpers.maximum(tmp66, tmp7) tmp68 = triton_helpers.minimum(tmp67, tmp4) tmp69 = tmp64 * tmp68 tmp70 = tmp63 + tmp69 tmp71 = tmp33 * tmp24 tmp72 = tmp25 - tmp71 tmp73 = tmp43 * tmp35 tmp74 = tmp36 - tmp73 tmp75 = tmp53 * tmp45 tmp76 = tmp46 - tmp75 tmp77 = tmp63 * tmp55 tmp78 = tmp56 - tmp77 tmp79 = tmp76 - tmp78 tmp80 = tmp79 * tmp68 tmp81 = tmp78 + tmp80 tmp82 = tmp33 - tmp43 tmp83 = tmp82 * tmp68 tmp84 = tmp43 + tmp83 tmp85 = tmp84 - tmp70 tmp86 = tmp9.to(tl.float32) tmp87 = tmp8 - tmp86 tmp88 = triton_helpers.maximum(tmp87, tmp7) tmp89 = triton_helpers.minimum(tmp88, tmp4) tmp90 = tmp85 * tmp89 tmp91 = tmp72 - tmp74 tmp92 = tmp91 * tmp68 tmp93 = tmp74 + tmp92 tmp94 = tmp93 - tmp81 tmp95 = tmp94 * tmp89 tmp96 = tmp70 + tmp90 tmp98 = tmp96 * tmp97 tmp99 = tmp81 + tmp95 tmp100 = tmp98 + tmp99 tl.store(in_out_ptr2 + x5, tmp100, 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, 1, 16, 4), torch.float32) buf6 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) buf15 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) buf11 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) get_raw_stream(0) triton_poi_fused_convolution_full_mul_0[grid(16, 16)](arg0_1, arg1_1, buf0, buf6, buf15, buf11, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del arg0_1 del arg1_1 buf1 = empty_strided_cuda((4, 1, 1, 9), (9, 9, 9, 1), torch.float32) triton_poi_fused_full_1[grid(36)](buf1, 36, XBLOCK=64, num_warps=1, num_stages=1) buf2 = extern_kernels.convolution(buf0, buf1, stride=(1, 1), padding=(0, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf2, (4, 4, 4, 4), (64, 1, 16, 4)) del buf0 buf3 = reinterpret_tensor(buf1, (4, 1, 9, 1), (9, 9, 1, 1), 0) del buf1 triton_poi_fused_full_1[grid(36)](buf3, 36, XBLOCK=64, num_warps=1, num_stages=1) buf4 = extern_kernels.convolution(buf2, buf3, stride=(1, 1), padding=(4, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf4, (4, 4, 4, 4), (64, 1, 16, 4)) del buf2 buf5 = reinterpret_tensor(buf3, (4, 1, 1, 9), (9, 9, 9, 1), 0) del buf3 triton_poi_fused_full_1[grid(36)](buf5, 36, XBLOCK=64, num_warps=1, num_stages=1) buf7 = extern_kernels.convolution(buf6, buf5, stride=(1, 1), padding=(0, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf7, (4, 4, 4, 4), (64, 1, 16, 4)) del buf6 buf8 = reinterpret_tensor(buf5, (4, 1, 9, 1), (9, 9, 1, 1), 0) del buf5 triton_poi_fused_full_1[grid(36)](buf8, 36, XBLOCK=64, num_warps=1, num_stages=1) buf9 = extern_kernels.convolution(buf7, buf8, stride=(1, 1), padding=(4, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf9, (4, 4, 4, 4), (64, 1, 16, 4)) del buf7 buf10 = reinterpret_tensor(buf8, (4, 1, 1, 9), (9, 9, 9, 1), 0) del buf8 triton_poi_fused_full_1[grid(36)](buf10, 36, XBLOCK=64, num_warps=1, num_stages=1) buf12 = extern_kernels.convolution(buf11, buf10, stride=(1, 1), padding=(0, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf12, (4, 4, 4, 4), (64, 1, 16, 4)) del buf11 buf13 = reinterpret_tensor(buf10, (4, 1, 9, 1), (9, 9, 1, 1), 0) del buf10 triton_poi_fused_full_1[grid(36)](buf13, 36, XBLOCK=64, num_warps=1, num_stages=1) buf14 = extern_kernels.convolution(buf12, buf13, stride=(1, 1), padding=(4, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf14, (4, 4, 4, 4), (64, 1, 16, 4)) del buf12 buf16 = reinterpret_tensor(buf13, (4, 1, 1, 9), (9, 9, 9, 1), 0) del buf13 triton_poi_fused_full_1[grid(36)](buf16, 36, XBLOCK=64, num_warps=1, num_stages=1) buf17 = extern_kernels.convolution(buf15, buf16, stride=(1, 1), padding=(0, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf17, (4, 4, 4, 4), (64, 1, 16, 4)) del buf15 buf18 = reinterpret_tensor(buf16, (4, 1, 9, 1), (9, 9, 1, 1), 0) del buf16 triton_poi_fused_full_1[grid(36)](buf18, 36, XBLOCK=64, num_warps=1, num_stages=1) buf19 = extern_kernels.convolution(buf17, buf18, stride=(1, 1), padding=(4, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf19, (4, 4, 4, 4), (64, 1, 16, 4)) del buf18 buf20 = reinterpret_tensor(buf17, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf17 buf25 = buf20 del buf20 buf32 = buf25 del buf25 triton_poi_fused__to_copy__unsafe_index_add_arange_clamp_div_mul_sub_2[ grid(256)](buf32, buf4, buf9, buf14, buf19, arg2_1, 256, XBLOCK =128, num_warps=4, num_stages=1) del arg2_1 del buf14 del buf19 del buf4 del buf9 return buf32, class BoxFilter(nn.Module): def __init__(self, r): super(BoxFilter, self).__init__() self.r = r def forward(self, x): kernel_size = 2 * self.r + 1 kernel_x = torch.full((x.data.shape[1], 1, 1, kernel_size), 1 / kernel_size, device=x.device, dtype=x.dtype) kernel_y = torch.full((x.data.shape[1], 1, kernel_size, 1), 1 / kernel_size, device=x.device, dtype=x.dtype) x = F.conv2d(x, kernel_x, padding=(0, self.r), groups=x.data.shape[1]) x = F.conv2d(x, kernel_y, padding=(self.r, 0), groups=x.data.shape[1]) return x class FastGuidedFilterNew(nn.Module): def __init__(self, r: 'int', eps: 'float'=1e-05): super().__init__() self.r = r self.eps = eps self.boxfilter = BoxFilter(r) 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]	LightTwist/RobustVideoMatting	FastGuidedFilter	false	8,495	[ "Apache-2.0" ]	11	79eb143fef3a4c58b4857c1a5a927a318f528093	https://github.com/LightTwist/RobustVideoMatting/tree/79eb143fef3a4c58b4857c1a5a927a318f528093
AdaptiveFeatureNorm	# 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/du/cduw3ptqya4yxg7ze37qkutkee2p3sq4ppiijxguh5nehmg2fdsh.py # Topologically Sorted Source Nodes: [norm_1, norm, radius_1, sub, pow_1, loss], Original ATen: [aten.linalg_vector_norm, aten.add, aten.sub, aten.pow, aten.mean] # Source node to ATen node mapping: # loss => mean # norm => pow_1, pow_2, sum_1 # norm_1 => pow_3, pow_4, sum_2 # pow_1 => pow_5 # radius_1 => add # sub => sub # Graph fragment: # %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]), kwargs = {}) # %pow_4 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_2, 0.5), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%arg0_1, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [1]), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_1, 0.5), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%pow_2, 4), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%pow_4, %add), kwargs = {}) # %pow_5 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 2), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%pow_5,), kwargs = {}) triton_per_fused_add_linalg_vector_norm_mean_pow_sub_0 = async_compile.triton('triton_per_fused_add_linalg_vector_norm_mean_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.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_mean_pow_sub_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': False, 'num_load': 4, '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_linalg_vector_norm_mean_pow_sub_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 % 16 r1 = (rindex // 16) tmp0 = tl.load(in_ptr0 + (r0 + (64r1)), None) tmp2 = tl.load(in_ptr0 + (16 + r0 + (64r1)), None) tmp5 = tl.load(in_ptr0 + (32 + r0 + (64r1)), None) tmp8 = tl.load(in_ptr0 + (48 + r0 + (64r1)), None) tmp1 = tmp0 * tmp0 tmp3 = tmp2 * tmp2 tmp4 = tmp1 + tmp3 tmp6 = tmp5 * tmp5 tmp7 = tmp4 + tmp6 tmp9 = tmp8 * tmp8 tmp10 = tmp7 + tmp9 tmp11 = libdevice.sqrt(tmp10) tmp12 = 4.0 tmp13 = tmp11 + tmp12 tmp14 = tmp11 - tmp13 tmp15 = tmp14 * tmp14 tmp16 = tl.broadcast_to(tmp15, [XBLOCK, RBLOCK]) tmp18 = tl.sum(tmp16, 1)[:, None] tmp19 = 64.0 tmp20 = tmp18 / 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, = 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) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [norm_1, norm, radius_1, sub, pow_1, loss], Original ATen: [aten.linalg_vector_norm, aten.add, aten.sub, aten.pow, aten.mean] stream0 = get_raw_stream(0) triton_per_fused_add_linalg_vector_norm_mean_pow_sub_0.run(buf1, arg0_1, 1, 64, grid=grid(1), 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.nn.parallel import torch.utils.data import torch.utils.data.distributed class AdaptiveFeatureNorm(nn.Module): """ The `Stepwise Adaptive Feature Norm loss (ICCV 2019) <https://arxiv.org/pdf/1811.07456v2.pdf>`_ Instead of using restrictive scalar R to match the corresponding feature norm, Stepwise Adaptive Feature Norm is used in order to learn task-specific features with large norms in a progressive manner. We denote parameters of backbone :math:`G` as :math:`\\theta_g`, parameters of bottleneck :math:`F_f` as :math:`\\theta_f` , parameters of classifier head :math:`F_y` as :math:`\\theta_y`, and features extracted from sample :math:`x_i` as :math:`h(x_i;\\theta)`. Full loss is calculated as follows .. math:: L(\\theta_g,\\theta_f,\\theta_y)=\\frac{1}{n_s}\\sum_{(x_i,y_i)\\in D_s}L_y(x_i,y_i)+\\frac{\\lambda}{n_s+n_t} \\sum_{x_i\\in D_s\\cup D_t}L_d(h(x_i;\\theta_0)+\\Delta_r,h(x_i;\\theta))\\\\ where :math:`L_y` denotes classification loss, :math:`L_d` denotes norm loss, :math:`\\theta_0` and :math:`\\theta` represent the updated and updating model parameters in the last and current iterations respectively. Args: delta (float): positive residual scalar to control the feature norm enlargement. Inputs: - f (tensor): feature representations on source or target domain. Shape: - f: :math:`(N, F)` where F means the dimension of input features. - Outputs: scalar. Examples:: >>> adaptive_feature_norm = AdaptiveFeatureNorm(delta=1) >>> f_s = torch.randn(32, 1000) >>> f_t = torch.randn(32, 1000) >>> norm_loss = adaptive_feature_norm(f_s) + adaptive_feature_norm(f_t) """ def __init__(self, delta): super(AdaptiveFeatureNorm, self).__init__() self.delta = delta def forward(self, f: 'torch.Tensor') ->torch.Tensor: radius = f.norm(p=2, dim=1).detach() assert radius.requires_grad is False radius = radius + self.delta loss = ((f.norm(p=2, dim=1) - radius) ** 2).mean() return loss def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'delta': 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 import torch.nn.parallel import torch.utils.data import torch.utils.data.distributed 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_mean_pow_sub_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 % 16 r1 = rindex // 16 tmp0 = tl.load(in_ptr0 + (r0 + 64 * r1), None) tmp2 = tl.load(in_ptr0 + (16 + r0 + 64 * r1), None) tmp5 = tl.load(in_ptr0 + (32 + r0 + 64 * r1), None) tmp8 = tl.load(in_ptr0 + (48 + r0 + 64 * r1), None) tmp1 = tmp0 * tmp0 tmp3 = tmp2 * tmp2 tmp4 = tmp1 + tmp3 tmp6 = tmp5 * tmp5 tmp7 = tmp4 + tmp6 tmp9 = tmp8 * tmp8 tmp10 = tmp7 + tmp9 tmp11 = libdevice.sqrt(tmp10) tmp12 = 4.0 tmp13 = tmp11 + tmp12 tmp14 = tmp11 - tmp13 tmp15 = tmp14 * tmp14 tmp16 = tl.broadcast_to(tmp15, [XBLOCK, RBLOCK]) tmp18 = tl.sum(tmp16, 1)[:, None] tmp19 = 64.0 tmp20 = tmp18 / tmp19 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([XBLOCK, 1], 0, tl.int32), tmp20, 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) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_add_linalg_vector_norm_mean_pow_sub_0[grid(1)](buf1, arg0_1, 1, 64, XBLOCK=1, num_warps=2, num_stages=1) del arg0_1 return buf1, class AdaptiveFeatureNormNew(nn.Module): """ The `Stepwise Adaptive Feature Norm loss (ICCV 2019) <https://arxiv.org/pdf/1811.07456v2.pdf>`_ Instead of using restrictive scalar R to match the corresponding feature norm, Stepwise Adaptive Feature Norm is used in order to learn task-specific features with large norms in a progressive manner. We denote parameters of backbone :math:`G` as :math:`\\theta_g`, parameters of bottleneck :math:`F_f` as :math:`\\theta_f` , parameters of classifier head :math:`F_y` as :math:`\\theta_y`, and features extracted from sample :math:`x_i` as :math:`h(x_i;\\theta)`. Full loss is calculated as follows .. math:: L(\\theta_g,\\theta_f,\\theta_y)=\\frac{1}{n_s}\\sum_{(x_i,y_i)\\in D_s}L_y(x_i,y_i)+\\frac{\\lambda}{n_s+n_t} \\sum_{x_i\\in D_s\\cup D_t}L_d(h(x_i;\\theta_0)+\\Delta_r,h(x_i;\\theta))\\\\ where :math:`L_y` denotes classification loss, :math:`L_d` denotes norm loss, :math:`\\theta_0` and :math:`\\theta` represent the updated and updating model parameters in the last and current iterations respectively. Args: delta (float): positive residual scalar to control the feature norm enlargement. Inputs: - f (tensor): feature representations on source or target domain. Shape: - f: :math:`(N, F)` where F means the dimension of input features. - Outputs: scalar. Examples:: >>> adaptive_feature_norm = AdaptiveFeatureNorm(delta=1) >>> f_s = torch.randn(32, 1000) >>> f_t = torch.randn(32, 1000) >>> norm_loss = adaptive_feature_norm(f_s) + adaptive_feature_norm(f_t) """ def __init__(self, delta): super(AdaptiveFeatureNormNew, self).__init__() self.delta = delta def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Liuhong99/CST	AdaptiveFeatureNorm	false	8,496	[ "MIT" ]	20	f6653a4ee7968fa3ba875a182670636f648be783	https://github.com/Liuhong99/CST/tree/f6653a4ee7968fa3ba875a182670636f648be783
FeedForward	# 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/oj/cojau2iiny6qsj3hz7wzdefev2pp7zlfb2gheaiwtte4msvqs3yf.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=[32768], 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 = 32768 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) 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 = args args.clear() assert_size_stride(primals_1, (512, 4), (4, 1)) assert_size_stride(primals_2, (512, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 512), (512, 1)) assert_size_stride(primals_5, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 512), (512, 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, 512), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 512), (8192, 2048, 512, 1), 0); del buf0 # reuse buf3 = empty_strided_cuda((4, 4, 4, 512), (8192, 2048, 512, 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, buf3, 32768, grid=grid(32768), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 512), (512, 1), 0), reinterpret_tensor(primals_4, (512, 4), (1, 512), 0), alpha=1, beta=1, out=buf2) del primals_5 return (reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 512), (512, 1), 0), primals_4, 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((512, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((512, ), (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, 512), (512, 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 import torch.nn as nn import torch.nn.functional as F class FeedForward(nn.Module): def __init__(self, d_model, d_ff=512, dropout=0.5): super().__init__() self.linear_1 = nn.Linear(d_model, d_ff) self.dropout = nn.Dropout(dropout) self.linear_2 = nn.Linear(d_ff, d_model) def forward(self, x): x = self.dropout(F.relu(self.linear_1(x))) x = self.linear_2(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'d_model': 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 % 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) 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 = args args.clear() assert_size_stride(primals_1, (512, 4), (4, 1)) assert_size_stride(primals_2, (512,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 512), (512, 1)) assert_size_stride(primals_5, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 512), (512, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 512), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 512), (8192, 2048, 512, 1), 0 ) del buf0 buf3 = empty_strided_cuda((4, 4, 4, 512), (8192, 2048, 512, 1), torch.bool) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(32768)](buf1, primals_2, buf3, 32768, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 512), (512, 1), 0), reinterpret_tensor(primals_4, (512, 4), (1, 512), 0), alpha=1, beta=1, out=buf2) del primals_5 return reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 512), (512, 1), 0), primals_4, buf3 class FeedForwardNew(nn.Module): def __init__(self, d_model, d_ff=512, dropout=0.5): super().__init__() self.linear_1 = nn.Linear(d_model, d_ff) self.dropout = nn.Dropout(dropout) self.linear_2 = nn.Linear(d_ff, d_model) def forward(self, input_0): primals_1 = self.linear_1.weight primals_2 = self.linear_1.bias primals_4 = self.linear_2.weight primals_5 = self.linear_2.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	MadanMl/PyTorch-Transformer-for-RUL-Prediction	FeedForward	false	8,497	[ "Apache-2.0" ]	25	5bf0a4739abdecbbc88118ea413393997bdc1e24	https://github.com/MadanMl/PyTorch-Transformer-for-RUL-Prediction/tree/5bf0a4739abdecbbc88118ea413393997bdc1e24
UpsampleConvLayer	# 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/zo/czoefxnecwpok2nmimcnrjk6tumldvtx7xkzpmzgmnay3tkwhjwg.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.reflection_pad2d] # Source node to ATen node mapping: # out => _unsafe_index, _unsafe_index_1 # Graph fragment: # %_unsafe_index : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%primals_1, [None, None, %sub_1, None]), kwargs = {}) # %_unsafe_index_1 : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%_unsafe_index, [None, None, None, %sub_1]), kwargs = {}) triton_poi_fused_reflection_pad2d_0 = async_compile.triton('triton_poi_fused_reflection_pad2d_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_reflection_pad2d_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_reflection_pad2d_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 x0 = xindex % 8 x1 = (xindex // 8) % 8 x2 = (xindex // 64) x3 = xindex tmp0 = tl.load(in_ptr0 + (15 + ((-1)(tl_math.abs((-3) + (tl_math.abs((-2) + x0))))) + ((-4)(tl_math.abs((-3) + (tl_math.abs((-2) + x1))))) + (16x2)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (x3), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/5a/c5azowqg6ohglmafftsxyhwic76fsypgkun7hqb4dv4k54eda6nu.py # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.convolution] # Source node to ATen node mapping: # out_1 => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%_unsafe_index_1, %primals_2, %primals_3, [1, 1], [0, 0], [1, 1], True, [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=[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_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 = 1936 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 121) % 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, 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, 8, 8), (256, 64, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.reflection_pad2d] stream0 = get_raw_stream(0) triton_poi_fused_reflection_pad2d_0.run(primals_1, buf0, 1024, grid=grid(1024), stream=stream0) del primals_1 # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(buf0, primals_2, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 11, 11), (484, 121, 11, 1)) buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf2, primals_3, 1936, grid=grid(1936), stream=stream0) del primals_3 return (buf2, 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, 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 import torch.nn as nn class UpsampleConvLayer(torch.nn.Module): def __init__(self, in_channels, out_channels, kernel_size, stride): super(UpsampleConvLayer, self).__init__() reflection_padding = kernel_size // 2 self.reflection_pad = torch.nn.ReflectionPad2d(reflection_padding) self.conv2d = nn.ConvTranspose2d(in_channels, out_channels, kernel_size, stride=stride) def forward(self, x): out = self.reflection_pad(x) out = self.conv2d(out) return out 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}]	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_reflection_pad2d_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 x0 = xindex % 8 x1 = xindex // 8 % 8 x2 = xindex // 64 x3 = xindex tmp0 = tl.load(in_ptr0 + (15 + -1 * tl_math.abs(-3 + tl_math.abs(-2 + x0)) + -4 * tl_math.abs(-3 + tl_math.abs(-2 + x1)) + 16 * x2), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + x3, tmp0, xmask) @triton.jit def triton_poi_fused_convolution_1(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 1936 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 121 % 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, 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, 8, 8), (256, 64, 8, 1), torch.float32) get_raw_stream(0) triton_poi_fused_reflection_pad2d_0[grid(1024)](primals_1, buf0, 1024, XBLOCK=128, num_warps=4, num_stages=1) del primals_1 buf1 = extern_kernels.convolution(buf0, primals_2, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=True, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 4, 11, 11), (484, 121, 11, 1)) buf2 = buf1 del buf1 triton_poi_fused_convolution_1[grid(1936)](buf2, primals_3, 1936, XBLOCK=128, num_warps=4, num_stages=1) del primals_3 return buf2, primals_2, buf0 class UpsampleConvLayerNew(torch.nn.Module): def __init__(self, in_channels, out_channels, kernel_size, stride): super(UpsampleConvLayerNew, self).__init__() reflection_padding = kernel_size // 2 self.reflection_pad = torch.nn.ReflectionPad2d(reflection_padding) self.conv2d = nn.ConvTranspose2d(in_channels, out_channels, kernel_size, stride=stride) def forward(self, input_0): primals_1 = self.conv2d.weight primals_3 = self.conv2d.bias primals_2 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	MKFMIKU/PFFNet	UpsampleConvLayer	false	8,498	[ "MIT" ]	41	e506010a7cf00a32e77681845bdaf78ba88b027d	https://github.com/MKFMIKU/PFFNet/tree/e506010a7cf00a32e77681845bdaf78ba88b027d
MeanPoolConv	# 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/ax/caxohfzj75euiysf3nv6c6ynt2n76ddyb5bhrbp75xoxnwaiumlf.py # Topologically Sorted Source Nodes: [add, add_1, add_2, output], Original ATen: [aten.add, aten.div] # Source node to ATen node mapping: # add => add # add_1 => add_1 # add_2 => add_2 # output => div # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%slice_4, %slice_8), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, %slice_12), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_1, %slice_16), kwargs = {}) # %div : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%add_2, 4), kwargs = {}) triton_poi_fused_add_div_0 = async_compile.triton('triton_poi_fused_add_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=[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_div_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_div_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 x0 = xindex % 2 x1 = (xindex // 2) x2 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr0 + (4 + (2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (5 + (2x0) + (8x1)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 0.25 tmp8 = tmp6 * tmp7 tl.store(out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/vb/cvbno3dccglzmlbisnwicoai3aocrgweun3buh6avsdqdjjhjczh.py # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.convolution] # Source node to ATen node mapping: # output_1 => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%div, %primals_2, %primals_3, [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=[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_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 = 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, 2, 2), (16, 4, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [add, add_1, add_2, output], Original ATen: [aten.add, aten.div] stream0 = get_raw_stream(0) triton_poi_fused_add_div_0.run(primals_1, buf0, 64, grid=grid(64), stream=stream0) del primals_1 # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(buf0, primals_2, 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, 1, 1), (4, 1, 1, 1)) buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf2, primals_3, 16, grid=grid(16), stream=stream0) del primals_3 return (buf2, 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, 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 IWConv2d(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True, stride=1, bias=True): super(IWConv2d, self).__init__() self.he_init = he_init self.padding = int((kernel_size - 1) / 2) self.conv = nn.Conv2d(input_dim, output_dim, kernel_size, stride=1, padding=self.padding, bias=bias) def forward(self, input): output = self.conv(input) return output class MeanPoolConv(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True): super(MeanPoolConv, self).__init__() self.he_init = he_init self.conv = IWConv2d(input_dim, output_dim, kernel_size, he_init= self.he_init) def forward(self, input): output = input output = (output[:, :, ::2, ::2] + output[:, :, 1::2, ::2] + output [:, :, ::2, 1::2] + output[:, :, 1::2, 1::2]) / 4 output = self.conv(output) return output def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'output_dim': 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 empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_div_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 x0 = xindex % 2 x1 = xindex // 2 x2 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr0 + (4 + 2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp3 = tl.load(in_ptr0 + (1 + 2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp5 = tl.load(in_ptr0 + (5 + 2 * x0 + 8 * x1), xmask, eviction_policy= 'evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp7 = 0.25 tmp8 = tmp6 * tmp7 tl.store(out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_poi_fused_convolution_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 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, 2, 2), (16, 4, 2, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_div_0[grid(64)](primals_1, buf0, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_1 buf1 = extern_kernels.convolution(buf0, primals_2, 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, 1, 1), (4, 1, 1, 1)) buf2 = buf1 del buf1 triton_poi_fused_convolution_1[grid(16)](buf2, primals_3, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_3 return buf2, primals_2, buf0 class IWConv2d(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True, stride=1, bias=True): super(IWConv2d, self).__init__() self.he_init = he_init self.padding = int((kernel_size - 1) / 2) self.conv = nn.Conv2d(input_dim, output_dim, kernel_size, stride=1, padding=self.padding, bias=bias) def forward(self, input): output = self.conv(input) return output class MeanPoolConvNew(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True): super(MeanPoolConvNew, self).__init__() self.he_init = he_init self.conv = IWConv2d(input_dim, output_dim, kernel_size, he_init= self.he_init) def forward(self, input_0): primals_1 = self.conv.conv.weight primals_3 = self.conv.conv.bias primals_2 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	MIC-DKFZ/mood	MeanPoolConv	false	8,499	[ "Apache-2.0" ]	42	a01303adb4256653b133e2f7cd4741d366b681f7	https://github.com/MIC-DKFZ/mood/tree/a01303adb4256653b133e2f7cd4741d366b681f7
Sobelxy	# 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/wi/cwihasekecmggxsixc7kgblifkafipaamlwa4ckg2fmaooqlkavc.py # Topologically Sorted Source Nodes: [abs_1, abs_2, add], Original ATen: [aten.abs, aten.add] # Source node to ATen node mapping: # abs_1 => abs_1 # abs_2 => abs_2 # add => add # Graph fragment: # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%convolution,), kwargs = {}) # %abs_2 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%convolution_1,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%abs_1, %abs_2), kwargs = {}) triton_poi_fused_abs_add_0 = async_compile.triton('triton_poi_fused_abs_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=[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_abs_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_abs_add_0(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) tmp2 = tl.load(in_ptr0 + (x0), None) tmp1 = tl_math.abs(tmp0) tmp3 = tl_math.abs(tmp2) tmp4 = tmp1 + tmp3 tl.store(in_out_ptr0 + (x0), tmp4, 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, (1, 1, 3, 3), (9, 9, 3, 1)) assert_size_stride(arg1_1, (4, 1, 64, 64), (4096, 4096, 64, 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: [sobelx], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(arg1_1, arg0_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, 64, 64), (4096, 4096, 64, 1)) del arg0_1 # Topologically Sorted Source Nodes: [sobely], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(arg1_1, 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, 64, 64), (4096, 4096, 64, 1)) del arg1_1 del arg2_1 buf2 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [abs_1, abs_2, add], Original ATen: [aten.abs, aten.add] stream0 = get_raw_stream(0) triton_poi_fused_abs_add_0.run(buf2, buf1, 16384, grid=grid(16384), 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((1, 1, 3, 3), (9, 9, 3, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 1, 64, 64), (4096, 4096, 64, 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.nn as nn import torch.nn.functional as F class Sobelxy(nn.Module): def __init__(self): super(Sobelxy, self).__init__() kernelx = [[-1, 0, 1], [-2, 0, 2], [-1, 0, 1]] kernely = [[1, 2, 1], [0, 0, 0], [-1, -2, -1]] kernelx = torch.FloatTensor(kernelx).unsqueeze(0).unsqueeze(0) kernely = torch.FloatTensor(kernely).unsqueeze(0).unsqueeze(0) self.weightx = nn.Parameter(data=kernelx, requires_grad=False) self.weighty = nn.Parameter(data=kernely, requires_grad=False) def forward(self, x): sobelx = F.conv2d(x, self.weightx, padding=1) sobely = F.conv2d(x, self.weighty, padding=1) return torch.abs(sobelx) + torch.abs(sobely) 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.triton_helpers import math as tl_math import torch.nn as nn assert_size_stride = torch._C._dynamo.guards.assert_size_stride @triton.jit def triton_poi_fused_abs_add_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) x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, None) tmp2 = tl.load(in_ptr0 + x0, None) tmp1 = tl_math.abs(tmp0) tmp3 = tl_math.abs(tmp2) tmp4 = tmp1 + tmp3 tl.store(in_out_ptr0 + x0, tmp4, None) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (1, 1, 3, 3), (9, 9, 3, 1)) assert_size_stride(arg1_1, (4, 1, 64, 64), (4096, 4096, 64, 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(arg1_1, arg0_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, 64, 64), (4096, 4096, 64, 1)) del arg0_1 buf1 = extern_kernels.convolution(arg1_1, 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, 64, 64), (4096, 4096, 64, 1)) del arg1_1 del arg2_1 buf2 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_abs_add_0[grid(16384)](buf2, buf1, 16384, XBLOCK= 256, num_warps=4, num_stages=1) del buf1 return buf2, class SobelxyNew(nn.Module): def __init__(self): super(SobelxyNew, self).__init__() kernelx = [[-1, 0, 1], [-2, 0, 2], [-1, 0, 1]] kernely = [[1, 2, 1], [0, 0, 0], [-1, -2, -1]] kernelx = torch.FloatTensor(kernelx).unsqueeze(0).unsqueeze(0) kernely = torch.FloatTensor(kernely).unsqueeze(0).unsqueeze(0) self.weightx = nn.Parameter(data=kernelx, requires_grad=False) self.weighty = nn.Parameter(data=kernely, requires_grad=False) def forward(self, input_0): arg0_1 = self.weightx arg2_1 = self.weighty arg1_1 = input_0 output = call([arg0_1, arg1_1, arg2_1]) return output[0]	Linfeng-Tang/SeAFusion	Sobelxy	false	8,500	[ "MIT" ]	18	54cf7ee116da3f726941560279bf12fedd0d434d	https://github.com/Linfeng-Tang/SeAFusion/tree/54cf7ee116da3f726941560279bf12fedd0d434d
ConvMeanPool	# 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/qn/cqnzog3b765odcrooldkgavbwpontrglmmuwgbjee3zmqqkqxqld.py # Topologically Sorted Source Nodes: [add, add_1, add_2, output_1], Original ATen: [aten.add, aten.div] # Source node to ATen node mapping: # add => add # add_1 => add_1 # add_2 => add_2 # output_1 => div # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%slice_4, %slice_8), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, %slice_12), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_1, %slice_16), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%add_2, 4), kwargs = {}) triton_poi_fused_add_div_0 = async_compile.triton('triton_poi_fused_add_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=[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_div_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_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 % 2 x1 = (xindex // 2) % 2 x4 = (xindex // 4) x2 = (xindex // 4) % 4 x6 = xindex tmp0 = tl.load(in_ptr0 + ((2x0) + (6x1) + (9x4)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x2), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (3 + (2x0) + (9x4)), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + (6x1) + (9x4)), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr0 + (4 + (9x4)), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp3 + tmp1 tmp5 = tmp2 + tmp4 tmp7 = tmp6 + tmp1 tmp8 = tmp5 + tmp7 tmp10 = tmp9 + tmp1 tmp11 = tmp8 + tmp10 tmp12 = 0.25 tmp13 = tmp11 * tmp12 tl.store(out_ptr0 + (x6), tmp13, 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: [output], 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, 3, 3), (36, 9, 3, 1)) buf1 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [add, add_1, add_2, output_1], Original ATen: [aten.add, aten.div] stream0 = get_raw_stream(0) triton_poi_fused_add_div_0.run(buf0, primals_2, buf1, 64, grid=grid(64), stream=stream0) del buf0 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, 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 from torch import nn class IWConv2d(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True, stride=1, bias=True): super(IWConv2d, self).__init__() self.he_init = he_init self.padding = int((kernel_size - 1) / 2) self.conv = nn.Conv2d(input_dim, output_dim, kernel_size, stride=1, padding=self.padding, bias=bias) def forward(self, input): output = self.conv(input) return output class ConvMeanPool(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True): super(ConvMeanPool, self).__init__() self.he_init = he_init self.conv = IWConv2d(input_dim, output_dim, kernel_size, he_init= self.he_init) def forward(self, input): output = self.conv(input) output = (output[:, :, ::2, ::2] + output[:, :, 1::2, ::2] + output [:, :, ::2, 1::2] + output[:, :, 1::2, 1::2]) / 4 return output def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'output_dim': 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 empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda @triton.jit def triton_poi_fused_add_div_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 % 2 x1 = xindex // 2 % 2 x4 = xindex // 4 x2 = xindex // 4 % 4 x6 = xindex tmp0 = tl.load(in_ptr0 + (2 * x0 + 6 * x1 + 9 * x4), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + x2, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (3 + 2 * x0 + 9 * x4), xmask, eviction_policy= 'evict_last') tmp6 = tl.load(in_ptr0 + (1 + 6 * x1 + 9 * x4), xmask, eviction_policy= 'evict_last') tmp9 = tl.load(in_ptr0 + (4 + 9 * x4), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp3 + tmp1 tmp5 = tmp2 + tmp4 tmp7 = tmp6 + tmp1 tmp8 = tmp5 + tmp7 tmp10 = tmp9 + tmp1 tmp11 = tmp8 + tmp10 tmp12 = 0.25 tmp13 = tmp11 * tmp12 tl.store(out_ptr0 + x6, tmp13, 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=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 3, 3), (36, 9, 3, 1)) buf1 = empty_strided_cuda((4, 4, 2, 2), (16, 4, 2, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_div_0[grid(64)](buf0, primals_2, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf0 del primals_2 return buf1, primals_1, primals_3 class IWConv2d(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True, stride=1, bias=True): super(IWConv2d, self).__init__() self.he_init = he_init self.padding = int((kernel_size - 1) / 2) self.conv = nn.Conv2d(input_dim, output_dim, kernel_size, stride=1, padding=self.padding, bias=bias) def forward(self, input): output = self.conv(input) return output class ConvMeanPoolNew(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True): super(ConvMeanPoolNew, self).__init__() self.he_init = he_init self.conv = IWConv2d(input_dim, output_dim, kernel_size, he_init= self.he_init) def forward(self, input_0): primals_1 = self.conv.conv.weight primals_2 = self.conv.conv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	MIC-DKFZ/mood	ConvMeanPool	false	8,501	[ "Apache-2.0" ]	42	a01303adb4256653b133e2f7cd4741d366b681f7	https://github.com/MIC-DKFZ/mood/tree/a01303adb4256653b133e2f7cd4741d366b681f7
Theta	# 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/z6/cz6fxlnijp347xv5rm3lywtwcqzqvfnzcs735xdanso2fwrshag3.py # Topologically Sorted Source Nodes: [output], Original ATen: [aten.mul] # Source node to ATen node mapping: # output => mul # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, 1.0), 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: '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_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_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 = 1.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/op/copjuyqxctfurn52iiv6fjxgyxeqsx6252xv24f3e6ls5rom55x2.py # Topologically Sorted Source Nodes: [autograd_function_apply], Original ATen: [aten.mul] # Source node to ATen node mapping: # autograd_function_apply => mul_1 # Graph fragment: # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, 1.0), kwargs = {}) triton_poi_fused_mul_1 = async_compile.triton('triton_poi_fused_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=[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_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_mul_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 = 1.0 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 = 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, )) 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: [output], Original ATen: [aten.mul] stream0 = get_raw_stream(0) triton_poi_fused_mul_0.run(primals_1, buf0, 256, grid=grid(256), stream=stream0) del primals_1 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 # Topologically Sorted Source Nodes: [autograd_function_apply], Original ATen: [aten.mul] triton_poi_fused_mul_1.run(buf2, primals_3, 256, grid=grid(256), stream=stream0) del primals_3 return (buf2, 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, 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) 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.autograd import Function import torch import torch.nn as nn from typing import Tuple from typing import Optional import torch.nn.parallel import torch.utils.data import torch.utils.data.distributed from typing import Any class GradientReverseFunction(Function): @staticmethod def forward(ctx: 'Any', input: 'torch.Tensor', coeff: 'Optional[float]'=1.0 ) ->torch.Tensor: ctx.coeff = coeff output = input * 1.0 return output @staticmethod def backward(ctx: 'Any', grad_output: 'torch.Tensor') ->Tuple[torch. Tensor, Any]: return grad_output.neg() * ctx.coeff, None class GradientReverseLayer(nn.Module): def __init__(self): super(GradientReverseLayer, self).__init__() def forward(self, input): return GradientReverseFunction.apply(input) class Theta(nn.Module): """ maximize loss respect to :math:` heta` minimize loss respect to features """ def __init__(self, dim: 'int'): super(Theta, self).__init__() self.grl1 = GradientReverseLayer() self.grl2 = GradientReverseLayer() self.layer1 = nn.Linear(dim, dim) nn.init.eye_(self.layer1.weight) nn.init.zeros_(self.layer1.bias) def forward(self, features: 'torch.Tensor') ->torch.Tensor: features = self.grl1(features) return self.grl2(self.layer1(features)) def get_inputs(): return [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.autograd import Function import torch.nn as nn from typing import Tuple from typing import Optional import torch.nn.parallel import torch.utils.data import torch.utils.data.distributed from typing import Any 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, 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 = 1.0 tmp2 = tmp0 * tmp1 tl.store(out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused_mul_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 = 1.0 tmp4 = tmp2 * tmp3 tl.store(in_out_ptr0 + x2, tmp4, 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, 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_mul_0[grid(256)](primals_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_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 triton_poi_fused_mul_1[grid(256)](buf2, primals_3, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_3 return buf2, reinterpret_tensor(buf0, (64, 4), (4, 1), 0) class GradientReverseFunction(Function): @staticmethod def forward(ctx: 'Any', input: 'torch.Tensor', coeff: 'Optional[float]'=1.0 ) ->torch.Tensor: ctx.coeff = coeff output = input * 1.0 return output @staticmethod def backward(ctx: 'Any', grad_output: 'torch.Tensor') ->Tuple[torch. Tensor, Any]: return grad_output.neg() * ctx.coeff, None class GradientReverseLayer(nn.Module): def __init__(self): super(GradientReverseLayer, self).__init__() def forward(self, input): return GradientReverseFunction.apply(input) class ThetaNew(nn.Module): """ maximize loss respect to :math:` heta` minimize loss respect to features """ def __init__(self, dim: 'int'): super(ThetaNew, self).__init__() self.grl1 = GradientReverseLayer() self.grl2 = GradientReverseLayer() self.layer1 = nn.Linear(dim, dim) nn.init.eye_(self.layer1.weight) nn.init.zeros_(self.layer1.bias) def forward(self, input_0): primals_2 = self.layer1.weight primals_3 = self.layer1.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	Liuhong99/CST	Theta	false	8,502	[ "MIT" ]	20	f6653a4ee7968fa3ba875a182670636f648be783	https://github.com/Liuhong99/CST/tree/f6653a4ee7968fa3ba875a182670636f648be783
ResidualBlock	# 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/tt/ctthexrcgmoykvsyasq7xirwxi6m3yxgjocmuvarikaawgqvdiws.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.reflection_pad2d] # Source node to ATen node mapping: # out => _unsafe_index, _unsafe_index_1 # Graph fragment: # %_unsafe_index : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%primals_1, [None, None, %sub_1, None]), kwargs = {}) # %_unsafe_index_1 : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%_unsafe_index, [None, None, None, %sub_1]), kwargs = {}) triton_poi_fused_reflection_pad2d_0 = async_compile.triton('triton_poi_fused_reflection_pad2d_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_reflection_pad2d_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_reflection_pad2d_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 576 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x1 = (xindex // 6) % 6 x2 = (xindex // 36) x3 = xindex tmp0 = tl.load(in_ptr0 + (15 + ((-1)(tl_math.abs((-3) + (tl_math.abs((-1) + x0))))) + ((-4)(tl_math.abs((-3) + (tl_math.abs((-1) + x1))))) + (16x2)), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + (x3), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/7r/c7r2u57hr54idc3of6lw2ouxuoyy44tzonl7cy4k7awnnjece2kt.py # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.convolution] # Source node to ATen node mapping: # out_1 => convolution # Graph fragment: # %convolution : [num_users=4] = call_function[target=torch.ops.aten.convolution.default](args = (%_unsafe_index_1, %primals_2, %primals_3, [1, 1], [0, 0], [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') # kernel path: runs/run_shard_1/inductor_cache/wh/cwhmb5w75ffemnfwu547qxluxhkkgkhs6atlxcttzp5jckxyboch.py # Topologically Sorted Source Nodes: [out_2, out_3], Original ATen: [aten._prelu_kernel, aten.reflection_pad2d] # Source node to ATen node mapping: # out_2 => gt, mul, where # out_3 => _unsafe_index_2, _unsafe_index_3 # Graph fragment: # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%convolution, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view, %convolution), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %convolution, %mul), kwargs = {}) # %_unsafe_index_2 : [num_users=1] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%where, [None, None, %sub_1, None]), kwargs = {}) # %_unsafe_index_3 : [num_users=2] = call_function[target=torch.ops.aten._unsafe_index.Tensor](args = (%_unsafe_index_2, [None, None, None, %sub_1]), kwargs = {}) triton_poi_fused__prelu_kernel_reflection_pad2d_2 = async_compile.triton('triton_poi_fused__prelu_kernel_reflection_pad2d_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=[1024], 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__prelu_kernel_reflection_pad2d_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__prelu_kernel_reflection_pad2d_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 576 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x1 = (xindex // 6) % 6 x2 = (xindex // 36) x3 = xindex tmp0 = tl.load(in_ptr0 + (15 + ((-1)(tl_math.abs((-3) + (tl_math.abs((-1) + x0))))) + ((-4)(tl_math.abs((-3) + (tl_math.abs((-1) + x1))))) + (16x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (0)) tmp4 = tl.broadcast_to(tmp3, [XBLOCK]) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp5 = tmp4 tmp0 tmp6 = tl.where(tmp2, tmp0, tmp5) tl.store(out_ptr0 + (x3), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/v7/cv7gx4m372r7cnfalxarorsrogr3vql35wbg5emyov3cdmfz4rfa.py # Topologically Sorted Source Nodes: [out_4, out_5, out_6], Original ATen: [aten.convolution, aten.mul, aten.add] # Source node to ATen node mapping: # out_4 => convolution_1 # out_5 => mul_1 # out_6 => add # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%_unsafe_index_3, %primals_5, %primals_6, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution_1, 0.1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %primals_1), kwargs = {}) triton_poi_fused_add_convolution_mul_3 = async_compile.triton('triton_poi_fused_add_convolution_mul_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_convolution_mul_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_convolution_mul_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 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') tmp5 = tl.load(in_ptr1 + (x3), xmask) tmp2 = tmp0 + tmp1 tmp3 = 0.1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 + tmp5 tl.store(in_out_ptr0 + (x3), 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 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_3, (4, ), (1, )) assert_size_stride(primals_4, (1, ), (1, )) assert_size_stride(primals_5, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_6, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 6, 6), (144, 36, 6, 1), torch.float32) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.reflection_pad2d] stream0 = get_raw_stream(0) triton_poi_fused_reflection_pad2d_0.run(primals_1, buf0, 576, grid=grid(576), stream=stream0) # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(buf0, primals_2, stride=(1, 1), padding=(0, 0), 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: [out_1], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(buf2, primals_3, 256, grid=grid(256), stream=stream0) del primals_3 buf3 = empty_strided_cuda((4, 4, 6, 6), (144, 36, 6, 1), torch.float32) # Topologically Sorted Source Nodes: [out_2, out_3], Original ATen: [aten._prelu_kernel, aten.reflection_pad2d] triton_poi_fused__prelu_kernel_reflection_pad2d_2.run(buf2, primals_4, buf3, 576, grid=grid(576), stream=stream0) # Topologically Sorted Source Nodes: [out_4], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(buf3, primals_5, stride=(1, 1), padding=(0, 0), 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 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [out_4, out_5, out_6], Original ATen: [aten.convolution, aten.mul, aten.add] triton_poi_fused_add_convolution_mul_3.run(buf5, primals_6, primals_1, 256, grid=grid(256), stream=stream0) del primals_1 del primals_6 return (buf5, primals_2, primals_4, primals_5, buf0, buf2, 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, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((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, 3, 3), (36, 9, 3, 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 torch import torch.nn as nn class ConvLayer(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, stride): super(ConvLayer, self).__init__() reflection_padding = kernel_size // 2 self.reflection_pad = nn.ReflectionPad2d(reflection_padding) self.conv2d = nn.Conv2d(in_channels, out_channels, kernel_size, stride) def forward(self, x): out = self.reflection_pad(x) out = self.conv2d(out) return out class ResidualBlock(torch.nn.Module): def __init__(self, channels): super(ResidualBlock, self).__init__() self.conv1 = ConvLayer(channels, channels, kernel_size=3, stride=1) self.conv2 = ConvLayer(channels, channels, kernel_size=3, stride=1) self.relu = nn.PReLU() def forward(self, x): residual = x out = self.relu(self.conv1(x)) out = self.conv2(out) * 0.1 out = torch.add(out, residual) return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'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 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_reflection_pad2d_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 576 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x1 = xindex // 6 % 6 x2 = xindex // 36 x3 = xindex tmp0 = tl.load(in_ptr0 + (15 + -1 * tl_math.abs(-3 + tl_math.abs(-1 + x0)) + -4 * tl_math.abs(-3 + tl_math.abs(-1 + x1)) + 16 * x2), xmask, eviction_policy='evict_last') tl.store(out_ptr0 + x3, tmp0, 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) @triton.jit def triton_poi_fused__prelu_kernel_reflection_pad2d_2(in_ptr0, in_ptr1, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 576 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex % 6 x1 = xindex // 6 % 6 x2 = xindex // 36 x3 = xindex tmp0 = tl.load(in_ptr0 + (15 + -1 * tl_math.abs(-3 + tl_math.abs(-1 + x0)) + -4 * tl_math.abs(-3 + tl_math.abs(-1 + x1)) + 16 * x2), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + 0) tmp4 = tl.broadcast_to(tmp3, [XBLOCK]) tmp1 = 0.0 tmp2 = tmp0 > tmp1 tmp5 = tmp4 * tmp0 tmp6 = tl.where(tmp2, tmp0, tmp5) tl.store(out_ptr0 + x3, tmp6, xmask) @triton.jit def triton_poi_fused_add_convolution_mul_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 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') tmp5 = tl.load(in_ptr1 + x3, xmask) tmp2 = tmp0 + tmp1 tmp3 = 0.1 tmp4 = tmp2 * tmp3 tmp6 = tmp4 + tmp5 tl.store(in_out_ptr0 + x3, tmp6, 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, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (1,), (1,)) assert_size_stride(primals_5, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_6, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 6, 6), (144, 36, 6, 1), torch.float32) get_raw_stream(0) triton_poi_fused_reflection_pad2d_0[grid(576)](primals_1, buf0, 576, XBLOCK=128, num_warps=4, num_stages=1) buf1 = extern_kernels.convolution(buf0, primals_2, stride=(1, 1), padding=(0, 0), 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_3, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_3 buf3 = empty_strided_cuda((4, 4, 6, 6), (144, 36, 6, 1), torch.float32) triton_poi_fused__prelu_kernel_reflection_pad2d_2[grid(576)](buf2, primals_4, buf3, 576, XBLOCK=128, num_warps=4, num_stages=1) buf4 = extern_kernels.convolution(buf3, primals_5, stride=(1, 1), padding=(0, 0), 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 = buf4 del buf4 triton_poi_fused_add_convolution_mul_3[grid(256)](buf5, primals_6, primals_1, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_1 del primals_6 return buf5, primals_2, primals_4, primals_5, buf0, buf2, buf3 class ConvLayer(nn.Module): def __init__(self, in_channels, out_channels, kernel_size, stride): super(ConvLayer, self).__init__() reflection_padding = kernel_size // 2 self.reflection_pad = nn.ReflectionPad2d(reflection_padding) self.conv2d = nn.Conv2d(in_channels, out_channels, kernel_size, stride) def forward(self, x): out = self.reflection_pad(x) out = self.conv2d(out) return out class ResidualBlockNew(torch.nn.Module): def __init__(self, channels): super(ResidualBlockNew, self).__init__() self.conv1 = ConvLayer(channels, channels, kernel_size=3, stride=1) self.conv2 = ConvLayer(channels, channels, kernel_size=3, stride=1) self.relu = nn.PReLU() def forward(self, input_0): primals_2 = self.conv1.conv2d.weight primals_3 = self.conv1.conv2d.bias primals_5 = self.conv2.conv2d.weight primals_6 = self.conv2.conv2d.bias primals_4 = self.relu.weight primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6]) return output[0]	MKFMIKU/PFFNet	ResidualBlock	false	8,503	[ "MIT" ]	41	e506010a7cf00a32e77681845bdaf78ba88b027d	https://github.com/MKFMIKU/PFFNet/tree/e506010a7cf00a32e77681845bdaf78ba88b027d
Spatial_Attention	# 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/zk/czk4kpgiq6zcc3ddwk2m5vm2rckden75f43hdtjem7q2qc67dbpl.py # Topologically Sorted Source Nodes: [att_score], Original ATen: [aten.softplus] # Source node to ATen node mapping: # att_score => exp, gt, log1p, where # Graph fragment: # %exp : [num_users=1] = call_function[target=torch.ops.aten.exp.default](args = (%convolution,), kwargs = {}) # %log1p : [num_users=1] = call_function[target=torch.ops.aten.log1p.default](args = (%exp,), kwargs = {}) # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%convolution, 20), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %convolution, %log1p), kwargs = {}) triton_poi_fused_softplus_0 = async_compile.triton('triton_poi_fused_softplus_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_softplus_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_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 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) tl.store(out_ptr0 + (x0), tmp5, 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, 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: [conv2d], 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, 1, 4, 4), (16, 16, 4, 1)) buf1 = empty_strided_cuda((4, 1, 4, 4), (16, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [att_score], Original ATen: [aten.softplus] stream0 = get_raw_stream(0) triton_poi_fused_softplus_0.run(buf0, buf1, 64, grid=grid(64), 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((1, 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)	import torch import torch.nn as nn class Spatial_Attention(nn.Module): def __init__(self, input_dim): super(Spatial_Attention, self).__init__() self.att_conv1 = nn.Conv2d(input_dim, 1, kernel_size=(1, 1), padding=0, stride=1, bias=False) self.att_act2 = nn.Softplus(beta=1, threshold=20) self._reset_parameters() def _reset_parameters(self): for p in self.parameters(): if p.dim() > 1: nn.init.xavier_uniform_(p) def forward(self, x): att_score = self.att_act2(self.att_conv1(x)) return att_score def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_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.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_poi_fused_softplus_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 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) tl.store(out_ptr0 + x0, tmp5, xmask) def call(args): primals_1, primals_2 = args args.clear() assert_size_stride(primals_1, (1, 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, 1, 4, 4), (16, 16, 4, 1)) buf1 = empty_strided_cuda((4, 1, 4, 4), (16, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_softplus_0[grid(64)](buf0, buf1, 64, XBLOCK=64, num_warps=1, num_stages=1) return buf1, primals_1, primals_2, buf0 class Spatial_AttentionNew(nn.Module): def __init__(self, input_dim): super(Spatial_AttentionNew, self).__init__() self.att_conv1 = nn.Conv2d(input_dim, 1, kernel_size=(1, 1), padding=0, stride=1, bias=False) self.att_act2 = nn.Softplus(beta=1, threshold=20) self._reset_parameters() def _reset_parameters(self): for p in self.parameters(): if p.dim() > 1: nn.init.xavier_uniform_(p) def forward(self, input_0): primals_1 = self.att_conv1.weight primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	MCC-WH/Token	Spatial_Attention	false	8,504	[ "MIT" ]	30	eadc301f2df9e1851633be1b63c273659af0da49	https://github.com/MCC-WH/Token/tree/eadc301f2df9e1851633be1b63c273659af0da49
region_levelset	# 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/mv/cmvz47ch3dym7sclktj42hufe6c4fpig64zsi573kcvcgtkqiuye.py # Topologically Sorted Source Nodes: [mul, sum_1, sum_2, mul_4, sum_4, sum_5, mul_8, sum_7, sum_8, mul_12, sum_10, sum_11], Original ATen: [aten.mul, aten.sum] # Source node to ATen node mapping: # mul => mul # mul_12 => mul_12 # mul_4 => mul_4 # mul_8 => mul_8 # sum_1 => sum_1 # sum_10 => sum_10 # sum_11 => sum_11 # sum_2 => sum_2 # sum_4 => sum_4 # sum_5 => sum_5 # sum_7 => sum_7 # sum_8 => sum_8 # Graph fragment: # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expand, %arg0_1), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul, [2, 3]), kwargs = {}) # %sum_2 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%arg0_1, [2, 3]), kwargs = {}) # %mul_4 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expand_2, %arg0_1), kwargs = {}) # %sum_4 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul_4, [2, 3]), kwargs = {}) # %sum_5 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%arg0_1, [2, 3]), kwargs = {}) # %mul_8 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expand_4, %arg0_1), kwargs = {}) # %sum_7 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul_8, [2, 3]), kwargs = {}) # %sum_8 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%arg0_1, [2, 3]), kwargs = {}) # %mul_12 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expand_6, %arg0_1), kwargs = {}) # %sum_10 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%mul_12, [2, 3]), kwargs = {}) # %sum_11 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%arg0_1, [2, 3]), kwargs = {}) triton_per_fused_mul_sum_0 = async_compile.triton('triton_per_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.persistent_reduction( size_hints=[16, 16], reduction_hint=ReductionHint.DEFAULT, 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: 'i32', 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_per_fused_mul_sum_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 5, 'num_reduction': 8, '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_mul_sum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, out_ptr4, out_ptr5, out_ptr6, out_ptr7, 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 x1 = (xindex // 4) x3 = xindex tmp0 = tl.load(in_ptr0 + (r2 + (64x1)), xmask, eviction_policy='evict_last', other=0.0) tmp1 = tl.load(in_ptr1 + (r2 + (16x3)), xmask, other=0.0) tmp11 = tl.load(in_ptr0 + (16 + r2 + (64x1)), xmask, eviction_policy='evict_last', other=0.0) tmp17 = tl.load(in_ptr0 + (32 + r2 + (64x1)), xmask, eviction_policy='evict_last', other=0.0) tmp23 = tl.load(in_ptr0 + (48 + r2 + (64x1)), xmask, eviction_policy='evict_last', other=0.0) tmp2 = tmp0 tmp1 tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tmp5 = tl.where(xmask, tmp3, 0) tmp6 = tl.sum(tmp5, 1)[:, None] tmp7 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp9 = tl.where(xmask, tmp7, 0) tmp10 = tl.sum(tmp9, 1)[:, None] tmp12 = tmp11 * tmp1 tmp13 = tl.broadcast_to(tmp12, [XBLOCK, RBLOCK]) tmp15 = tl.where(xmask, tmp13, 0) tmp16 = tl.sum(tmp15, 1)[:, None] tmp18 = tmp17 * tmp1 tmp19 = tl.broadcast_to(tmp18, [XBLOCK, RBLOCK]) tmp21 = tl.where(xmask, tmp19, 0) tmp22 = tl.sum(tmp21, 1)[:, None] tmp24 = tmp23 * tmp1 tmp25 = tl.broadcast_to(tmp24, [XBLOCK, RBLOCK]) tmp27 = tl.where(xmask, tmp25, 0) tmp28 = tl.sum(tmp27, 1)[:, None] tl.store(out_ptr0 + (x3), tmp6, xmask) tl.store(out_ptr1 + (x3), tmp10, xmask) tl.store(out_ptr2 + (x3), tmp16, xmask) tl.store(out_ptr3 + (x3), tmp10, xmask) tl.store(out_ptr4 + (x3), tmp22, xmask) tl.store(out_ptr5 + (x3), tmp10, xmask) tl.store(out_ptr6 + (x3), tmp28, xmask) tl.store(out_ptr7 + (x3), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/g2/cg2t7i23iyzkf5rcqvd7pnpwsm465s5isw6ejryzkmmukuy3sq4n.py # Topologically Sorted Source Nodes: [region_level, mul_1, mul_2, region_level_loss, sum_3, level_set_loss, region_level_1, mul_5, mul_6, region_level_loss_1, sum_6, level_set_loss_1, region_level_2, mul_9, mul_10, region_level_loss_2, sum_9, level_set_loss_2, region_level_3, mul_13, mul_14, region_level_loss_3, sum_12, level_set_loss_3], Original ATen: [aten.sub, aten.mul, aten.sum, aten.add] # Source node to ATen node mapping: # level_set_loss => add # level_set_loss_1 => add_1 # level_set_loss_2 => add_2 # level_set_loss_3 => add_3 # mul_1 => mul_1 # mul_10 => mul_10 # mul_13 => mul_13 # mul_14 => mul_14 # mul_2 => mul_2 # mul_5 => mul_5 # mul_6 => mul_6 # mul_9 => mul_9 # region_level => sub # region_level_1 => sub_1 # region_level_2 => sub_2 # region_level_3 => sub_3 # region_level_loss => mul_3 # region_level_loss_1 => mul_7 # region_level_loss_2 => mul_11 # region_level_loss_3 => mul_15 # sum_12 => sum_12 # sum_3 => sum_3 # sum_6 => sum_6 # sum_9 => sum_9 # Graph fragment: # %sub : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%expand, %expand_1), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg2_1, %sub), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_1, %sub), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_2, %arg0_1), kwargs = {}) # %sum_3 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_3,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sum_3, 0.0), kwargs = {}) # %sub_1 : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%expand_2, %expand_3), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg2_1, %sub_1), kwargs = {}) # %mul_6 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_5, %sub_1), kwargs = {}) # %mul_7 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_6, %arg0_1), kwargs = {}) # %sum_6 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_7,), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, %sum_6), kwargs = {}) # %sub_2 : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%expand_4, %expand_5), kwargs = {}) # %mul_9 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg2_1, %sub_2), kwargs = {}) # %mul_10 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_9, %sub_2), kwargs = {}) # %mul_11 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_10, %arg0_1), kwargs = {}) # %sum_9 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_11,), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_1, %sum_9), kwargs = {}) # %sub_3 : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%expand_6, %expand_7), kwargs = {}) # %mul_13 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%arg2_1, %sub_3), kwargs = {}) # %mul_14 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_13, %sub_3), kwargs = {}) # %mul_15 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mul_14, %arg0_1), kwargs = {}) # %sum_12 : [num_users=1] = call_function[target=torch.ops.aten.sum.default](args = (%mul_15,), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_2, %sum_12), kwargs = {}) triton_per_fused_add_mul_sub_sum_1 = async_compile.triton('triton_per_fused_add_mul_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, 256], reduction_hint=ReductionHint.INNER, 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: 'fp32', 12: 'i32', 13: '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': {12: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 13), equal_to_1=(12,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_add_mul_sub_sum_1', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 14, '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_mul_sub_sum_1(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, in_ptr8, in_ptr9, in_ptr10, 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) r3 = rindex r0 = rindex % 16 r2 = (rindex // 64) r4 = (rindex // 16) tmp0 = tl.load(in_ptr0 + (r3), None) tmp1 = tl.load(in_ptr1 + (r0 + (64r2)), None, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + (r4), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr3 + (r4), None, eviction_policy='evict_last') tmp8 = tl.load(in_ptr4 + (r3), None) tmp13 = tl.load(in_ptr1 + (16 + r0 + (64r2)), None, eviction_policy='evict_last') tmp14 = tl.load(in_ptr5 + (r4), None, eviction_policy='evict_last') tmp15 = tl.load(in_ptr6 + (r4), None, eviction_policy='evict_last') tmp24 = tl.load(in_ptr1 + (32 + r0 + (64r2)), None, eviction_policy='evict_last') tmp25 = tl.load(in_ptr7 + (r4), None, eviction_policy='evict_last') tmp26 = tl.load(in_ptr8 + (r4), None, eviction_policy='evict_last') tmp35 = tl.load(in_ptr1 + (48 + r0 + (64r2)), None, eviction_policy='evict_last') tmp36 = tl.load(in_ptr9 + (r4), None, eviction_policy='evict_last') tmp37 = tl.load(in_ptr10 + (r4), None, eviction_policy='evict_last') tmp4 = tmp2 / tmp3 tmp5 = tmp1 - tmp4 tmp6 = tmp0 * tmp5 tmp7 = tmp6 * tmp5 tmp9 = tmp7 * tmp8 tmp10 = tl.broadcast_to(tmp9, [RBLOCK]) tmp12 = triton_helpers.promote_to_tensor(tl.sum(tmp10, 0)) tmp16 = tmp14 / tmp15 tmp17 = tmp13 - tmp16 tmp18 = tmp0 * tmp17 tmp19 = tmp18 * tmp17 tmp20 = tmp19 * tmp8 tmp21 = tl.broadcast_to(tmp20, [RBLOCK]) tmp23 = triton_helpers.promote_to_tensor(tl.sum(tmp21, 0)) tmp27 = tmp25 / tmp26 tmp28 = tmp24 - tmp27 tmp29 = tmp0 * tmp28 tmp30 = tmp29 * tmp28 tmp31 = tmp30 * tmp8 tmp32 = tl.broadcast_to(tmp31, [RBLOCK]) tmp34 = triton_helpers.promote_to_tensor(tl.sum(tmp32, 0)) tmp38 = tmp36 / tmp37 tmp39 = tmp35 - tmp38 tmp40 = tmp0 * tmp39 tmp41 = tmp40 * tmp39 tmp42 = tmp41 * tmp8 tmp43 = tl.broadcast_to(tmp42, [RBLOCK]) tmp45 = triton_helpers.promote_to_tensor(tl.sum(tmp43, 0)) tmp46 = 0.0 tmp47 = tmp12 + tmp46 tmp48 = tmp47 + tmp23 tmp49 = tmp48 + tmp34 tmp50 = tmp49 + tmp45 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp50, 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, 1), torch.float32) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf3 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf4 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf6 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf7 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf9 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf10 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [mul, sum_1, sum_2, mul_4, sum_4, sum_5, mul_8, sum_7, sum_8, mul_12, sum_10, sum_11], Original ATen: [aten.mul, aten.sum] stream0 = get_raw_stream(0) triton_per_fused_mul_sum_0.run(arg1_1, arg0_1, buf0, buf1, buf3, buf4, buf6, buf7, buf9, buf10, 16, 16, grid=grid(16), stream=stream0) buf11 = empty_strided_cuda((), (), torch.float32) buf12 = buf11; del buf11 # reuse # Topologically Sorted Source Nodes: [region_level, mul_1, mul_2, region_level_loss, sum_3, level_set_loss, region_level_1, mul_5, mul_6, region_level_loss_1, sum_6, level_set_loss_1, region_level_2, mul_9, mul_10, region_level_loss_2, sum_9, level_set_loss_2, region_level_3, mul_13, mul_14, region_level_loss_3, sum_12, level_set_loss_3], Original ATen: [aten.sub, aten.mul, aten.sum, aten.add] triton_per_fused_add_mul_sub_sum_1.run(buf12, arg2_1, arg1_1, buf0, buf1, arg0_1, buf3, buf4, buf6, buf7, buf9, buf10, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 del arg2_1 del buf0 del buf1 del buf10 del buf3 del buf4 del buf6 del buf7 del buf9 return (buf12, ) 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 class region_levelset(nn.Module): """ the mian of leveset function """ def __init__(self): super(region_levelset, self).__init__() def forward(self, mask_score, norm_img, class_weight): """ mask_score: predcited mask scores tensor:(N,C,W,H) norm_img: normalizated images tensor:(N,C,W,H) class_weight: weight for different classes """ mask_score_shape = mask_score.shape norm_img_shape = norm_img.shape level_set_loss = 0.0 for i in range(norm_img_shape[1]): norm_img_ = torch.unsqueeze(norm_img[:, i], 1) norm_img_ = norm_img_.expand(norm_img_shape[0], mask_score_shape[1], norm_img_shape[2], norm_img_shape[3]) ave_similarity = torch.sum(norm_img_ * mask_score, (2, 3) ) / torch.sum(mask_score, (2, 3)) ave_similarity = ave_similarity.view(norm_img_shape[0], mask_score_shape[1], 1, 1) region_level = norm_img_ - ave_similarity.expand(norm_img_shape [0], mask_score_shape[1], norm_img_shape[2], norm_img_shape[3]) region_level_loss = (class_weight * region_level * region_level * mask_score) level_set_loss += torch.sum(region_level_loss) return level_set_loss 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 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_mul_sum_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, out_ptr2, out_ptr3, out_ptr4, out_ptr5, out_ptr6, out_ptr7, 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 x1 = xindex // 4 x3 = xindex tmp0 = tl.load(in_ptr0 + (r2 + 64 * x1), xmask, eviction_policy= 'evict_last', other=0.0) tmp1 = tl.load(in_ptr1 + (r2 + 16 * x3), xmask, other=0.0) tmp11 = tl.load(in_ptr0 + (16 + r2 + 64 * x1), xmask, eviction_policy= 'evict_last', other=0.0) tmp17 = tl.load(in_ptr0 + (32 + r2 + 64 * x1), xmask, eviction_policy= 'evict_last', other=0.0) tmp23 = tl.load(in_ptr0 + (48 + r2 + 64 * x1), xmask, eviction_policy= 'evict_last', other=0.0) tmp2 = tmp0 * tmp1 tmp3 = tl.broadcast_to(tmp2, [XBLOCK, RBLOCK]) tmp5 = tl.where(xmask, tmp3, 0) tmp6 = tl.sum(tmp5, 1)[:, None] tmp7 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp9 = tl.where(xmask, tmp7, 0) tmp10 = tl.sum(tmp9, 1)[:, None] tmp12 = tmp11 * tmp1 tmp13 = tl.broadcast_to(tmp12, [XBLOCK, RBLOCK]) tmp15 = tl.where(xmask, tmp13, 0) tmp16 = tl.sum(tmp15, 1)[:, None] tmp18 = tmp17 * tmp1 tmp19 = tl.broadcast_to(tmp18, [XBLOCK, RBLOCK]) tmp21 = tl.where(xmask, tmp19, 0) tmp22 = tl.sum(tmp21, 1)[:, None] tmp24 = tmp23 * tmp1 tmp25 = tl.broadcast_to(tmp24, [XBLOCK, RBLOCK]) tmp27 = tl.where(xmask, tmp25, 0) tmp28 = tl.sum(tmp27, 1)[:, None] tl.store(out_ptr0 + x3, tmp6, xmask) tl.store(out_ptr1 + x3, tmp10, xmask) tl.store(out_ptr2 + x3, tmp16, xmask) tl.store(out_ptr3 + x3, tmp10, xmask) tl.store(out_ptr4 + x3, tmp22, xmask) tl.store(out_ptr5 + x3, tmp10, xmask) tl.store(out_ptr6 + x3, tmp28, xmask) tl.store(out_ptr7 + x3, tmp10, xmask) @triton.jit def triton_per_fused_add_mul_sub_sum_1(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, in_ptr4, in_ptr5, in_ptr6, in_ptr7, in_ptr8, in_ptr9, in_ptr10, 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) r3 = rindex r0 = rindex % 16 r2 = rindex // 64 r4 = rindex // 16 tmp0 = tl.load(in_ptr0 + r3, None) tmp1 = tl.load(in_ptr1 + (r0 + 64 * r2), None, eviction_policy='evict_last' ) tmp2 = tl.load(in_ptr2 + r4, None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr3 + r4, None, eviction_policy='evict_last') tmp8 = tl.load(in_ptr4 + r3, None) tmp13 = tl.load(in_ptr1 + (16 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp14 = tl.load(in_ptr5 + r4, None, eviction_policy='evict_last') tmp15 = tl.load(in_ptr6 + r4, None, eviction_policy='evict_last') tmp24 = tl.load(in_ptr1 + (32 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp25 = tl.load(in_ptr7 + r4, None, eviction_policy='evict_last') tmp26 = tl.load(in_ptr8 + r4, None, eviction_policy='evict_last') tmp35 = tl.load(in_ptr1 + (48 + r0 + 64 * r2), None, eviction_policy= 'evict_last') tmp36 = tl.load(in_ptr9 + r4, None, eviction_policy='evict_last') tmp37 = tl.load(in_ptr10 + r4, None, eviction_policy='evict_last') tmp4 = tmp2 / tmp3 tmp5 = tmp1 - tmp4 tmp6 = tmp0 * tmp5 tmp7 = tmp6 * tmp5 tmp9 = tmp7 * tmp8 tmp10 = tl.broadcast_to(tmp9, [RBLOCK]) tmp12 = triton_helpers.promote_to_tensor(tl.sum(tmp10, 0)) tmp16 = tmp14 / tmp15 tmp17 = tmp13 - tmp16 tmp18 = tmp0 * tmp17 tmp19 = tmp18 * tmp17 tmp20 = tmp19 * tmp8 tmp21 = tl.broadcast_to(tmp20, [RBLOCK]) tmp23 = triton_helpers.promote_to_tensor(tl.sum(tmp21, 0)) tmp27 = tmp25 / tmp26 tmp28 = tmp24 - tmp27 tmp29 = tmp0 * tmp28 tmp30 = tmp29 * tmp28 tmp31 = tmp30 * tmp8 tmp32 = tl.broadcast_to(tmp31, [RBLOCK]) tmp34 = triton_helpers.promote_to_tensor(tl.sum(tmp32, 0)) tmp38 = tmp36 / tmp37 tmp39 = tmp35 - tmp38 tmp40 = tmp0 * tmp39 tmp41 = tmp40 * tmp39 tmp42 = tmp41 * tmp8 tmp43 = tl.broadcast_to(tmp42, [RBLOCK]) tmp45 = triton_helpers.promote_to_tensor(tl.sum(tmp43, 0)) tmp46 = 0.0 tmp47 = tmp12 + tmp46 tmp48 = tmp47 + tmp23 tmp49 = tmp48 + tmp34 tmp50 = tmp49 + tmp45 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp50, 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, 1), torch.float32) buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf3 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf4 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf6 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf7 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf9 = empty_strided_cuda((4, 4), (4, 1), torch.float32) buf10 = empty_strided_cuda((4, 4), (4, 1), torch.float32) get_raw_stream(0) triton_per_fused_mul_sum_0[grid(16)](arg1_1, arg0_1, buf0, buf1, buf3, buf4, buf6, buf7, buf9, buf10, 16, 16, XBLOCK=1, num_warps=2, num_stages=1) buf11 = empty_strided_cuda((), (), torch.float32) buf12 = buf11 del buf11 triton_per_fused_add_mul_sub_sum_1[grid(1)](buf12, arg2_1, arg1_1, buf0, buf1, arg0_1, buf3, buf4, buf6, buf7, buf9, buf10, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 del arg2_1 del buf0 del buf1 del buf10 del buf3 del buf4 del buf6 del buf7 del buf9 return buf12, class region_levelsetNew(nn.Module): """ the mian of leveset function """ def __init__(self): super(region_levelsetNew, 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]	LiWentomng/boxlevelset	region_levelset	false	8,505	[ "Apache-2.0" ]	25	8cc40bf6ae4a343c482c676c72259cc12c29d31c	https://github.com/LiWentomng/boxlevelset/tree/8cc40bf6ae4a343c482c676c72259cc12c29d31c
DenseBlock	# 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/vr/cvrzdlqon52ca4s32ukeiphg5k4dhmja5rakiihkan5hikrjjhcb.py # Topologically Sorted Source Nodes: [conv2d, leaky_relu], Original ATen: [aten.convolution, aten.leaky_relu] # Source node to ATen node mapping: # conv2d => convolution # leaky_relu => gt # Graph fragment: # %convolution : [num_users=3] = 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 = {}) # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%convolution, 0), kwargs = {}) triton_poi_fused_convolution_leaky_relu_0 = async_compile.triton('triton_poi_fused_convolution_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=[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_convolution_leaky_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_leaky_relu_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 x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tl.store(out_ptr0 + (x3), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/sv/csvtw3lmwcmnmalgewyxybblbum7tzplkwtpcjwpdd2q5vp6aqqe.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.cat] # Source node to ATen node mapping: # x => cat # Graph fragment: # %cat : [num_users=3] = call_function[target=torch.ops.aten.cat.default](args = ([%primals_3, %where], 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=[512], 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_cat_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_cat_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, 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).to(tl.int1) tmp10 = tl.load(in_ptr2 + (x0 + (16((-4) + x1)) + (64x2)), tmp6 & xmask, other=0.0) tmp11 = tl.load(in_ptr3 + ((-4) + x1), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp12 = tmp10 + tmp11 tmp13 = 0.2 tmp14 = tmp12 * tmp13 tmp15 = tl.where(tmp9, tmp12, tmp14) tmp16 = tl.full(tmp15.shape, 0.0, tmp15.dtype) tmp17 = tl.where(tmp6, tmp15, tmp16) tmp18 = tl.where(tmp4, tmp5, tmp17) tl.store(out_ptr0 + (x3), tmp18, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/6g/c6g6ublvd7ywfet33mpprvfyin2qrzrd4ihmsxdbvxfmveftgpdp.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.cat] # Source node to ATen node mapping: # x_1 => cat_1 # Graph fragment: # %cat_1 : [num_users=1] = call_function[target=torch.ops.aten.cat.default](args = ([%cat, %where_1], 1), 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=[1024], 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_cat_2', '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_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 768 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 16) % 12 x0 = xindex % 16 x2 = (xindex // 192) x3 = xindex tmp0 = x1 tmp1 = tl.full([1], 0, tl.int64) tmp2 = tmp0 >= tmp1 tmp3 = tl.full([1], 8, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x0 + (16x1) + (128x2)), tmp4 & xmask, other=0.0) tmp6 = tmp0 >= tmp3 tmp7 = tl.full([1], 12, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tl.load(in_ptr1 + (x0 + (16((-8) + x1)) + (64x2)), tmp6 & xmask, other=0.0).to(tl.int1) tmp10 = tl.load(in_ptr2 + (x0 + (16((-8) + x1)) + (64x2)), tmp6 & xmask, other=0.0) tmp11 = tl.load(in_ptr3 + ((-8) + x1), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp12 = tmp10 + tmp11 tmp13 = 0.2 tmp14 = tmp12 * tmp13 tmp15 = tl.where(tmp9, tmp12, tmp14) tmp16 = tl.full(tmp15.shape, 0.0, tmp15.dtype) tmp17 = tl.where(tmp6, tmp15, tmp16) tmp18 = tl.where(tmp4, tmp5, tmp17) tl.store(out_ptr0 + (x3), tmp18, 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, 3, 3), (36, 9, 3, 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, 8, 3, 3), (72, 9, 3, 1)) assert_size_stride(primals_5, (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, 4, 4), (64, 16, 4, 1)) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [conv2d, leaky_relu], Original ATen: [aten.convolution, aten.leaky_relu] stream0 = get_raw_stream(0) triton_poi_fused_convolution_leaky_relu_0.run(buf0, primals_2, buf1, 256, grid=grid(256), stream=stream0) buf2 = empty_strided_cuda((4, 8, 4, 4), (128, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.cat] triton_poi_fused_cat_1.run(primals_3, buf1, buf0, primals_2, buf2, 512, grid=grid(512), stream=stream0) del buf0 del primals_2 # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf3 = 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(buf3, (4, 4, 4, 4), (64, 16, 4, 1)) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [conv2d_1, leaky_relu_1], Original ATen: [aten.convolution, aten.leaky_relu] triton_poi_fused_convolution_leaky_relu_0.run(buf3, primals_5, buf4, 256, grid=grid(256), stream=stream0) buf5 = empty_strided_cuda((4, 12, 4, 4), (192, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.cat] triton_poi_fused_cat_2.run(buf2, buf4, buf3, primals_5, buf5, 768, grid=grid(768), stream=stream0) del buf3 del primals_5 return (buf5, primals_1, primals_3, primals_4, buf1, 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, 3, 3), (36, 9, 3, 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, 8, 3, 3), (72, 9, 3, 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 import torch.nn as nn import torch.nn.functional as F class ConvLeakyRelu2d(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=3, padding=1, stride=1, dilation=1, groups=1): super(ConvLeakyRelu2d, self).__init__() self.conv = nn.Conv2d(in_channels, out_channels, kernel_size= kernel_size, padding=padding, stride=stride, dilation=dilation, groups=groups) def forward(self, x): return F.leaky_relu(self.conv(x), negative_slope=0.2) class DenseBlock(nn.Module): def __init__(self, channels): super(DenseBlock, self).__init__() self.conv1 = ConvLeakyRelu2d(channels, channels) self.conv2 = ConvLeakyRelu2d(2 * channels, channels) def forward(self, x): x = torch.cat((x, self.conv1(x)), dim=1) x = torch.cat((x, self.conv2(x)), dim=1) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'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.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_leaky_relu_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 x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tl.store(out_ptr0 + x3, tmp4, xmask) @triton.jit def triton_poi_fused_cat_1(in_ptr0, in_ptr1, in_ptr2, in_ptr3, 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).to(tl.int1) tmp10 = tl.load(in_ptr2 + (x0 + 16 * (-4 + x1) + 64 * x2), tmp6 & xmask, other=0.0) tmp11 = tl.load(in_ptr3 + (-4 + x1), tmp6 & xmask, eviction_policy= 'evict_last', other=0.0) tmp12 = tmp10 + tmp11 tmp13 = 0.2 tmp14 = tmp12 * tmp13 tmp15 = tl.where(tmp9, tmp12, tmp14) tmp16 = tl.full(tmp15.shape, 0.0, tmp15.dtype) tmp17 = tl.where(tmp6, tmp15, tmp16) tmp18 = tl.where(tmp4, tmp5, tmp17) tl.store(out_ptr0 + x3, tmp18, xmask) @triton.jit def triton_poi_fused_cat_2(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 768 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 16 % 12 x0 = xindex % 16 x2 = xindex // 192 x3 = xindex tmp0 = x1 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 8, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (x0 + 16 * x1 + 128 * x2), tmp4 & xmask, other=0.0 ) tmp6 = tmp0 >= tmp3 tl.full([1], 12, tl.int64) tmp9 = tl.load(in_ptr1 + (x0 + 16 * (-8 + x1) + 64 * x2), tmp6 & xmask, other=0.0).to(tl.int1) tmp10 = tl.load(in_ptr2 + (x0 + 16 * (-8 + x1) + 64 * x2), tmp6 & xmask, other=0.0) tmp11 = tl.load(in_ptr3 + (-8 + x1), tmp6 & xmask, eviction_policy= 'evict_last', other=0.0) tmp12 = tmp10 + tmp11 tmp13 = 0.2 tmp14 = tmp12 * tmp13 tmp15 = tl.where(tmp9, tmp12, tmp14) tmp16 = tl.full(tmp15.shape, 0.0, tmp15.dtype) tmp17 = tl.where(tmp6, tmp15, tmp16) tmp18 = tl.where(tmp4, tmp5, tmp17) tl.store(out_ptr0 + x3, tmp18, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 4, 3, 3), (36, 9, 3, 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, 8, 3, 3), (72, 9, 3, 1)) assert_size_stride(primals_5, (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, 4, 4), (64, 16, 4, 1)) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_convolution_leaky_relu_0[grid(256)](buf0, primals_2, buf1, 256, XBLOCK=128, num_warps=4, num_stages=1) buf2 = empty_strided_cuda((4, 8, 4, 4), (128, 16, 4, 1), torch.float32) triton_poi_fused_cat_1[grid(512)](primals_3, buf1, buf0, primals_2, buf2, 512, XBLOCK=256, num_warps=4, num_stages=1) del buf0 del primals_2 buf3 = 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(buf3, (4, 4, 4, 4), (64, 16, 4, 1)) buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_convolution_leaky_relu_0[grid(256)](buf3, primals_5, buf4, 256, XBLOCK=128, num_warps=4, num_stages=1) buf5 = empty_strided_cuda((4, 12, 4, 4), (192, 16, 4, 1), torch.float32 ) triton_poi_fused_cat_2[grid(768)](buf2, buf4, buf3, primals_5, buf5, 768, XBLOCK=256, num_warps=4, num_stages=1) del buf3 del primals_5 return buf5, primals_1, primals_3, primals_4, buf1, buf2, buf4 class ConvLeakyRelu2d(nn.Module): def __init__(self, in_channels, out_channels, kernel_size=3, padding=1, stride=1, dilation=1, groups=1): super(ConvLeakyRelu2d, self).__init__() self.conv = nn.Conv2d(in_channels, out_channels, kernel_size= kernel_size, padding=padding, stride=stride, dilation=dilation, groups=groups) def forward(self, x): return F.leaky_relu(self.conv(x), negative_slope=0.2) class DenseBlockNew(nn.Module): def __init__(self, channels): super(DenseBlockNew, self).__init__() self.conv1 = ConvLeakyRelu2d(channels, channels) self.conv2 = ConvLeakyRelu2d(2 * channels, channels) def forward(self, input_0): primals_1 = self.conv1.conv.weight primals_2 = self.conv1.conv.bias primals_4 = self.conv2.conv.weight primals_5 = self.conv2.conv.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	Linfeng-Tang/SeAFusion	DenseBlock	false	8,506	[ "MIT" ]	18	54cf7ee116da3f726941560279bf12fedd0d434d	https://github.com/Linfeng-Tang/SeAFusion/tree/54cf7ee116da3f726941560279bf12fedd0d434d
UpSampleConv	# 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/e5/ce5c7mcahwikuboaadgg5lcqtjgwxoxjx6qtxx6szcb7q6pqz6io.py # Topologically Sorted Source Nodes: [output_2], Original ATen: [aten.clone] # Source node to ATen node mapping: # output_2 => clone_4 # Graph fragment: # %clone_4 : [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=[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': 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_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 x2 = (xindex // 32) % 2 x4 = (xindex // 256) x0 = xindex % 4 x1 = (xindex // 4) % 8 x3 = (xindex // 64) % 4 x6 = xindex tmp0 = x4 + (4x2) 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 + ((4x3) + (16x0) + (64(x4 + (4x2))) + (x1 // 2)), 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 + ((4x3) + (16x0) + (64((-4) + x4 + (4x2))) + (x1 // 2)), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + (x6), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/pl/cpl5n5v3qqztdss72nul7zxzazxemhi7uemzvhfojv5grac775tc.py # Topologically Sorted Source Nodes: [output_4], Original ATen: [aten.convolution] # Source node to ATen node mapping: # output_4 => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%permute_3, %primals_2, %primals_3, [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=[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_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 = 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 y3 = yindex y0 = yindex % 4 y1 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x2 + (16y3)), xmask & ymask) tl.store(out_ptr0 + (y0 + (4x2) + (64y1)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/lb/clbi4kjn4kd7iweo4dh632cclehwfipyd7migle3ea4mdqnuesni.py # Topologically Sorted Source Nodes: [output_4], Original ATen: [aten.convolution] # Source node to ATen node mapping: # output_4 => convolution # Graph fragment: # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%permute_3, %primals_2, %primals_3, [1, 1], [1, 1], [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=[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_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 = 784 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, 2, 8, 4), (256, 64, 32, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [output_2], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(primals_1, buf0, 1024, grid=grid(1024), stream=stream0) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) # Topologically Sorted Source Nodes: [output_4], Original ATen: [aten.convolution] triton_poi_fused_convolution_1.run(primals_2, buf1, 16, 16, grid=grid(16, 16), stream=stream0) # Topologically Sorted Source Nodes: [output_4], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(reinterpret_tensor(buf0, (4, 4, 8, 8), (256, 1, 32, 4), 0), buf1, 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, 7, 7), (196, 1, 28, 4)) del buf1 buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [output_4], Original ATen: [aten.convolution] triton_poi_fused_convolution_2.run(buf3, primals_3, 784, grid=grid(784), stream=stream0) del primals_3 return (buf3, primals_2, reinterpret_tensor(buf0, (4, 4, 8, 8), (256, 1, 32, 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, 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 IWConv2d(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True, stride=1, bias=True): super(IWConv2d, self).__init__() self.he_init = he_init self.padding = int((kernel_size - 1) / 2) self.conv = nn.Conv2d(input_dim, output_dim, kernel_size, stride=1, padding=self.padding, bias=bias) def forward(self, input): output = self.conv(input) return output class DepthToSpace(nn.Module): def __init__(self, block_size): super(DepthToSpace, self).__init__() self.block_size = block_size self.block_size_sq = block_size * block_size def forward(self, input): output = input.permute(0, 2, 3, 1) batch_size, input_height, input_width, input_depth = output.size() output_depth = int(input_depth / self.block_size_sq) output_width = int(input_width * self.block_size) output_height = int(input_height * self.block_size) t_1 = output.reshape(batch_size, input_height, input_width, self. block_size_sq, output_depth) spl = t_1.split(self.block_size, 3) stacks = [t_t.reshape(batch_size, input_height, output_width, output_depth) for t_t in spl] output = torch.stack(stacks, 0).transpose(0, 1).permute(0, 2, 1, 3, 4 ).reshape(batch_size, output_height, output_width, output_depth) output = output.permute(0, 3, 1, 2) return output class UpSampleConv(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True, bias=True): super(UpSampleConv, self).__init__() self.he_init = he_init self.conv = IWConv2d(input_dim, output_dim, kernel_size, he_init= self.he_init, bias=bias) self.depth_to_space = DepthToSpace(2) def forward(self, input): output = input output = torch.cat((output, output, output, output), 1) output = self.depth_to_space(output) output = self.conv(output) return output def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'output_dim': 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 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 x2 = xindex // 32 % 2 x4 = xindex // 256 x0 = xindex % 4 x1 = xindex // 4 % 8 x3 = xindex // 64 % 4 x6 = xindex tmp0 = x4 + 4 * x2 tl.full([1], 0, tl.int64) tmp3 = tl.full([1], 4, tl.int64) tmp4 = tmp0 < tmp3 tmp5 = tl.load(in_ptr0 + (4 * x3 + 16 * x0 + 64 * (x4 + 4 * x2) + x1 // 2), tmp4 & xmask, eviction_policy='evict_last', other=0.0) tmp6 = tmp0 >= tmp3 tl.full([1], 8, tl.int64) tmp9 = tl.load(in_ptr0 + (4 * x3 + 16 * x0 + 64 * (-4 + x4 + 4 * x2) + x1 // 2), tmp6 & xmask, eviction_policy='evict_last', other=0.0) tmp10 = tl.where(tmp4, tmp5, tmp9) tl.store(out_ptr0 + x6, tmp10, xmask) @triton.jit def triton_poi_fused_convolution_1(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 y3 = yindex y0 = yindex % 4 y1 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x2 + 16 * y3), xmask & ymask) tl.store(out_ptr0 + (y0 + 4 * x2 + 64 * y1), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_convolution_2(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 784 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, 2, 8, 4), (256, 64, 32, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(1024)](primals_1, buf0, 1024, XBLOCK= 128, num_warps=4, num_stages=1) del primals_1 buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) triton_poi_fused_convolution_1[grid(16, 16)](primals_2, buf1, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) buf2 = extern_kernels.convolution(reinterpret_tensor(buf0, (4, 4, 8, 8), (256, 1, 32, 4), 0), buf1, 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, 7, 7), (196, 1, 28, 4)) del buf1 buf3 = buf2 del buf2 triton_poi_fused_convolution_2[grid(784)](buf3, primals_3, 784, XBLOCK=128, num_warps=4, num_stages=1) del primals_3 return buf3, primals_2, reinterpret_tensor(buf0, (4, 4, 8, 8), (256, 1, 32, 4), 0) class IWConv2d(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True, stride=1, bias=True): super(IWConv2d, self).__init__() self.he_init = he_init self.padding = int((kernel_size - 1) / 2) self.conv = nn.Conv2d(input_dim, output_dim, kernel_size, stride=1, padding=self.padding, bias=bias) def forward(self, input): output = self.conv(input) return output class DepthToSpace(nn.Module): def __init__(self, block_size): super(DepthToSpace, self).__init__() self.block_size = block_size self.block_size_sq = block_size * block_size def forward(self, input): output = input.permute(0, 2, 3, 1) batch_size, input_height, input_width, input_depth = output.size() output_depth = int(input_depth / self.block_size_sq) output_width = int(input_width * self.block_size) output_height = int(input_height * self.block_size) t_1 = output.reshape(batch_size, input_height, input_width, self. block_size_sq, output_depth) spl = t_1.split(self.block_size, 3) stacks = [t_t.reshape(batch_size, input_height, output_width, output_depth) for t_t in spl] output = torch.stack(stacks, 0).transpose(0, 1).permute(0, 2, 1, 3, 4 ).reshape(batch_size, output_height, output_width, output_depth) output = output.permute(0, 3, 1, 2) return output class UpSampleConvNew(nn.Module): def __init__(self, input_dim, output_dim, kernel_size, he_init=True, bias=True): super(UpSampleConvNew, self).__init__() self.he_init = he_init self.conv = IWConv2d(input_dim, output_dim, kernel_size, he_init= self.he_init, bias=bias) self.depth_to_space = DepthToSpace(2) def forward(self, input_0): primals_1 = self.conv.conv.weight primals_3 = self.conv.conv.bias primals_2 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	MIC-DKFZ/mood	UpSampleConv	false	8,507	[ "Apache-2.0" ]	42	a01303adb4256653b133e2f7cd4741d366b681f7	https://github.com/MIC-DKFZ/mood/tree/a01303adb4256653b133e2f7cd4741d366b681f7
BoxFilter	# 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/pt/cpt26prglttdisadiomvjlrqb43bp3phnobdjv5nhijl3aibvswy.py # Topologically Sorted Source Nodes: [kernel_x], Original ATen: [aten.full] # Source node to ATen node mapping: # kernel_x => full_default # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 1, 1, 9], 0.1111111111111111), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) triton_poi_fused_full_0 = async_compile.triton('triton_poi_fused_full_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: '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,), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_full_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_full_0(out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 36 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = 0.1111111111111111 tl.store(out_ptr0 + (x0), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/fw/cfwlerbc45zk23pk6tllwhmv4phnr66xgdlogdxyf5knpp3mheeb.py # Topologically Sorted Source Nodes: [kernel_x, x], Original ATen: [aten.full, aten.convolution] # Source node to ATen node mapping: # kernel_x => full_default # x => convolution # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 1, 1, 9], 0.1111111111111111), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%arg0_1, %full_default, None, [1, 1], [0, 4], [1, 1], False, [0, 0], 4), kwargs = {}) triton_poi_fused_convolution_full_1 = async_compile.triton('triton_poi_fused_convolution_full_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, 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_convolution_full_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_full_1(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 y3 = yindex y0 = yindex % 4 y1 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x2 + (16y3)), xmask & ymask) tl.store(out_ptr0 + (y0 + (4x2) + (64y1)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ib/cibiglxyui5nn4mhdjq2agvrsixm6bqunlff5o2y7r6yl67klxbw.py # Topologically Sorted Source Nodes: [kernel_y, x_1], Original ATen: [aten.full, aten.convolution] # Source node to ATen node mapping: # kernel_y => full_default_1 # x_1 => convolution_1 # Graph fragment: # %full_default_1 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 1, 9, 1], 0.1111111111111111), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%convolution, %full_default_1, None, [1, 1], [4, 0], [1, 1], False, [0, 0], 4), kwargs = {}) triton_poi_fused_convolution_full_2 = async_compile.triton('triton_poi_fused_convolution_full_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, 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_convolution_full_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_convolution_full_2(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 y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (64y1)), xmask & ymask) tl.store(out_ptr0 + (x2 + (16*y3)), 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, 1, 1, 9), (9, 9, 9, 1), torch.float32) # Topologically Sorted Source Nodes: [kernel_x], Original ATen: [aten.full] stream0 = get_raw_stream(0) triton_poi_fused_full_0.run(buf0, 36, grid=grid(36), stream=stream0) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) # Topologically Sorted Source Nodes: [kernel_x, x], Original ATen: [aten.full, aten.convolution] triton_poi_fused_convolution_full_1.run(arg0_1, buf1, 16, 16, grid=grid(16, 16), stream=stream0) del arg0_1 # Topologically Sorted Source Nodes: [kernel_x, x], Original ATen: [aten.full, aten.convolution] buf2 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(0, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf2, (4, 4, 4, 4), (64, 1, 16, 4)) del buf1 buf3 = reinterpret_tensor(buf0, (4, 1, 9, 1), (9, 9, 1, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [kernel_y], Original ATen: [aten.full] triton_poi_fused_full_0.run(buf3, 36, grid=grid(36), stream=stream0) # Topologically Sorted Source Nodes: [kernel_y, x_1], Original ATen: [aten.full, aten.convolution] buf4 = extern_kernels.convolution(buf2, buf3, stride=(1, 1), padding=(4, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf4, (4, 4, 4, 4), (64, 1, 16, 4)) del buf3 buf5 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [kernel_y, x_1], Original ATen: [aten.full, aten.convolution] triton_poi_fused_convolution_full_2.run(buf4, buf5, 16, 16, grid=grid(16, 16), stream=stream0) del buf4 return (buf5, ) 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 torchvision.transforms import functional as F from torch import nn from torch.nn import functional as F class BoxFilter(nn.Module): def __init__(self, r): super(BoxFilter, self).__init__() self.r = r def forward(self, x): kernel_size = 2 * self.r + 1 kernel_x = torch.full((x.data.shape[1], 1, 1, kernel_size), 1 / kernel_size, device=x.device, dtype=x.dtype) kernel_y = torch.full((x.data.shape[1], 1, kernel_size, 1), 1 / kernel_size, device=x.device, dtype=x.dtype) x = F.conv2d(x, kernel_x, padding=(0, self.r), groups=x.data.shape[1]) x = F.conv2d(x, kernel_y, padding=(self.r, 0), groups=x.data.shape[1]) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'r': 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 empty_strided_cuda = torch._C._dynamo.guards._empty_strided_cuda reinterpret_tensor = torch._C._dynamo.guards._reinterpret_tensor @triton.jit def triton_poi_fused_full_0(out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 36 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x0 = xindex tmp0 = 0.1111111111111111 tl.store(out_ptr0 + x0, tmp0, xmask) @triton.jit def triton_poi_fused_convolution_full_1(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 y3 = yindex y0 = yindex % 4 y1 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x2 + 16 * y3), xmask & ymask) tl.store(out_ptr0 + (y0 + 4 * x2 + 64 * y1), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_convolution_full_2(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 y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 64 * y1), xmask & ymask) tl.store(out_ptr0 + (x2 + 16 * y3), 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, 1, 1, 9), (9, 9, 9, 1), torch.float32) get_raw_stream(0) triton_poi_fused_full_0[grid(36)](buf0, 36, XBLOCK=64, num_warps=1, num_stages=1) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) triton_poi_fused_convolution_full_1[grid(16, 16)](arg0_1, buf1, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del arg0_1 buf2 = extern_kernels.convolution(buf1, buf0, stride=(1, 1), padding=(0, 4), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf2, (4, 4, 4, 4), (64, 1, 16, 4)) del buf1 buf3 = reinterpret_tensor(buf0, (4, 1, 9, 1), (9, 9, 1, 1), 0) del buf0 triton_poi_fused_full_0[grid(36)](buf3, 36, XBLOCK=64, num_warps=1, num_stages=1) buf4 = extern_kernels.convolution(buf2, buf3, stride=(1, 1), padding=(4, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=4, bias=None) assert_size_stride(buf4, (4, 4, 4, 4), (64, 1, 16, 4)) del buf3 buf5 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf2 triton_poi_fused_convolution_full_2[grid(16, 16)](buf4, buf5, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del buf4 return buf5, class BoxFilterNew(nn.Module): def __init__(self, r): super(BoxFilterNew, self).__init__() self.r = r def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	LightTwist/RobustVideoMatting	BoxFilter	false	8,508	[ "Apache-2.0" ]	11	79eb143fef3a4c58b4857c1a5a927a318f528093	https://github.com/LightTwist/RobustVideoMatting/tree/79eb143fef3a4c58b4857c1a5a927a318f528093
SingleHiddenLayer	# 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: [z_1], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # z_1 => 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') 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, (16, 128), (128, 1)) assert_size_stride(primals_5, (16, ), (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 buf3 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) # Topologically Sorted Source Nodes: [z_1], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_2, buf3, 8192, grid=grid(8192), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 16), (16, 1), torch.float32) # Topologically Sorted Source Nodes: [z_2], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 128), (128, 1), 0), reinterpret_tensor(primals_4, (128, 16), (1, 128), 0), alpha=1, beta=1, out=buf2) del primals_5 return (reinterpret_tensor(buf2, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 128), (128, 1), 0), primals_4, 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((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((16, 128), (128, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((16, ), (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 class SingleHiddenLayer(torch.nn.Module): def __init__(self, input_channels, hidden_channels): super(SingleHiddenLayer, self).__init__() self.input_channels = input_channels self.hidden_channels = hidden_channels self.linear1 = torch.nn.Linear(hidden_channels, 128) self.linear2 = torch.nn.Linear(128, input_channels * hidden_channels) def extra_repr(self): return 'input_channels: {}, hidden_channels: {}'.format(self. input_channels, self.hidden_channels) def forward(self, z): z = self.linear1(z) z = torch.relu(z) z = self.linear2(z) z = z.view(*z.shape[:-1], self.hidden_channels, self.input_channels) return z def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_channels': 4, 'hidden_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 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) 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, (16, 128), (128, 1)) assert_size_stride(primals_5, (16,), (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 buf3 = 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, buf3, 8192, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 16), (16, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 128), (128, 1), 0), reinterpret_tensor(primals_4, (128, 16), (1, 128), 0), alpha=1, beta=1, out=buf2) del primals_5 return reinterpret_tensor(buf2, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 128), (128, 1), 0), primals_4, buf3 class SingleHiddenLayerNew(torch.nn.Module): def __init__(self, input_channels, hidden_channels): super(SingleHiddenLayerNew, self).__init__() self.input_channels = input_channels self.hidden_channels = hidden_channels self.linear1 = torch.nn.Linear(hidden_channels, 128) self.linear2 = torch.nn.Linear(128, input_channels * hidden_channels) def extra_repr(self): return 'input_channels: {}, hidden_channels: {}'.format(self. input_channels, self.hidden_channels) def forward(self, input_0): primals_1 = self.linear1.weight primals_2 = self.linear1.bias primals_4 = self.linear2.weight primals_5 = self.linear2.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	MLforHealth/state_representations_for_RLinHealth	SingleHiddenLayer	false	8,509	[ "MIT" ]	24	aa8dbb7d56caa95bf4380e3e745e134996291b66	https://github.com/MLforHealth/state_representations_for_RLinHealth/tree/aa8dbb7d56caa95bf4380e3e745e134996291b66
dnn_encoder	# 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/vg/cvgn47a3suf3abdi3yxlfefcismdx34uxftikwkcmdazos4igr4d.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # x => gt, mul, where # Graph fragment: # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%view_1, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, 0.01), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %view_1, %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=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 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_leaky_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_leaky_relu_0(in_ptr0, in_ptr1, out_ptr0, out_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_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr1 + (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, 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 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.leaky_relu] stream0 = get_raw_stream(0) triton_poi_fused_leaky_relu_0.run(buf0, primals_2, buf1, buf2, 256, grid=grid(256), stream=stream0) del primals_2 buf3 = buf0; del buf0 # reuse # 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 = 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.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_0.run(buf3, primals_5, buf4, buf5, 256, grid=grid(256), stream=stream0) del primals_5 buf6 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf5, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf6) 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.float32) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_0.run(buf6, primals_7, buf7, buf8, 256, grid=grid(256), stream=stream0) del primals_7 buf9 = buf6; del buf6 # reuse # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.addmm] extern_kernels.addmm(primals_9, reinterpret_tensor(buf8, (64, 4), (4, 1), 0), reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf9) del primals_9 return (reinterpret_tensor(buf9, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf1, reinterpret_tensor(buf2, (64, 4), (4, 1), 0), buf4, reinterpret_tensor(buf5, (64, 4), (4, 1), 0), buf7, reinterpret_tensor(buf8, (64, 4), (4, 1), 0), 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 import torch.nn as nn import torch.nn.functional as F class dnn_encoder(nn.Module): def __init__(self, G_in, G_out, w1, w2, w3): super(dnn_encoder, self).__init__() self.fc1 = nn.Linear(G_in, w1) self.fc2 = nn.Linear(w1, w2) self.fc3 = nn.Linear(w2, w3) self.out = nn.Linear(w3, G_out) def forward(self, x): x = F.leaky_relu(self.fc1(x)) x = F.leaky_relu(self.fc2(x)) x = F.leaky_relu(self.fc3(x)) x = self.out(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'G_in': 4, 'G_out': 4, 'w1': 4, 'w2': 4, 'w3': 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_leaky_relu_0(in_ptr0, in_ptr1, out_ptr0, out_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_ptr1 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr1 + 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, 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 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf2 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_leaky_relu_0[grid(256)](buf0, primals_2, buf1, buf2, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf3 = buf0 del buf0 extern_kernels.mm(reinterpret_tensor(buf2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf3) 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.float32) triton_poi_fused_leaky_relu_0[grid(256)](buf3, primals_5, buf4, buf5, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf6 = buf3 del buf3 extern_kernels.mm(reinterpret_tensor(buf5, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf6) 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.float32) triton_poi_fused_leaky_relu_0[grid(256)](buf6, primals_7, buf7, buf8, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_7 buf9 = buf6 del buf6 extern_kernels.addmm(primals_9, reinterpret_tensor(buf8, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf9) del primals_9 return reinterpret_tensor(buf9, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), buf1, reinterpret_tensor(buf2, (64, 4), (4, 1), 0 ), buf4, reinterpret_tensor(buf5, (64, 4), (4, 1), 0 ), buf7, reinterpret_tensor(buf8, (64, 4), (4, 1), 0 ), primals_8, primals_6, primals_4 class dnn_encoderNew(nn.Module): def __init__(self, G_in, G_out, w1, w2, w3): super(dnn_encoderNew, self).__init__() self.fc1 = nn.Linear(G_in, w1) self.fc2 = nn.Linear(w1, w2) self.fc3 = nn.Linear(w2, w3) self.out = nn.Linear(w3, G_out) def forward(self, input_0): primals_1 = self.fc1.weight primals_2 = self.fc1.bias primals_4 = self.fc2.weight primals_5 = self.fc2.bias primals_6 = self.fc3.weight primals_7 = self.fc3.bias primals_8 = self.out.weight primals_9 = self.out.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]	Maitreyapatel/speech-conversion-between-different-modalities	dnn_encoder	false	8,510	[ "MIT" ]	23	f757b487d9e6c20aa4f7d37247ba16f9a967f573	https://github.com/Maitreyapatel/speech-conversion-between-different-modalities/tree/f757b487d9e6c20aa4f7d37247ba16f9a967f573
_ImpalaCNN	# 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/cp34ywtyg7mn5mzrt67i2x2phdloiq3cptdby54b66orgo6qv4p3.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] # Source node to ATen node mapping: # x => convolution # 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 = {}) 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=[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_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 = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 16) % 16 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/az/cazxwddjxrkqppv6clu5gnayjilmrxd3kd62qsr6vh7tgz7izqzu.py # Topologically Sorted Source Nodes: [x_1, x_2], Original ATen: [aten.max_pool2d_with_indices, aten.relu] # Source node to ATen node mapping: # x_1 => _low_memory_max_pool2d_with_offsets, getitem_1 # x_2 => relu # Graph fragment: # %_low_memory_max_pool2d_with_offsets : [num_users=2] = call_function[target=torch.ops.prims._low_memory_max_pool2d_with_offsets.default](args = (%convolution, [3, 3], [2, 2], [1, 1], [1, 1], False), kwargs = {}) # %getitem_1 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets, 1), kwargs = {}) # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%getitem,), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_relu_1 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_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=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 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_max_pool2d_with_indices_relu_1', '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_max_pool2d_with_indices_relu_1(in_ptr0, out_ptr0, out_ptr1, out_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 2) % 2 x0 = xindex % 2 x4 = (xindex // 2) x3 = 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) + (8x4)), tmp10 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp12 = 2x0 tmp13 = tmp12 >= tmp1 tmp14 = tmp12 < tmp3 tmp15 = tmp13 & tmp14 tmp16 = tmp5 & tmp15 tmp17 = tl.load(in_ptr0 + ((-4) + (2x0) + (8x4)), tmp16 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp18 = triton_helpers.maximum(tmp17, tmp11) tmp19 = 1 + (2x0) tmp20 = tmp19 >= tmp1 tmp21 = tmp19 < tmp3 tmp22 = tmp20 & tmp21 tmp23 = tmp5 & tmp22 tmp24 = tl.load(in_ptr0 + ((-3) + (2x0) + (8x4)), tmp23 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp25 = triton_helpers.maximum(tmp24, tmp18) tmp26 = 2x1 tmp27 = tmp26 >= tmp1 tmp28 = tmp26 < tmp3 tmp29 = tmp27 & tmp28 tmp30 = tmp29 & tmp9 tmp31 = tl.load(in_ptr0 + ((-1) + (2x0) + (8x4)), tmp30 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp32 = triton_helpers.maximum(tmp31, tmp25) tmp33 = tmp29 & tmp15 tmp34 = tl.load(in_ptr0 + ((2x0) + (8x4)), tmp33 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp35 = triton_helpers.maximum(tmp34, tmp32) tmp36 = tmp29 & tmp22 tmp37 = tl.load(in_ptr0 + (1 + (2x0) + (8x4)), tmp36 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp38 = triton_helpers.maximum(tmp37, tmp35) tmp39 = 1 + (2x1) tmp40 = tmp39 >= tmp1 tmp41 = tmp39 < tmp3 tmp42 = tmp40 & tmp41 tmp43 = tmp42 & tmp9 tmp44 = tl.load(in_ptr0 + (3 + (2x0) + (8x4)), tmp43 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp45 = triton_helpers.maximum(tmp44, tmp38) tmp46 = tmp42 & tmp15 tmp47 = tl.load(in_ptr0 + (4 + (2x0) + (8x4)), tmp46 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp48 = triton_helpers.maximum(tmp47, tmp45) tmp49 = tmp42 & tmp22 tmp50 = tl.load(in_ptr0 + (5 + (2x0) + (8x4)), tmp49 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp51 = triton_helpers.maximum(tmp50, tmp48) tmp52 = tmp17 > tmp11 tmp53 = tl.full([1], 1, tl.int8) tmp54 = tl.full([1], 0, tl.int8) tmp55 = tl.where(tmp52, tmp53, tmp54) tmp56 = tmp24 > tmp18 tmp57 = tl.full([1], 2, tl.int8) tmp58 = tl.where(tmp56, tmp57, tmp55) tmp59 = tmp31 > tmp25 tmp60 = tl.full([1], 3, tl.int8) tmp61 = tl.where(tmp59, tmp60, tmp58) tmp62 = tmp34 > tmp32 tmp63 = tl.full([1], 4, tl.int8) tmp64 = tl.where(tmp62, tmp63, tmp61) tmp65 = tmp37 > tmp35 tmp66 = tl.full([1], 5, tl.int8) tmp67 = tl.where(tmp65, tmp66, tmp64) tmp68 = tmp44 > tmp38 tmp69 = tl.full([1], 6, tl.int8) tmp70 = tl.where(tmp68, tmp69, tmp67) tmp71 = tmp47 > tmp45 tmp72 = tl.full([1], 7, tl.int8) tmp73 = tl.where(tmp71, tmp72, tmp70) tmp74 = tmp50 > tmp48 tmp75 = tl.full([1], 8, tl.int8) tmp76 = tl.where(tmp74, tmp75, tmp73) tmp77 = tl.full([1], 0, tl.int32) tmp78 = triton_helpers.maximum(tmp77, tmp51) tl.store(out_ptr0 + (x3), tmp51, xmask) tl.store(out_ptr1 + (x3), tmp76, xmask) tl.store(out_ptr2 + (x3), tmp78, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/67/c67zygl7pmgok5ryzxhy65wbz3hltj4vdsra7oxy3gxrdiu5m3sd.py # Topologically Sorted Source Nodes: [x_3, x_4], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # x_3 => convolution_1 # x_4 => relu_1 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu, %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=[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_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 = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 4) % 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/73/c73wsvdmmiqotziqzd4kjzkpdawhtlxc6gwbykujr4pcruwfygwd.py # Topologically Sorted Source Nodes: [x_5, x_6, x_7], Original ATen: [aten.convolution, aten.add, aten.relu] # Source node to ATen node mapping: # x_5 => convolution_2 # x_6 => add # x_7 => relu_2 # Graph fragment: # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_1, %primals_6, %primals_7, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %add : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution_2, %getitem), kwargs = {}) # %relu_2 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add,), kwargs = {}) triton_poi_fused_add_convolution_relu_3 = async_compile.triton('triton_poi_fused_add_convolution_relu_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: '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_convolution_relu_3', '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_convolution_relu_3(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 x3 = xindex x1 = (xindex // 4) % 16 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x3), xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp5 = tl.full([1], 0, tl.int32) tmp6 = triton_helpers.maximum(tmp5, tmp4) tl.store(out_ptr0 + (x3), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ha/chac5jyv7rcpj2r4nvz6h6c3leevmmac76avzrfw7dhr2wdee3le.py # Topologically Sorted Source Nodes: [x_5, x_6, x_10, x_11], Original ATen: [aten.convolution, aten.add] # Source node to ATen node mapping: # x_10 => convolution_4 # x_11 => add_1 # x_5 => convolution_2 # x_6 => add # Graph fragment: # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_1, %primals_6, %primals_7, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %add : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution_2, %getitem), kwargs = {}) # %convolution_4 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_3, %primals_10, %primals_11, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %add_1 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution_4, %add), kwargs = {}) triton_poi_fused_add_convolution_4 = async_compile.triton('triton_poi_fused_add_convolution_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: '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_convolution_4', '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_add_convolution_4(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 x1 = (xindex // 4) % 16 tmp0 = tl.load(in_out_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (x3), xmask) tmp4 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr3 + (x3), xmask) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp2 + tmp7 tl.store(in_out_ptr0 + (x3), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/bn/cbnsmvcw3grkzz3hg3ilxrselnjurce2kqzzmb6g2xbkxoyvshif.py # Topologically Sorted Source Nodes: [x_12], Original ATen: [aten.convolution] # Source node to ATen node mapping: # x_12 => convolution_5 # Graph fragment: # %convolution_5 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%add_1, %primals_12, %primals_13, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_5 = async_compile.triton('triton_poi_fused_convolution_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=[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_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_5(in_out_ptr0, in_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 512 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = (xindex // 4) % 32 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/ia/ciarix633nyms5z6fvyyon7le2lueg56zf5yglifpwxvqpg7duko.py # Topologically Sorted Source Nodes: [x_13, x_14], Original ATen: [aten.max_pool2d_with_indices, aten.relu] # Source node to ATen node mapping: # x_13 => _low_memory_max_pool2d_with_offsets_1, getitem_3 # x_14 => relu_4 # Graph fragment: # %_low_memory_max_pool2d_with_offsets_1 : [num_users=2] = call_function[target=torch.ops.prims._low_memory_max_pool2d_with_offsets.default](args = (%convolution_5, [3, 3], [2, 2], [1, 1], [1, 1], False), kwargs = {}) # %getitem_3 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_1, 1), kwargs = {}) # %relu_4 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%getitem_2,), kwargs = {}) triton_poi_fused_max_pool2d_with_indices_relu_6 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_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=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i8', 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_max_pool2d_with_indices_relu_6', '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_max_pool2d_with_indices_relu_6(in_ptr0, out_ptr0, out_ptr1, out_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 128 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=float("-inf")) 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=float("-inf")) tmp13 = triton_helpers.maximum(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=float("-inf")) tmp20 = triton_helpers.maximum(tmp19, tmp13) tmp21 = tmp10 & tmp5 tmp22 = tl.load(in_ptr0 + ((-1) + (4x0)), tmp21 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp23 = triton_helpers.maximum(tmp22, tmp20) tmp24 = tmp10 & tmp10 tmp25 = tl.load(in_ptr0 + (4x0), tmp24 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp26 = triton_helpers.maximum(tmp25, tmp23) tmp27 = tmp10 & tmp17 tmp28 = tl.load(in_ptr0 + (1 + (4x0)), tmp27 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp29 = triton_helpers.maximum(tmp28, tmp26) tmp30 = tmp17 & tmp5 tmp31 = tl.load(in_ptr0 + (1 + (4x0)), tmp30 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp32 = triton_helpers.maximum(tmp31, tmp29) tmp33 = tmp17 & tmp10 tmp34 = tl.load(in_ptr0 + (2 + (4x0)), tmp33 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp35 = triton_helpers.maximum(tmp34, tmp32) tmp36 = tmp17 & tmp17 tmp37 = tl.load(in_ptr0 + (3 + (4x0)), tmp36 & xmask, eviction_policy='evict_last', other=float("-inf")) tmp38 = triton_helpers.maximum(tmp37, tmp35) tmp39 = tmp12 > tmp7 tmp40 = tl.full([1], 1, tl.int8) tmp41 = tl.full([1], 0, tl.int8) tmp42 = tl.where(tmp39, tmp40, tmp41) tmp43 = tmp19 > tmp13 tmp44 = tl.full([1], 2, tl.int8) tmp45 = tl.where(tmp43, tmp44, tmp42) tmp46 = tmp22 > tmp20 tmp47 = tl.full([1], 3, tl.int8) tmp48 = tl.where(tmp46, tmp47, tmp45) tmp49 = tmp25 > tmp23 tmp50 = tl.full([1], 4, tl.int8) tmp51 = tl.where(tmp49, tmp50, tmp48) tmp52 = tmp28 > tmp26 tmp53 = tl.full([1], 5, tl.int8) tmp54 = tl.where(tmp52, tmp53, tmp51) tmp55 = tmp31 > tmp29 tmp56 = tl.full([1], 6, tl.int8) tmp57 = tl.where(tmp55, tmp56, tmp54) tmp58 = tmp34 > tmp32 tmp59 = tl.full([1], 7, tl.int8) tmp60 = tl.where(tmp58, tmp59, tmp57) tmp61 = tmp37 > tmp35 tmp62 = tl.full([1], 8, tl.int8) tmp63 = tl.where(tmp61, tmp62, tmp60) tmp64 = tl.full([1], 0, tl.int32) tmp65 = triton_helpers.maximum(tmp64, tmp38) tl.store(out_ptr0 + (x0), tmp38, xmask) tl.store(out_ptr1 + (x0), tmp63, xmask) tl.store(out_ptr2 + (x0), tmp65, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/3u/c3uhtibip7yvasxfy3iwmm7a67dgbxmgea465v34leu4m7rbaczq.py # Topologically Sorted Source Nodes: [x_15, x_16], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # x_15 => convolution_6 # x_16 => relu_5 # Graph fragment: # %convolution_6 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_4, %primals_14, %primals_15, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_5 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_6,), kwargs = {}) triton_poi_fused_convolution_relu_7 = async_compile.triton('triton_poi_fused_convolution_relu_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=[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_relu_7', '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_7(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 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/no/cnoisrnmwtvl6lu5nu7qr7yracz7voamunjhtqwtyiwodkjcwrh7.py # Topologically Sorted Source Nodes: [x_17, x_18, x_19], Original ATen: [aten.convolution, aten.add, aten.relu] # Source node to ATen node mapping: # x_17 => convolution_7 # x_18 => add_2 # x_19 => relu_6 # Graph fragment: # %convolution_7 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_5, %primals_16, %primals_17, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %add_2 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution_7, %getitem_2), kwargs = {}) # %relu_6 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_2,), kwargs = {}) triton_poi_fused_add_convolution_relu_8 = async_compile.triton('triton_poi_fused_add_convolution_relu_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=[128], 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_convolution_relu_8', '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_convolution_relu_8(in_ptr0, in_ptr1, in_ptr2, out_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_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x2), xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp5 = tl.full([1], 0, tl.int32) tmp6 = triton_helpers.maximum(tmp5, tmp4) tl.store(out_ptr0 + (x2), tmp6, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/kh/ckhdsuma3k3hctyltm74h2l4hqxo5bqs3s5qbtmgenlfy76i3jvc.py # Topologically Sorted Source Nodes: [x_17, x_18, x_22, x_23], Original ATen: [aten.convolution, aten.add] # Source node to ATen node mapping: # x_17 => convolution_7 # x_18 => add_2 # x_22 => convolution_9 # x_23 => add_3 # Graph fragment: # %convolution_7 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_5, %primals_16, %primals_17, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %add_2 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution_7, %getitem_2), kwargs = {}) # %convolution_9 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_7, %primals_20, %primals_21, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %add_3 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution_9, %add_2), kwargs = {}) triton_poi_fused_add_convolution_9 = async_compile.triton('triton_poi_fused_add_convolution_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=[128], 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_convolution_9', '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_add_convolution_9(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, 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_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x2), xmask) tmp4 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_out_ptr0 + (x2), xmask) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp2 + tmp7 tl.store(in_out_ptr0 + (x2), tmp8, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/2v/c2vahtnci6o7aegeutrx6qroem4toyqvyzbjdvcq4nhqy5amdnub.py # Topologically Sorted Source Nodes: [x_24, x_25, x_26], Original ATen: [aten.convolution, aten.max_pool2d_with_indices, aten.relu] # Source node to ATen node mapping: # x_24 => convolution_10 # x_25 => _low_memory_max_pool2d_with_offsets_2, getitem_5 # x_26 => relu_8 # Graph fragment: # %convolution_10 : [num_users=2] = call_function[target=torch.ops.aten.convolution.default](args = (%add_3, %primals_22, %primals_23, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %_low_memory_max_pool2d_with_offsets_2 : [num_users=2] = call_function[target=torch.ops.prims._low_memory_max_pool2d_with_offsets.default](args = (%convolution_10, [3, 3], [2, 2], [1, 1], [1, 1], False), kwargs = {}) # %getitem_5 : [num_users=1] = call_function[target=operator.getitem](args = (%_low_memory_max_pool2d_with_offsets_2, 1), kwargs = {}) # %relu_8 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%getitem_4,), kwargs = {}) triton_poi_fused_convolution_max_pool2d_with_indices_relu_10 = async_compile.triton('triton_poi_fused_convolution_max_pool2d_with_indices_relu_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=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'i8', 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_max_pool2d_with_indices_relu_10', '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_max_pool2d_with_indices_relu_10(in_out_ptr0, in_ptr0, out_ptr0, out_ptr1, out_ptr2, 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 = tl.full([1], -1, tl.int64) tmp4 = tl.full([1], 0, tl.int64) tmp5 = tmp3 >= tmp4 tmp6 = tl.full([1], 1, tl.int64) tmp7 = tmp3 < tmp6 tmp8 = tmp5 & tmp7 tmp9 = tmp8 & tmp8 tmp10 = tmp4 >= tmp4 tmp11 = tmp4 < tmp6 tmp12 = tmp10 & tmp11 tmp13 = tmp8 & tmp12 tmp14 = triton_helpers.maximum(tmp2, tmp2) tmp15 = tmp6 >= tmp4 tmp16 = tmp6 < tmp6 tmp17 = tmp15 & tmp16 tmp18 = tmp8 & tmp17 tmp19 = triton_helpers.maximum(tmp2, tmp14) tmp20 = tmp12 & tmp8 tmp21 = triton_helpers.maximum(tmp2, tmp19) tmp22 = tmp12 & tmp12 tmp23 = triton_helpers.maximum(tmp2, tmp21) tmp24 = tmp12 & tmp17 tmp25 = triton_helpers.maximum(tmp2, tmp23) tmp26 = tmp17 & tmp8 tmp27 = triton_helpers.maximum(tmp2, tmp25) tmp28 = tmp17 & tmp12 tmp29 = triton_helpers.maximum(tmp2, tmp27) tmp30 = tmp17 & tmp17 tmp31 = triton_helpers.maximum(tmp2, tmp29) tmp32 = tmp2 > tmp2 tmp33 = tl.full([1], 1, tl.int8) tmp34 = tl.full([1], 0, tl.int8) tmp35 = tl.where(tmp32, tmp33, tmp34) tmp36 = tmp2 > tmp14 tmp37 = tl.full([1], 2, tl.int8) tmp38 = tl.where(tmp36, tmp37, tmp35) tmp39 = tmp2 > tmp19 tmp40 = tl.full([1], 3, tl.int8) tmp41 = tl.where(tmp39, tmp40, tmp38) tmp42 = tmp2 > tmp21 tmp43 = tl.full([1], 4, tl.int8) tmp44 = tl.where(tmp42, tmp43, tmp41) tmp45 = tmp2 > tmp23 tmp46 = tl.full([1], 5, tl.int8) tmp47 = tl.where(tmp45, tmp46, tmp44) tmp48 = tmp2 > tmp25 tmp49 = tl.full([1], 6, tl.int8) tmp50 = tl.where(tmp48, tmp49, tmp47) tmp51 = tmp2 > tmp27 tmp52 = tl.full([1], 7, tl.int8) tmp53 = tl.where(tmp51, tmp52, tmp50) tmp54 = tmp2 > tmp29 tmp55 = tl.full([1], 8, tl.int8) tmp56 = tl.where(tmp54, tmp55, tmp53) tmp57 = tl.full([1], 0, tl.int32) tmp58 = triton_helpers.maximum(tmp57, tmp31) tl.store(in_out_ptr0 + (x2), tmp2, xmask) tl.store(out_ptr0 + (x2), tmp31, xmask) tl.store(out_ptr1 + (x2), tmp56, xmask) tl.store(out_ptr2 + (x2), tmp58, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/no/cnocmfoe7fc7vspno5rkz2d5opq4zr7gbibtepj5twrc4we2rtop.py # Topologically Sorted Source Nodes: [x_29, x_30, x_34, x_35, x_36], Original ATen: [aten.convolution, aten.add, aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x_29 => convolution_12 # x_30 => add_4 # x_34 => convolution_14 # x_35 => add_5 # x_36 => relu_12 # Graph fragment: # %convolution_12 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_9, %primals_26, %primals_27, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %add_4 : [num_users=2] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution_12, %getitem_4), kwargs = {}) # %convolution_14 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_11, %primals_30, %primals_31, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %add_5 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution_14, %add_4), kwargs = {}) # %relu_12 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_5,), kwargs = {}) # %le_1 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_12, 0), kwargs = {}) triton_poi_fused_add_convolution_relu_threshold_backward_11 = async_compile.triton('triton_poi_fused_add_convolution_relu_threshold_backward_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=[128], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 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_add_convolution_relu_threshold_backward_11', '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_add_convolution_relu_threshold_backward_11(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_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_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (x2), xmask) tmp4 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_out_ptr0 + (x2), xmask) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp2 + tmp7 tmp9 = tl.full([1], 0, tl.int32) tmp10 = triton_helpers.maximum(tmp9, tmp8) tmp11 = 0.0 tmp12 = tmp10 <= tmp11 tl.store(in_out_ptr0 + (x2), tmp10, xmask) tl.store(out_ptr0 + (x2), tmp12, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/de/cdeunptkchaypclmctx54h3foxwvb65b24ks4yz2knzkydgywuxp.py # Topologically Sorted Source Nodes: [x_39], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # x_39 => relu_13 # Graph fragment: # %add_tensor : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mm_default, %primals_33), kwargs = {}) # %relu_13 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add_tensor,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_13, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_12 = async_compile.triton('triton_poi_fused_relu_threshold_backward_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=[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_12', '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_12(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 % 256 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') 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, primals_28, primals_29, primals_30, primals_31, primals_32, primals_33 = args args.clear() assert_size_stride(primals_1, (16, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (16, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (16, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_5, (16, ), (1, )) assert_size_stride(primals_6, (16, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_7, (16, ), (1, )) assert_size_stride(primals_8, (16, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_9, (16, ), (1, )) assert_size_stride(primals_10, (16, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_11, (16, ), (1, )) assert_size_stride(primals_12, (32, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_13, (32, ), (1, )) assert_size_stride(primals_14, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_15, (32, ), (1, )) assert_size_stride(primals_16, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_17, (32, ), (1, )) assert_size_stride(primals_18, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_19, (32, ), (1, )) assert_size_stride(primals_20, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_21, (32, ), (1, )) assert_size_stride(primals_22, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_23, (32, ), (1, )) assert_size_stride(primals_24, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_25, (32, ), (1, )) assert_size_stride(primals_26, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_27, (32, ), (1, )) assert_size_stride(primals_28, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_29, (32, ), (1, )) assert_size_stride(primals_30, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_31, (32, ), (1, )) assert_size_stride(primals_32, (256, 32), (32, 1)) assert_size_stride(primals_33, (256, ), (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, 16, 4, 4), (256, 16, 4, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] stream0 = get_raw_stream(0) triton_poi_fused_convolution_0.run(buf1, primals_2, 1024, grid=grid(1024), stream=stream0) del primals_2 buf2 = empty_strided_cuda((4, 16, 2, 2), (64, 4, 2, 1), torch.float32) buf3 = empty_strided_cuda((4, 16, 2, 2), (64, 4, 2, 1), torch.int8) buf4 = empty_strided_cuda((4, 16, 2, 2), (64, 4, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1, x_2], Original ATen: [aten.max_pool2d_with_indices, aten.relu] triton_poi_fused_max_pool2d_with_indices_relu_1.run(buf1, buf2, buf3, buf4, 256, grid=grid(256), stream=stream0) # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.convolution] buf5 = extern_kernels.convolution(buf4, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 16, 2, 2), (64, 4, 2, 1)) buf6 = buf5; del buf5 # reuse # Topologically Sorted Source Nodes: [x_3, x_4], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_2.run(buf6, primals_5, 256, grid=grid(256), stream=stream0) del primals_5 # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.convolution] buf7 = 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(buf7, (4, 16, 2, 2), (64, 4, 2, 1)) buf8 = empty_strided_cuda((4, 16, 2, 2), (64, 4, 2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_5, x_6, x_7], Original ATen: [aten.convolution, aten.add, aten.relu] triton_poi_fused_add_convolution_relu_3.run(buf7, primals_7, buf2, buf8, 256, grid=grid(256), stream=stream0) # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.convolution] buf9 = extern_kernels.convolution(buf8, primals_8, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf9, (4, 16, 2, 2), (64, 4, 2, 1)) buf10 = buf9; del buf9 # reuse # Topologically Sorted Source Nodes: [x_8, x_9], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_2.run(buf10, primals_9, 256, grid=grid(256), stream=stream0) del primals_9 # Topologically Sorted Source Nodes: [x_10], Original ATen: [aten.convolution] buf11 = extern_kernels.convolution(buf10, primals_10, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf11, (4, 16, 2, 2), (64, 4, 2, 1)) buf12 = buf11; del buf11 # reuse # Topologically Sorted Source Nodes: [x_5, x_6, x_10, x_11], Original ATen: [aten.convolution, aten.add] triton_poi_fused_add_convolution_4.run(buf12, primals_11, buf7, primals_7, buf2, 256, grid=grid(256), stream=stream0) del buf2 del buf7 del primals_11 del primals_7 # Topologically Sorted Source Nodes: [x_12], Original ATen: [aten.convolution] buf13 = extern_kernels.convolution(buf12, primals_12, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf13, (4, 32, 2, 2), (128, 4, 2, 1)) buf14 = buf13; del buf13 # reuse # Topologically Sorted Source Nodes: [x_12], Original ATen: [aten.convolution] triton_poi_fused_convolution_5.run(buf14, primals_13, 512, grid=grid(512), stream=stream0) del primals_13 buf15 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 128, 128), torch.float32) buf16 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.int8) buf17 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [x_13, x_14], Original ATen: [aten.max_pool2d_with_indices, aten.relu] triton_poi_fused_max_pool2d_with_indices_relu_6.run(buf14, buf15, buf16, buf17, 128, grid=grid(128), stream=stream0) # Topologically Sorted Source Nodes: [x_15], Original ATen: [aten.convolution] buf18 = extern_kernels.convolution(buf17, primals_14, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf18, (4, 32, 1, 1), (32, 1, 1, 1)) buf19 = buf18; del buf18 # reuse # Topologically Sorted Source Nodes: [x_15, x_16], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_7.run(buf19, primals_15, 128, grid=grid(128), stream=stream0) del primals_15 # Topologically Sorted Source Nodes: [x_17], Original ATen: [aten.convolution] buf20 = extern_kernels.convolution(buf19, primals_16, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf20, (4, 32, 1, 1), (32, 1, 1, 1)) buf21 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [x_17, x_18, x_19], Original ATen: [aten.convolution, aten.add, aten.relu] triton_poi_fused_add_convolution_relu_8.run(buf20, primals_17, buf15, buf21, 128, grid=grid(128), stream=stream0) # Topologically Sorted Source Nodes: [x_20], Original ATen: [aten.convolution] buf22 = extern_kernels.convolution(buf21, primals_18, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf22, (4, 32, 1, 1), (32, 1, 1, 1)) buf23 = buf22; del buf22 # reuse # Topologically Sorted Source Nodes: [x_20, x_21], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_7.run(buf23, primals_19, 128, grid=grid(128), stream=stream0) del primals_19 # Topologically Sorted Source Nodes: [x_22], Original ATen: [aten.convolution] buf24 = extern_kernels.convolution(buf23, primals_20, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf24, (4, 32, 1, 1), (32, 1, 1, 1)) buf25 = reinterpret_tensor(buf15, (4, 32, 1, 1), (32, 1, 1, 1), 0); del buf15 # reuse # Topologically Sorted Source Nodes: [x_17, x_18, x_22, x_23], Original ATen: [aten.convolution, aten.add] triton_poi_fused_add_convolution_9.run(buf25, buf24, primals_21, buf20, primals_17, 128, grid=grid(128), stream=stream0) del primals_17 del primals_21 # Topologically Sorted Source Nodes: [x_24], Original ATen: [aten.convolution] buf26 = extern_kernels.convolution(buf25, primals_22, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf26, (4, 32, 1, 1), (32, 1, 1, 1)) buf27 = buf26; del buf26 # reuse buf28 = reinterpret_tensor(buf24, (4, 32, 1, 1), (32, 1, 128, 128), 0); del buf24 # reuse buf29 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.int8) buf30 = buf20; del buf20 # reuse # Topologically Sorted Source Nodes: [x_24, x_25, x_26], Original ATen: [aten.convolution, aten.max_pool2d_with_indices, aten.relu] triton_poi_fused_convolution_max_pool2d_with_indices_relu_10.run(buf27, primals_23, buf28, buf29, buf30, 128, grid=grid(128), stream=stream0) del primals_23 # Topologically Sorted Source Nodes: [x_27], Original ATen: [aten.convolution] buf31 = extern_kernels.convolution(buf30, primals_24, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf31, (4, 32, 1, 1), (32, 1, 1, 1)) buf32 = buf31; del buf31 # reuse # Topologically Sorted Source Nodes: [x_27, x_28], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_7.run(buf32, primals_25, 128, grid=grid(128), stream=stream0) del primals_25 # Topologically Sorted Source Nodes: [x_29], Original ATen: [aten.convolution] buf33 = extern_kernels.convolution(buf32, primals_26, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf33, (4, 32, 1, 1), (32, 1, 1, 1)) buf34 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [x_29, x_30, x_31], Original ATen: [aten.convolution, aten.add, aten.relu] triton_poi_fused_add_convolution_relu_8.run(buf33, primals_27, buf28, buf34, 128, grid=grid(128), stream=stream0) # Topologically Sorted Source Nodes: [x_32], Original ATen: [aten.convolution] buf35 = extern_kernels.convolution(buf34, primals_28, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf35, (4, 32, 1, 1), (32, 1, 1, 1)) buf36 = buf35; del buf35 # reuse # Topologically Sorted Source Nodes: [x_32, x_33], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_7.run(buf36, primals_29, 128, grid=grid(128), stream=stream0) del primals_29 # Topologically Sorted Source Nodes: [x_34], Original ATen: [aten.convolution] buf37 = extern_kernels.convolution(buf36, primals_30, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf37, (4, 32, 1, 1), (32, 1, 1, 1)) buf38 = reinterpret_tensor(buf28, (4, 32, 1, 1), (32, 1, 1, 1), 0); del buf28 # reuse buf42 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.bool) # Topologically Sorted Source Nodes: [x_29, x_30, x_34, x_35, x_36], Original ATen: [aten.convolution, aten.add, aten.relu, aten.threshold_backward] triton_poi_fused_add_convolution_relu_threshold_backward_11.run(buf38, buf37, primals_31, buf33, primals_27, buf42, 128, grid=grid(128), stream=stream0) del buf33 del buf37 del primals_27 del primals_31 buf39 = empty_strided_cuda((4, 256), (256, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf38, (4, 32), (32, 1), 0), reinterpret_tensor(primals_32, (32, 256), (1, 32), 0), out=buf39) buf40 = buf39; del buf39 # reuse buf41 = empty_strided_cuda((4, 256), (256, 1), torch.bool) # Topologically Sorted Source Nodes: [x_39], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_12.run(buf40, primals_33, buf41, 1024, grid=grid(1024), stream=stream0) del primals_33 return (buf40, primals_1, primals_3, primals_4, primals_6, primals_8, primals_10, primals_12, primals_14, primals_16, primals_18, primals_20, primals_22, primals_24, primals_26, primals_28, primals_30, buf1, buf3, buf4, buf6, buf8, buf10, buf12, buf14, buf16, buf17, buf19, buf21, buf23, buf25, buf27, buf29, buf30, buf32, buf34, buf36, reinterpret_tensor(buf38, (4, 32), (32, 1), 0), buf41, primals_32, buf42, ) 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((16, 4, 3, 3), (36, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((16, ), (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, 16, 3, 3), (144, 9, 3, 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, 3, 3), (144, 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, 16, 3, 3), (144, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((16, 16, 3, 3), (144, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((16, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((32, 16, 3, 3), (144, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_14 = rand_strided((32, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_15 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_16 = rand_strided((32, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_17 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_18 = rand_strided((32, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_19 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_20 = rand_strided((32, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_21 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_22 = rand_strided((32, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_23 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_24 = rand_strided((32, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_25 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_26 = rand_strided((32, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_27 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_28 = rand_strided((32, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_29 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_30 = rand_strided((32, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_31 = rand_strided((32, ), (1, ), device='cuda:0', dtype=torch.float32) primals_32 = rand_strided((256, 32), (32, 1), device='cuda:0', dtype=torch.float32) primals_33 = rand_strided((256, ), (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, primals_28, primals_29, primals_30, primals_31, primals_32, primals_33]) 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 typing import Tuple from torch import nn class _ImpalaResBlock(nn.Module): def __init__(self, n_channels: 'int'): super().__init__() self.n_channels = n_channels kernel_size = 3 padding = 1 self.relu = nn.ReLU() self.relu_inplace = nn.ReLU() self.conv1 = nn.Conv2d(n_channels, n_channels, kernel_size, padding =padding) self.conv2 = nn.Conv2d(n_channels, n_channels, kernel_size, padding =padding) def forward(self, inputs): x = self.relu(inputs) x = self.conv1(x) x = self.relu_inplace(x) x = self.conv2(x) x += inputs return x class _ImpalaBlock(nn.Module): def __init__(self, n_channels_in: 'int', n_channels_out: 'int'): super().__init__() self.n_channels_in = n_channels_in self.n_channels_out = n_channels_out kernel_size = 3 padding = 1 self.conv1 = nn.Conv2d(n_channels_in, n_channels_out, kernel_size, padding=padding) self.pool = nn.MaxPool2d(kernel_size, stride=2, padding=padding) self.res1 = _ImpalaResBlock(n_channels_out) self.res2 = _ImpalaResBlock(n_channels_out) def forward(self, x): x = self.conv1(x) x = self.pool(x) x = self.res1(x) x = self.res2(x) return x class _ImpalaCNN(nn.Module): def __init__(self, img_shape: 'Tuple[int, int, int]', n_extra_feats: 'int'=0, n_outputs: 'int'=256): super().__init__() self.n_outputs = n_outputs h, w, c = img_shape self.block1 = _ImpalaBlock(c, 16) self.block2 = _ImpalaBlock(16, 32) self.block3 = _ImpalaBlock(32, 32) self.relu = nn.ReLU() self.flatten = nn.Flatten() test_img = torch.empty(c, h, w)[None] n_feats = self.block3(self.block2(self.block1(test_img))).numel() self.linear = nn.Linear(n_feats + n_extra_feats, self.n_outputs) def forward(self, x, extra_obs=None): x = self.block1(x) x = self.block2(x) x = self.block3(x) x = self.relu(x) x = self.flatten(x) if extra_obs is not None: x = torch.cat((x, extra_obs), -1) x = self.linear(x) x = self.relu(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'img_shape': [4, 4, 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 typing import Tuple 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_convolution_0(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 1024 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 16 % 16 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_max_pool2d_with_indices_relu_1(in_ptr0, out_ptr0, out_ptr1, out_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 256 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 2 % 2 x0 = xindex % 2 x4 = xindex // 2 x3 = 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 * x4), tmp10 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp12 = 2 * x0 tmp13 = tmp12 >= tmp1 tmp14 = tmp12 < tmp3 tmp15 = tmp13 & tmp14 tmp16 = tmp5 & tmp15 tmp17 = tl.load(in_ptr0 + (-4 + 2 * x0 + 8 * x4), tmp16 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp18 = triton_helpers.maximum(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 * x4), tmp23 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp25 = triton_helpers.maximum(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 * x4), tmp30 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp32 = triton_helpers.maximum(tmp31, tmp25) tmp33 = tmp29 & tmp15 tmp34 = tl.load(in_ptr0 + (2 * x0 + 8 * x4), tmp33 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp35 = triton_helpers.maximum(tmp34, tmp32) tmp36 = tmp29 & tmp22 tmp37 = tl.load(in_ptr0 + (1 + 2 * x0 + 8 * x4), tmp36 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp38 = triton_helpers.maximum(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 * x4), tmp43 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp45 = triton_helpers.maximum(tmp44, tmp38) tmp46 = tmp42 & tmp15 tmp47 = tl.load(in_ptr0 + (4 + 2 * x0 + 8 * x4), tmp46 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp48 = triton_helpers.maximum(tmp47, tmp45) tmp49 = tmp42 & tmp22 tmp50 = tl.load(in_ptr0 + (5 + 2 * x0 + 8 * x4), tmp49 & xmask, eviction_policy='evict_last', other=float('-inf')) tmp51 = triton_helpers.maximum(tmp50, tmp48) tmp52 = tmp17 > tmp11 tmp53 = tl.full([1], 1, tl.int8) tmp54 = tl.full([1], 0, tl.int8) tmp55 = tl.where(tmp52, tmp53, tmp54) tmp56 = tmp24 > tmp18 tmp57 = tl.full([1], 2, tl.int8) tmp58 = tl.where(tmp56, tmp57, tmp55) tmp59 = tmp31 > tmp25 tmp60 = tl.full([1], 3, tl.int8) tmp61 = tl.where(tmp59, tmp60, tmp58) tmp62 = tmp34 > tmp32 tmp63 = tl.full([1], 4, tl.int8) tmp64 = tl.where(tmp62, tmp63, tmp61) tmp65 = tmp37 > tmp35 tmp66 = tl.full([1], 5, tl.int8) tmp67 = tl.where(tmp65, tmp66, tmp64) tmp68 = tmp44 > tmp38 tmp69 = tl.full([1], 6, tl.int8) tmp70 = tl.where(tmp68, tmp69, tmp67) tmp71 = tmp47 > tmp45 tmp72 = tl.full([1], 7, tl.int8) tmp73 = tl.where(tmp71, tmp72, tmp70) tmp74 = tmp50 > tmp48 tmp75 = tl.full([1], 8, tl.int8) tmp76 = tl.where(tmp74, tmp75, tmp73) tmp77 = tl.full([1], 0, tl.int32) tmp78 = triton_helpers.maximum(tmp77, tmp51) tl.store(out_ptr0 + x3, tmp51, xmask) tl.store(out_ptr1 + x3, tmp76, xmask) tl.store(out_ptr2 + x3, tmp78, xmask) @triton.jit def triton_poi_fused_convolution_relu_2(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 // 4 % 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_add_convolution_relu_3(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 x3 = xindex x1 = xindex // 4 % 16 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x3, xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp5 = tl.full([1], 0, tl.int32) tmp6 = triton_helpers.maximum(tmp5, tmp4) tl.store(out_ptr0 + x3, tmp6, xmask) @triton.jit def triton_poi_fused_add_convolution_4(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 x1 = xindex // 4 % 16 tmp0 = tl.load(in_out_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + x3, xmask) tmp4 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr3 + x3, xmask) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp2 + tmp7 tl.store(in_out_ptr0 + x3, tmp8, xmask) @triton.jit def triton_poi_fused_convolution_5(in_out_ptr0, in_ptr0, xnumel, XBLOCK: tl .constexpr): xnumel = 512 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex x1 = xindex // 4 % 32 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_max_pool2d_with_indices_relu_6(in_ptr0, out_ptr0, out_ptr1, out_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 128 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=float('-inf')) 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=float('-inf')) tmp13 = triton_helpers.maximum(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=float('-inf')) tmp20 = triton_helpers.maximum(tmp19, tmp13) tmp21 = tmp10 & tmp5 tmp22 = tl.load(in_ptr0 + (-1 + 4 * x0), tmp21 & xmask, eviction_policy ='evict_last', other=float('-inf')) tmp23 = triton_helpers.maximum(tmp22, tmp20) tmp24 = tmp10 & tmp10 tmp25 = tl.load(in_ptr0 + 4 * x0, tmp24 & xmask, eviction_policy= 'evict_last', other=float('-inf')) tmp26 = triton_helpers.maximum(tmp25, tmp23) tmp27 = tmp10 & tmp17 tmp28 = tl.load(in_ptr0 + (1 + 4 * x0), tmp27 & xmask, eviction_policy= 'evict_last', other=float('-inf')) tmp29 = triton_helpers.maximum(tmp28, tmp26) tmp30 = tmp17 & tmp5 tmp31 = tl.load(in_ptr0 + (1 + 4 * x0), tmp30 & xmask, eviction_policy= 'evict_last', other=float('-inf')) tmp32 = triton_helpers.maximum(tmp31, tmp29) tmp33 = tmp17 & tmp10 tmp34 = tl.load(in_ptr0 + (2 + 4 * x0), tmp33 & xmask, eviction_policy= 'evict_last', other=float('-inf')) tmp35 = triton_helpers.maximum(tmp34, tmp32) tmp36 = tmp17 & tmp17 tmp37 = tl.load(in_ptr0 + (3 + 4 * x0), tmp36 & xmask, eviction_policy= 'evict_last', other=float('-inf')) tmp38 = triton_helpers.maximum(tmp37, tmp35) tmp39 = tmp12 > tmp7 tmp40 = tl.full([1], 1, tl.int8) tmp41 = tl.full([1], 0, tl.int8) tmp42 = tl.where(tmp39, tmp40, tmp41) tmp43 = tmp19 > tmp13 tmp44 = tl.full([1], 2, tl.int8) tmp45 = tl.where(tmp43, tmp44, tmp42) tmp46 = tmp22 > tmp20 tmp47 = tl.full([1], 3, tl.int8) tmp48 = tl.where(tmp46, tmp47, tmp45) tmp49 = tmp25 > tmp23 tmp50 = tl.full([1], 4, tl.int8) tmp51 = tl.where(tmp49, tmp50, tmp48) tmp52 = tmp28 > tmp26 tmp53 = tl.full([1], 5, tl.int8) tmp54 = tl.where(tmp52, tmp53, tmp51) tmp55 = tmp31 > tmp29 tmp56 = tl.full([1], 6, tl.int8) tmp57 = tl.where(tmp55, tmp56, tmp54) tmp58 = tmp34 > tmp32 tmp59 = tl.full([1], 7, tl.int8) tmp60 = tl.where(tmp58, tmp59, tmp57) tmp61 = tmp37 > tmp35 tmp62 = tl.full([1], 8, tl.int8) tmp63 = tl.where(tmp61, tmp62, tmp60) tmp64 = tl.full([1], 0, tl.int32) tmp65 = triton_helpers.maximum(tmp64, tmp38) tl.store(out_ptr0 + x0, tmp38, xmask) tl.store(out_ptr1 + x0, tmp63, xmask) tl.store(out_ptr2 + x0, tmp65, xmask) @triton.jit def triton_poi_fused_convolution_relu_7(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 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, xmask) @triton.jit def triton_poi_fused_add_convolution_relu_8(in_ptr0, in_ptr1, in_ptr2, out_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_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x2, xmask) tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp5 = tl.full([1], 0, tl.int32) tmp6 = triton_helpers.maximum(tmp5, tmp4) tl.store(out_ptr0 + x2, tmp6, xmask) @triton.jit def triton_poi_fused_add_convolution_9(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, 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_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x2, xmask) tmp4 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_out_ptr0 + x2, xmask) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp2 + tmp7 tl.store(in_out_ptr0 + x2, tmp8, xmask) @triton.jit def triton_poi_fused_convolution_max_pool2d_with_indices_relu_10(in_out_ptr0, in_ptr0, out_ptr0, out_ptr1, out_ptr2, 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 = tl.full([1], -1, tl.int64) tmp4 = tl.full([1], 0, tl.int64) tmp5 = tmp3 >= tmp4 tmp6 = tl.full([1], 1, tl.int64) tmp7 = tmp3 < tmp6 tmp8 = tmp5 & tmp7 tmp8 & tmp8 tmp10 = tmp4 >= tmp4 tmp11 = tmp4 < tmp6 tmp12 = tmp10 & tmp11 tmp8 & tmp12 tmp14 = triton_helpers.maximum(tmp2, tmp2) tmp15 = tmp6 >= tmp4 tmp16 = tmp6 < tmp6 tmp17 = tmp15 & tmp16 tmp8 & tmp17 tmp19 = triton_helpers.maximum(tmp2, tmp14) tmp12 & tmp8 tmp21 = triton_helpers.maximum(tmp2, tmp19) tmp12 & tmp12 tmp23 = triton_helpers.maximum(tmp2, tmp21) tmp12 & tmp17 tmp25 = triton_helpers.maximum(tmp2, tmp23) tmp17 & tmp8 tmp27 = triton_helpers.maximum(tmp2, tmp25) tmp17 & tmp12 tmp29 = triton_helpers.maximum(tmp2, tmp27) tmp17 & tmp17 tmp31 = triton_helpers.maximum(tmp2, tmp29) tmp32 = tmp2 > tmp2 tmp33 = tl.full([1], 1, tl.int8) tmp34 = tl.full([1], 0, tl.int8) tmp35 = tl.where(tmp32, tmp33, tmp34) tmp36 = tmp2 > tmp14 tmp37 = tl.full([1], 2, tl.int8) tmp38 = tl.where(tmp36, tmp37, tmp35) tmp39 = tmp2 > tmp19 tmp40 = tl.full([1], 3, tl.int8) tmp41 = tl.where(tmp39, tmp40, tmp38) tmp42 = tmp2 > tmp21 tmp43 = tl.full([1], 4, tl.int8) tmp44 = tl.where(tmp42, tmp43, tmp41) tmp45 = tmp2 > tmp23 tmp46 = tl.full([1], 5, tl.int8) tmp47 = tl.where(tmp45, tmp46, tmp44) tmp48 = tmp2 > tmp25 tmp49 = tl.full([1], 6, tl.int8) tmp50 = tl.where(tmp48, tmp49, tmp47) tmp51 = tmp2 > tmp27 tmp52 = tl.full([1], 7, tl.int8) tmp53 = tl.where(tmp51, tmp52, tmp50) tmp54 = tmp2 > tmp29 tmp55 = tl.full([1], 8, tl.int8) tmp56 = tl.where(tmp54, tmp55, tmp53) tmp57 = tl.full([1], 0, tl.int32) tmp58 = triton_helpers.maximum(tmp57, tmp31) tl.store(in_out_ptr0 + x2, tmp2, xmask) tl.store(out_ptr0 + x2, tmp31, xmask) tl.store(out_ptr1 + x2, tmp56, xmask) tl.store(out_ptr2 + x2, tmp58, xmask) @triton.jit def triton_poi_fused_add_convolution_relu_threshold_backward_11(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_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_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + x2, xmask) tmp4 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_out_ptr0 + x2, xmask) tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp2 + tmp7 tmp9 = tl.full([1], 0, tl.int32) tmp10 = triton_helpers.maximum(tmp9, tmp8) tmp11 = 0.0 tmp12 = tmp10 <= tmp11 tl.store(in_out_ptr0 + x2, tmp10, xmask) tl.store(out_ptr0 + x2, tmp12, xmask) @triton.jit def triton_poi_fused_relu_threshold_backward_12(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 % 256 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) 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, primals_28, primals_29, primals_30, primals_31, primals_32, primals_33 ) = args args.clear() assert_size_stride(primals_1, (16, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (16,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (16, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_5, (16,), (1,)) assert_size_stride(primals_6, (16, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_7, (16,), (1,)) assert_size_stride(primals_8, (16, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_9, (16,), (1,)) assert_size_stride(primals_10, (16, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_11, (16,), (1,)) assert_size_stride(primals_12, (32, 16, 3, 3), (144, 9, 3, 1)) assert_size_stride(primals_13, (32,), (1,)) assert_size_stride(primals_14, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_15, (32,), (1,)) assert_size_stride(primals_16, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_17, (32,), (1,)) assert_size_stride(primals_18, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_19, (32,), (1,)) assert_size_stride(primals_20, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_21, (32,), (1,)) assert_size_stride(primals_22, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_23, (32,), (1,)) assert_size_stride(primals_24, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_25, (32,), (1,)) assert_size_stride(primals_26, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_27, (32,), (1,)) assert_size_stride(primals_28, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_29, (32,), (1,)) assert_size_stride(primals_30, (32, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_31, (32,), (1,)) assert_size_stride(primals_32, (256, 32), (32, 1)) assert_size_stride(primals_33, (256,), (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, 16, 4, 4), (256, 16, 4, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_convolution_0[grid(1024)](buf1, primals_2, 1024, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((4, 16, 2, 2), (64, 4, 2, 1), torch.float32) buf3 = empty_strided_cuda((4, 16, 2, 2), (64, 4, 2, 1), torch.int8) buf4 = empty_strided_cuda((4, 16, 2, 2), (64, 4, 2, 1), torch.float32) triton_poi_fused_max_pool2d_with_indices_relu_1[grid(256)](buf1, buf2, buf3, buf4, 256, XBLOCK=128, num_warps=4, num_stages=1) buf5 = extern_kernels.convolution(buf4, primals_4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 16, 2, 2), (64, 4, 2, 1)) buf6 = buf5 del buf5 triton_poi_fused_convolution_relu_2[grid(256)](buf6, primals_5, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf7 = 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(buf7, (4, 16, 2, 2), (64, 4, 2, 1)) buf8 = empty_strided_cuda((4, 16, 2, 2), (64, 4, 2, 1), torch.float32) triton_poi_fused_add_convolution_relu_3[grid(256)](buf7, primals_7, buf2, buf8, 256, XBLOCK=256, num_warps=4, num_stages=1) buf9 = extern_kernels.convolution(buf8, primals_8, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf9, (4, 16, 2, 2), (64, 4, 2, 1)) buf10 = buf9 del buf9 triton_poi_fused_convolution_relu_2[grid(256)](buf10, primals_9, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_9 buf11 = extern_kernels.convolution(buf10, primals_10, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf11, (4, 16, 2, 2), (64, 4, 2, 1)) buf12 = buf11 del buf11 triton_poi_fused_add_convolution_4[grid(256)](buf12, primals_11, buf7, primals_7, buf2, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf2 del buf7 del primals_11 del primals_7 buf13 = extern_kernels.convolution(buf12, primals_12, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf13, (4, 32, 2, 2), (128, 4, 2, 1)) buf14 = buf13 del buf13 triton_poi_fused_convolution_5[grid(512)](buf14, primals_13, 512, XBLOCK=128, num_warps=4, num_stages=1) del primals_13 buf15 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 128, 128), torch. float32) buf16 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.int8) buf17 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.float32) triton_poi_fused_max_pool2d_with_indices_relu_6[grid(128)](buf14, buf15, buf16, buf17, 128, XBLOCK=128, num_warps=4, num_stages=1) buf18 = extern_kernels.convolution(buf17, primals_14, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf18, (4, 32, 1, 1), (32, 1, 1, 1)) buf19 = buf18 del buf18 triton_poi_fused_convolution_relu_7[grid(128)](buf19, primals_15, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_15 buf20 = extern_kernels.convolution(buf19, primals_16, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf20, (4, 32, 1, 1), (32, 1, 1, 1)) buf21 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.float32) triton_poi_fused_add_convolution_relu_8[grid(128)](buf20, primals_17, buf15, buf21, 128, XBLOCK=128, num_warps=4, num_stages=1) buf22 = extern_kernels.convolution(buf21, primals_18, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf22, (4, 32, 1, 1), (32, 1, 1, 1)) buf23 = buf22 del buf22 triton_poi_fused_convolution_relu_7[grid(128)](buf23, primals_19, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_19 buf24 = extern_kernels.convolution(buf23, primals_20, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf24, (4, 32, 1, 1), (32, 1, 1, 1)) buf25 = reinterpret_tensor(buf15, (4, 32, 1, 1), (32, 1, 1, 1), 0) del buf15 triton_poi_fused_add_convolution_9[grid(128)](buf25, buf24, primals_21, buf20, primals_17, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_17 del primals_21 buf26 = extern_kernels.convolution(buf25, primals_22, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf26, (4, 32, 1, 1), (32, 1, 1, 1)) buf27 = buf26 del buf26 buf28 = reinterpret_tensor(buf24, (4, 32, 1, 1), (32, 1, 128, 128), 0) del buf24 buf29 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.int8) buf30 = buf20 del buf20 triton_poi_fused_convolution_max_pool2d_with_indices_relu_10[grid(128) ](buf27, primals_23, buf28, buf29, buf30, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_23 buf31 = extern_kernels.convolution(buf30, primals_24, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf31, (4, 32, 1, 1), (32, 1, 1, 1)) buf32 = buf31 del buf31 triton_poi_fused_convolution_relu_7[grid(128)](buf32, primals_25, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_25 buf33 = extern_kernels.convolution(buf32, primals_26, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf33, (4, 32, 1, 1), (32, 1, 1, 1)) buf34 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.float32) triton_poi_fused_add_convolution_relu_8[grid(128)](buf33, primals_27, buf28, buf34, 128, XBLOCK=128, num_warps=4, num_stages=1) buf35 = extern_kernels.convolution(buf34, primals_28, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf35, (4, 32, 1, 1), (32, 1, 1, 1)) buf36 = buf35 del buf35 triton_poi_fused_convolution_relu_7[grid(128)](buf36, primals_29, 128, XBLOCK=128, num_warps=4, num_stages=1) del primals_29 buf37 = extern_kernels.convolution(buf36, primals_30, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf37, (4, 32, 1, 1), (32, 1, 1, 1)) buf38 = reinterpret_tensor(buf28, (4, 32, 1, 1), (32, 1, 1, 1), 0) del buf28 buf42 = empty_strided_cuda((4, 32, 1, 1), (32, 1, 1, 1), torch.bool) triton_poi_fused_add_convolution_relu_threshold_backward_11[grid(128)]( buf38, buf37, primals_31, buf33, primals_27, buf42, 128, XBLOCK =128, num_warps=4, num_stages=1) del buf33 del buf37 del primals_27 del primals_31 buf39 = empty_strided_cuda((4, 256), (256, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf38, (4, 32), (32, 1), 0), reinterpret_tensor(primals_32, (32, 256), (1, 32), 0), out=buf39) buf40 = buf39 del buf39 buf41 = empty_strided_cuda((4, 256), (256, 1), torch.bool) triton_poi_fused_relu_threshold_backward_12[grid(1024)](buf40, primals_33, buf41, 1024, XBLOCK=256, num_warps=4, num_stages=1) del primals_33 return (buf40, primals_1, primals_3, primals_4, primals_6, primals_8, primals_10, primals_12, primals_14, primals_16, primals_18, primals_20, primals_22, primals_24, primals_26, primals_28, primals_30, buf1, buf3, buf4, buf6, buf8, buf10, buf12, buf14, buf16, buf17, buf19, buf21, buf23, buf25, buf27, buf29, buf30, buf32, buf34, buf36, reinterpret_tensor(buf38, (4, 32), (32, 1), 0), buf41, primals_32, buf42) class _ImpalaResBlock(nn.Module): def __init__(self, n_channels: 'int'): super().__init__() self.n_channels = n_channels kernel_size = 3 padding = 1 self.relu = nn.ReLU() self.relu_inplace = nn.ReLU() self.conv1 = nn.Conv2d(n_channels, n_channels, kernel_size, padding =padding) self.conv2 = nn.Conv2d(n_channels, n_channels, kernel_size, padding =padding) def forward(self, inputs): x = self.relu(inputs) x = self.conv1(x) x = self.relu_inplace(x) x = self.conv2(x) x += inputs return x class _ImpalaBlock(nn.Module): def __init__(self, n_channels_in: 'int', n_channels_out: 'int'): super().__init__() self.n_channels_in = n_channels_in self.n_channels_out = n_channels_out kernel_size = 3 padding = 1 self.conv1 = nn.Conv2d(n_channels_in, n_channels_out, kernel_size, padding=padding) self.pool = nn.MaxPool2d(kernel_size, stride=2, padding=padding) self.res1 = _ImpalaResBlock(n_channels_out) self.res2 = _ImpalaResBlock(n_channels_out) def forward(self, x): x = self.conv1(x) x = self.pool(x) x = self.res1(x) x = self.res2(x) return x class _ImpalaCNNNew(nn.Module): def __init__(self, img_shape: 'Tuple[int, int, int]', n_extra_feats: 'int'=0, n_outputs: 'int'=256): super().__init__() self.n_outputs = n_outputs h, w, c = img_shape self.block1 = _ImpalaBlock(c, 16) self.block2 = _ImpalaBlock(16, 32) self.block3 = _ImpalaBlock(32, 32) self.relu = nn.ReLU() self.flatten = nn.Flatten() test_img = torch.empty(c, h, w)[None] n_feats = self.block3(self.block2(self.block1(test_img))).numel() self.linear = nn.Linear(n_feats + n_extra_feats, self.n_outputs) def forward(self, input_0): primals_1 = self.block1.conv1.weight primals_2 = self.block1.conv1.bias primals_4 = self.block1.res1.conv1.weight primals_5 = self.block1.res1.conv1.bias primals_6 = self.block1.res1.conv2.weight primals_7 = self.block1.res1.conv2.bias primals_8 = self.block1.res2.conv1.weight primals_9 = self.block1.res2.conv1.bias primals_10 = self.block1.res2.conv2.weight primals_11 = self.block1.res2.conv2.bias primals_12 = self.block2.conv1.weight primals_13 = self.block2.conv1.bias primals_14 = self.block2.res1.conv1.weight primals_15 = self.block2.res1.conv1.bias primals_16 = self.block2.res1.conv2.weight primals_17 = self.block2.res1.conv2.bias primals_18 = self.block2.res2.conv1.weight primals_19 = self.block2.res2.conv1.bias primals_20 = self.block2.res2.conv2.weight primals_21 = self.block2.res2.conv2.bias primals_22 = self.block3.conv1.weight primals_23 = self.block3.conv1.bias primals_24 = self.block3.res1.conv1.weight primals_25 = self.block3.res1.conv1.bias primals_26 = self.block3.res1.conv2.weight primals_27 = self.block3.res1.conv2.bias primals_28 = self.block3.res2.conv1.weight primals_29 = self.block3.res2.conv1.bias primals_30 = self.block3.res2.conv2.weight primals_31 = self.block3.res2.conv2.bias primals_32 = self.linear.weight primals_33 = self.linear.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, primals_28, primals_29, primals_30, primals_31, primals_32, primals_33]) return output[0]	IBM/vsrl-framework	_ImpalaCNN	false	8,511	[ "MIT" ]	44	42e0853bffb5efbb66cd97178aff9e10ad18c5a9	https://github.com/IBM/vsrl-framework/tree/42e0853bffb5efbb66cd97178aff9e10ad18c5a9
FinalTanh	# 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: [z_1], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # z_1 => 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/fb/cfbnjmdcnzgb5o2ikligx2v2qracdl4wffglmctengdzetowzfy7.py # Topologically Sorted Source Nodes: [z_3], Original ATen: [aten.tanh] # Source node to ATen node mapping: # z_3 => tanh # Graph fragment: # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%view_4,), 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=[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_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 = 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 = 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, (16, 4), (4, 1)) assert_size_stride(primals_5, (16, ), (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: [z_1], 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, 16), (16, 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, 16), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [z_3], Original ATen: [aten.tanh] triton_poi_fused_tanh_1.run(buf3, primals_5, 1024, grid=grid(1024), stream=stream0) del primals_5 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((16, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((16, ), (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 class FinalTanh(torch.nn.Module): def __init__(self, input_channels, hidden_channels, hidden_hidden_channels, num_hidden_layers): super(FinalTanh, self).__init__() self.input_channels = input_channels self.hidden_channels = hidden_channels self.hidden_hidden_channels = hidden_hidden_channels self.num_hidden_layers = num_hidden_layers self.linear_in = torch.nn.Linear(hidden_channels, hidden_hidden_channels) self.linears = torch.nn.ModuleList(torch.nn.Linear( hidden_hidden_channels, hidden_hidden_channels) for _ in range( num_hidden_layers - 1)) self.linear_out = torch.nn.Linear(hidden_hidden_channels, input_channels * hidden_channels) def extra_repr(self): return ( 'input_channels: {}, hidden_channels: {}, hidden_hidden_channels: {}, num_hidden_layers: {}' .format(self.input_channels, self.hidden_channels, self. hidden_hidden_channels, self.num_hidden_layers)) def forward(self, z): z = self.linear_in(z) z = z.relu() for linear in self.linears: z = linear(z) z = z.relu() z = self.linear_out(z).view(*z.shape[:-1], self.hidden_channels, self.input_channels) z = z.tanh() return z def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_channels': 4, 'hidden_channels': 4, 'hidden_hidden_channels': 4, 'num_hidden_layers': 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 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, in_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 = 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, (16, 4), (4, 1)) assert_size_stride(primals_5, (16,), (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, 16), (16, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 16), (1, 4), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 4, 4), (256, 64, 16, 4, 1), 0 ) del buf2 triton_poi_fused_tanh_1[grid(1024)](buf3, primals_5, 1024, XBLOCK= 128, num_warps=4, num_stages=1) del primals_5 return buf3, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), buf3, primals_4, buf4 class FinalTanhNew(torch.nn.Module): def __init__(self, input_channels, hidden_channels, hidden_hidden_channels, num_hidden_layers): super(FinalTanhNew, self).__init__() self.input_channels = input_channels self.hidden_channels = hidden_channels self.hidden_hidden_channels = hidden_hidden_channels self.num_hidden_layers = num_hidden_layers self.linear_in = torch.nn.Linear(hidden_channels, hidden_hidden_channels) self.linears = torch.nn.ModuleList(torch.nn.Linear( hidden_hidden_channels, hidden_hidden_channels) for _ in range( num_hidden_layers - 1)) self.linear_out = torch.nn.Linear(hidden_hidden_channels, input_channels * hidden_channels) def extra_repr(self): return ( 'input_channels: {}, hidden_channels: {}, hidden_hidden_channels: {}, num_hidden_layers: {}' .format(self.input_channels, self.hidden_channels, self. hidden_hidden_channels, self.num_hidden_layers)) def forward(self, input_0): primals_1 = self.linear_in.weight primals_2 = self.linear_in.bias primals_4 = self.linear_out.weight primals_5 = self.linear_out.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	MLforHealth/state_representations_for_RLinHealth	FinalTanh	false	8,512	[ "MIT" ]	24	aa8dbb7d56caa95bf4380e3e745e134996291b66	https://github.com/MLforHealth/state_representations_for_RLinHealth/tree/aa8dbb7d56caa95bf4380e3e745e134996291b66
Simple224Upsample	# 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/ym/cymmijzmy3bikimtlmhcpnpldgvtpd63brzpjwzj7z6z53kzxiut.py # Topologically Sorted Source Nodes: [interpolate], Original ATen: [aten._unsafe_index] # Source node to ATen node mapping: # interpolate => _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=[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__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 = 12544 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = (xindex // 28) % 28 x0 = xindex % 28 x2 = (xindex // 784) x4 = xindex tmp0 = x1 tmp1 = tmp0.to(tl.float32) tmp2 = 0.14285714285714285 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, 28, 28), (3136, 784, 28, 1), torch.float32) # Topologically Sorted Source Nodes: [interpolate], Original ATen: [aten._unsafe_index] stream0 = get_raw_stream(0) triton_poi_fused__unsafe_index_0.run(arg0_1, buf0, 12544, grid=grid(12544), 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 Simple224Upsample(nn.Module): def __init__(self, arch=''): super(Simple224Upsample, self).__init__() self.upsample = nn.Upsample(mode='nearest', scale_factor=7) self.arch = arch def forward(self, x): return self.upsample(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__unsafe_index_0(in_ptr0, out_ptr0, xnumel, XBLOCK: tl. constexpr): xnumel = 12544 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x1 = xindex // 28 % 28 x0 = xindex % 28 x2 = xindex // 784 x4 = xindex tmp0 = x1 tmp1 = tmp0.to(tl.float32) tmp2 = 0.14285714285714285 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, 28, 28), (3136, 784, 28, 1), torch .float32) get_raw_stream(0) triton_poi_fused__unsafe_index_0[grid(12544)](arg0_1, buf0, 12544, XBLOCK=256, num_warps=4, num_stages=1) del arg0_1 return buf0, class Simple224UpsampleNew(nn.Module): def __init__(self, arch=''): super(Simple224UpsampleNew, self).__init__() self.upsample = nn.Upsample(mode='nearest', scale_factor=7) self.arch = arch def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	MadryLab/smoothed-vit	Simple224Upsample	false	8,513	[ "MIT" ]	16	a4327542e519e010764821716b64b944d458d1c1	https://github.com/MadryLab/smoothed-vit/tree/a4327542e519e010764821716b64b944d458d1c1
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/gb/cgbwnaj5oug7igmllliidgnj2caxf4gydctcjumg327lxmvyucrg.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, 16], 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, 4), 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 = 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 y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (64y1)), xmask & ymask) 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 + (16y3)), tmp4, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/yg/cygwdv2rf3wyqakyqote4yjisachmdxn2f3w3jau4rl37wpba2gi.py # Topologically Sorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: # Graph fragment: # %amax_default : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_default_2, [-1], True), kwargs = {}) # %sub_tensor : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_default_2, %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 = {}) # %div_tensor : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp_default, %sum_dim_int_list), kwargs = {}) # %eq_scalar : [num_users=1] = call_function[target=torch.ops.aten.eq.Scalar](args = (%view_default_2, -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 = {}) # %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, 16, 16], 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_per_fused_1 = async_compile.triton('triton_per_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.persistent_reduction( size_hints=[256, 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_1', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 1, '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_1(in_ptr0, out_ptr3, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 256 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 = float("-inf") tmp12 = tmp0 == tmp11 tmp13 = tmp12 == 0 tmp14 = tmp13.to(tl.int64) tmp15 = (tmp14 != 0) tmp16 = tl.broadcast_to(tmp15, [XBLOCK, RBLOCK]) tmp18 = tl.where(xmask, tmp16, 0) tmp19 = triton_helpers.any(tmp18, 1)[:, None] tmp20 = tmp19 == 0 tmp21 = tmp6 / tmp10 tmp22 = 0.0 tmp23 = tl.where(tmp20, tmp22, tmp21) tl.store(out_ptr3 + (r1 + (16x0)), tmp23, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ul/culeyo7zwri3w4fxn25jwciimwyndho7lrwlsavnxyedoog3pb4f.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_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=[16, 16], 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, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_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_2(in_ptr0, in_ptr1, 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 y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (64y1)), xmask & ymask) tmp1 = tl.load(in_ptr1 + (y0), ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(out_ptr0 + (x2 + (16y3)), tmp2, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/44/c44udt7qyfjbhr63snwdnvww3k3vzms334kz5lteswpyl475z5jc.py # Topologically Sorted Source Nodes: [contiguous], Original ATen: [aten.clone] # Source node to ATen node mapping: # contiguous => 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_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, 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_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, 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 + (4*y3)), tmp0, 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, primals_8, primals_9, primals_10, primals_11 = 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, 4), (64, 16, 4, 1)) assert_size_stride(primals_5, (4, 4), (4, 1)) assert_size_stride(primals_6, (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, 4), (64, 16, 4, 1)) assert_size_stride(primals_10, (4, 4), (4, 1)) assert_size_stride(primals_11, (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_4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_5, (4, 4), (1, 4), 0), out=buf1) del primals_5 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_9, (64, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf2) del primals_7 buf3 = empty_strided_cuda((4, 4, 16, 1), (64, 16, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] stream0 = get_raw_stream(0) triton_poi_fused_0.run(buf1, primals_6, buf3, 16, 16, grid=grid(16, 16), stream=stream0) del primals_6 buf4 = reinterpret_tensor(buf1, (4, 4, 1, 16), (64, 16, 16, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] triton_poi_fused_0.run(buf0, primals_3, buf4, 16, 16, grid=grid(16, 16), stream=stream0) del primals_3 buf5 = empty_strided_cuda((16, 16, 16), (256, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.bmm(reinterpret_tensor(buf3, (16, 16, 1), (16, 1, 0), 0), reinterpret_tensor(buf4, (16, 1, 16), (16, 0, 1), 0), out=buf5) buf9 = empty_strided_cuda((4, 4, 16, 16), (1024, 256, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] triton_per_fused_1.run(buf5, buf9, 256, 16, grid=grid(256), stream=stream0) del buf5 buf10 = reinterpret_tensor(buf0, (4, 4, 16, 1), (64, 16, 1, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(buf2, primals_8, buf10, 16, 16, grid=grid(16, 16), stream=stream0) del primals_8 buf11 = reinterpret_tensor(buf2, (16, 16, 1), (16, 1, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.bmm(reinterpret_tensor(buf9, (16, 16, 16), (256, 16, 1), 0), reinterpret_tensor(buf10, (16, 16, 1), (16, 1, 0), 0), out=buf11) buf12 = empty_strided_cuda((4, 16, 4, 1), (64, 4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [contiguous], Original ATen: [aten.clone] triton_poi_fused_clone_3.run(buf11, buf12, 64, 4, grid=grid(64, 4), stream=stream0) buf13 = reinterpret_tensor(buf11, (64, 4), (4, 1), 0); del buf11 # reuse # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_11, reinterpret_tensor(buf12, (64, 4), (4, 1), 0), reinterpret_tensor(primals_10, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf13) del primals_11 return (reinterpret_tensor(buf13, (4, 16, 4), (64, 4, 1), 0), reinterpret_tensor(primals_4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_9, (64, 4), (4, 1), 0), buf9, reinterpret_tensor(buf10, (16, 1, 16), (16, 1, 1), 0), reinterpret_tensor(buf3, (16, 1, 16), (16, 1, 1), 0), reinterpret_tensor(buf4, (16, 16, 1), (16, 1, 16), 0), reinterpret_tensor(buf12, (64, 4), (4, 1), 0), primals_10, ) 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, 4), (64, 16, 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((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, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_11 = 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]) 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 import torch.nn.functional as F def attention(q, k, v, d_k, mask=None, dropout=None): scores = torch.matmul(q, k.transpose(-2, -1)) / math.sqrt(d_k) if mask is not None: mask = mask.unsqueeze(1) scores = F.softmax(scores, dim=-1) if dropout is not None: scores = dropout(scores) output = torch.matmul(scores, v) return output class MultiHeadAttention(nn.Module): def __init__(self, heads, d_model, dropout=0.5): super().__init__() self.d_model = d_model self.d_k = d_model // heads self.h = heads self.q_linear = nn.Linear(d_model, d_model) self.v_linear = nn.Linear(d_model, d_model) self.k_linear = nn.Linear(d_model, d_model) self.dropout = nn.Dropout(dropout) self.out = nn.Linear(d_model, d_model) def forward(self, q, k, v, mask=None): bs = q.size(0) k = self.k_linear(k).view(bs, -1, self.h, self.d_k) q = self.q_linear(q).view(bs, -1, self.h, self.d_k) v = self.v_linear(v).view(bs, -1, self.h, self.d_k) k = k.transpose(1, 2) q = q.transpose(1, 2) v = v.transpose(1, 2) scores = attention(q, k, v, self.d_k, mask, self.dropout) concat = scores.transpose(1, 2).contiguous().view(bs, -1, self.d_model) output = self.out(concat) return output 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 [[], {'heads': 4, 'd_model': 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 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_0(in_ptr0, in_ptr1, 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 y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 64 * y1), xmask & ymask) 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 + 16 * y3), tmp4, xmask & ymask) @triton.jit def triton_per_fused_1(in_ptr0, out_ptr3, xnumel, rnumel, XBLOCK: tl.constexpr ): xnumel = 256 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 = float('-inf') tmp12 = tmp0 == tmp11 tmp13 = tmp12 == 0 tmp14 = tmp13.to(tl.int64) tmp15 = tmp14 != 0 tmp16 = tl.broadcast_to(tmp15, [XBLOCK, RBLOCK]) tmp18 = tl.where(xmask, tmp16, 0) tmp19 = triton_helpers.any(tmp18, 1)[:, None] tmp20 = tmp19 == 0 tmp21 = tmp6 / tmp10 tmp22 = 0.0 tmp23 = tl.where(tmp20, tmp22, tmp21) tl.store(out_ptr3 + (r1 + 16 * x0), tmp23, xmask) @triton.jit def triton_poi_fused_2(in_ptr0, in_ptr1, 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 y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 64 * y1), xmask & ymask) tmp1 = tl.load(in_ptr1 + y0, ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tl.store(out_ptr0 + (x2 + 16 * y3), tmp2, xmask & ymask) @triton.jit def triton_poi_fused_clone_3(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) 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, (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, 4), (64, 16, 4, 1)) assert_size_stride(primals_5, (4, 4), (4, 1)) assert_size_stride(primals_6, (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, 4), (64, 16, 4, 1)) assert_size_stride(primals_10, (4, 4), (4, 1)) assert_size_stride(primals_11, (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_4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_5, (4, 4), (1, 4), 0), out=buf1) del primals_5 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_9, (64, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf2) del primals_7 buf3 = empty_strided_cuda((4, 4, 16, 1), (64, 16, 1, 1), torch.float32) get_raw_stream(0) triton_poi_fused_0[grid(16, 16)](buf1, primals_6, buf3, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del primals_6 buf4 = reinterpret_tensor(buf1, (4, 4, 1, 16), (64, 16, 16, 1), 0) del buf1 triton_poi_fused_0[grid(16, 16)](buf0, primals_3, buf4, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del primals_3 buf5 = empty_strided_cuda((16, 16, 16), (256, 16, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf3, (16, 16, 1), (16, 1, 0), 0), reinterpret_tensor(buf4, (16, 1, 16), (16, 0, 1), 0), out=buf5) buf9 = empty_strided_cuda((4, 4, 16, 16), (1024, 256, 16, 1), torch .float32) triton_per_fused_1[grid(256)](buf5, buf9, 256, 16, XBLOCK=32, num_warps=4, num_stages=1) del buf5 buf10 = reinterpret_tensor(buf0, (4, 4, 16, 1), (64, 16, 1, 1), 0) del buf0 triton_poi_fused_2[grid(16, 16)](buf2, primals_8, buf10, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del primals_8 buf11 = reinterpret_tensor(buf2, (16, 16, 1), (16, 1, 1), 0) del buf2 extern_kernels.bmm(reinterpret_tensor(buf9, (16, 16, 16), (256, 16, 1), 0), reinterpret_tensor(buf10, (16, 16, 1), (16, 1, 0), 0), out=buf11) buf12 = empty_strided_cuda((4, 16, 4, 1), (64, 4, 1, 1), torch.float32) triton_poi_fused_clone_3[grid(64, 4)](buf11, buf12, 64, 4, XBLOCK=4, YBLOCK=32, num_warps=4, num_stages=1) buf13 = reinterpret_tensor(buf11, (64, 4), (4, 1), 0) del buf11 extern_kernels.addmm(primals_11, reinterpret_tensor(buf12, (64, 4), (4, 1), 0), reinterpret_tensor(primals_10, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf13) del primals_11 return reinterpret_tensor(buf13, (4, 16, 4), (64, 4, 1), 0 ), reinterpret_tensor(primals_4, (64, 4), (4, 1), 0 ), reinterpret_tensor(primals_1, (64, 4), (4, 1), 0 ), reinterpret_tensor(primals_9, (64, 4), (4, 1), 0 ), buf9, reinterpret_tensor(buf10, (16, 1, 16), (16, 1, 1), 0 ), reinterpret_tensor(buf3, (16, 1, 16), (16, 1, 1), 0 ), reinterpret_tensor(buf4, (16, 16, 1), (16, 1, 16), 0 ), reinterpret_tensor(buf12, (64, 4), (4, 1), 0), primals_10 def attention(q, k, v, d_k, mask=None, dropout=None): scores = torch.matmul(q, k.transpose(-2, -1)) / math.sqrt(d_k) if mask is not None: mask = mask.unsqueeze(1) scores = F.softmax(scores, dim=-1) if dropout is not None: scores = dropout(scores) output = torch.matmul(scores, v) return output class MultiHeadAttentionNew(nn.Module): def __init__(self, heads, d_model, dropout=0.5): super().__init__() self.d_model = d_model self.d_k = d_model // heads self.h = heads self.q_linear = nn.Linear(d_model, d_model) self.v_linear = nn.Linear(d_model, d_model) self.k_linear = nn.Linear(d_model, d_model) self.dropout = nn.Dropout(dropout) self.out = nn.Linear(d_model, d_model) def forward(self, input_0, input_1, input_2): primals_2 = self.q_linear.weight primals_3 = self.q_linear.bias primals_5 = self.v_linear.weight primals_6 = self.v_linear.bias primals_7 = self.k_linear.weight primals_8 = self.k_linear.bias primals_10 = self.out.weight primals_11 = self.out.bias primals_1 = input_0 primals_4 = input_1 primals_9 = input_2 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]	MadanMl/PyTorch-Transformer-for-RUL-Prediction	MultiHeadAttention	false	8,514	[ "Apache-2.0" ]	25	5bf0a4739abdecbbc88118ea413393997bdc1e24	https://github.com/MadanMl/PyTorch-Transformer-for-RUL-Prediction/tree/5bf0a4739abdecbbc88118ea413393997bdc1e24
DDM_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/fz/cfzlv26e3pv2vjuvyqdatny6iogm566ujkmsujrdmg4axgcblccy.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.elu] # Source node to ATen node mapping: # x => expm1, gt, mul, mul_2, where # Graph fragment: # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%view_1, 0), kwargs = {}) # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, 1.0), kwargs = {}) # %expm1 : [num_users=1] = call_function[target=torch.ops.aten.expm1.default](args = (%mul,), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expm1, 1.0), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %mul, %mul_2), kwargs = {}) triton_poi_fused_elu_0 = async_compile.triton('triton_poi_fused_elu_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=[32768], 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_elu_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_elu_0(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 18432 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_ptr0 + (x0), None) 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) tl.store(out_ptr0 + (x0), tmp7, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/c4/cc4eqenjlptlxsrdkh4svldalgxdow6sklo5zygcpmhyqorzv4ql.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.elu] # Source node to ATen node mapping: # x_1 => expm1_1, gt_1, mul_3, mul_5, where_1 # Graph fragment: # %gt_1 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%view_3, 0), kwargs = {}) # %mul_3 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_3, 1.0), kwargs = {}) # %expm1_1 : [num_users=1] = call_function[target=torch.ops.aten.expm1.default](args = (%mul_3,), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expm1_1, 1.0), kwargs = {}) # %where_1 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %mul_3, %mul_5), kwargs = {}) triton_poi_fused_elu_1 = async_compile.triton('triton_poi_fused_elu_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_elu_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_elu_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 x0 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask) 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) tl.store(out_ptr0 + (x0), 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 = args args.clear() assert_size_stride(primals_1, (288, 4), (4, 1)) assert_size_stride(primals_2, (288, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 288), (288, 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, 288), (288, 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, 288), (1, 4), 0), alpha=1, beta=1, out=buf0) del primals_1 del primals_2 buf1 = empty_strided_cuda((4, 4, 4, 288), (4608, 1152, 288, 1), torch.float32) # Topologically Sorted Source Nodes: [x], Original ATen: [aten.elu] stream0 = get_raw_stream(0) triton_poi_fused_elu_0.run(buf0, buf1, 18432, grid=grid(18432), stream=stream0) buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 288), (288, 1), 0), reinterpret_tensor(primals_4, (288, 4), (1, 288), 0), alpha=1, beta=1, out=buf2) del primals_5 buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.elu] triton_poi_fused_elu_1.run(buf2, buf3, 256, grid=grid(256), stream=stream0) buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf4) del primals_7 return (reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf0, reinterpret_tensor(buf1, (64, 288), (288, 1), 0), buf2, reinterpret_tensor(buf3, (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((288, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((288, ), (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, 288), (288, 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 import numpy as np import torch.nn as nn import torch.nn.functional as F import torch.nn.init as init def weights_init(m): classname = m.__class__.__name__ if classname.find('Conv') != -1: weight_shape = list(m.weight.data.size()) fan_in = np.prod(weight_shape[1:4]) fan_out = np.prod(weight_shape[2:4]) * weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('Linear') != -1: weight_shape = list(m.weight.data.size()) fan_in = weight_shape[1] fan_out = weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('GRUCell') != -1: for param in m.parameters(): if len(param.shape) >= 2: init.orthogonal_(param.data) else: init.normal_(param.data) class DDM_Decoder(torch.nn.Module): def __init__(self, obs_space, dim): super(DDM_Decoder, self).__init__() self.fc = nn.Linear(dim, 32 * 3 * 3) self.linear1 = nn.Linear(32 * 3 * 3, dim) self.linear2 = nn.Linear(dim, obs_space) self.apply(weights_init) self.train() def forward(self, inputs): x = F.elu(self.fc(inputs)) x = F.elu(self.linear1(x)) x = self.linear2(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'obs_space': 4, '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.triton_helpers import libdevice import numpy as np import torch.nn as nn import torch.nn.init as init 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_elu_0(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) x0 = xindex tmp0 = tl.load(in_ptr0 + x0, None) 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) tl.store(out_ptr0 + x0, tmp7, None) @triton.jit def triton_poi_fused_elu_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 x0 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask) 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) tl.store(out_ptr0 + x0, tmp7, 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, (288, 4), (4, 1)) assert_size_stride(primals_2, (288,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4, 288), (288, 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, 288), (288, 1), torch.float32) extern_kernels.addmm(primals_2, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 288), (1, 4), 0), alpha=1, beta=1, out=buf0) del primals_1 del primals_2 buf1 = empty_strided_cuda((4, 4, 4, 288), (4608, 1152, 288, 1), torch.float32) get_raw_stream(0) triton_poi_fused_elu_0[grid(18432)](buf0, buf1, 18432, XBLOCK=256, num_warps=4, num_stages=1) buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 288), (288, 1), 0), reinterpret_tensor(primals_4, (288, 4), (1, 288), 0), alpha=1, beta=1, out=buf2) del primals_5 buf3 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_elu_1[grid(256)](buf2, buf3, 256, XBLOCK=256, num_warps=4, num_stages=1) buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_7, reinterpret_tensor(buf3, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf4) del primals_7 return reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), buf0, reinterpret_tensor(buf1, (64, 288), (288, 1), 0 ), buf2, reinterpret_tensor(buf3, (64, 4), (4, 1), 0 ), primals_6, primals_4 def weights_init(m): classname = m.__class__.__name__ if classname.find('Conv') != -1: weight_shape = list(m.weight.data.size()) fan_in = np.prod(weight_shape[1:4]) fan_out = np.prod(weight_shape[2:4]) * weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('Linear') != -1: weight_shape = list(m.weight.data.size()) fan_in = weight_shape[1] fan_out = weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('GRUCell') != -1: for param in m.parameters(): if len(param.shape) >= 2: init.orthogonal_(param.data) else: init.normal_(param.data) class DDM_DecoderNew(torch.nn.Module): def __init__(self, obs_space, dim): super(DDM_DecoderNew, self).__init__() self.fc = nn.Linear(dim, 32 * 3 * 3) self.linear1 = nn.Linear(32 * 3 * 3, dim) self.linear2 = nn.Linear(dim, obs_space) self.apply(weights_init) self.train() def forward(self, input_0): primals_1 = self.fc.weight primals_2 = self.fc.bias primals_4 = self.linear1.weight primals_5 = self.linear1.bias primals_6 = self.linear2.weight primals_7 = self.linear2.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	MLforHealth/state_representations_for_RLinHealth	DDM_Decoder	false	8,515	[ "MIT" ]	24	aa8dbb7d56caa95bf4380e3e745e134996291b66	https://github.com/MLforHealth/state_representations_for_RLinHealth/tree/aa8dbb7d56caa95bf4380e3e745e134996291b66
_GRU_ODE	# 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/oc/cocbprmxltzzwookspf2l3xtfjylilnja2kcsxdpi4dxaekx6jrr.py # Topologically Sorted Source Nodes: [r, r_1, mul], Original ATen: [aten.add, aten.sigmoid, aten.mul, aten.sigmoid_backward] # Source node to ATen node mapping: # mul => mul # r => add # r_1 => sigmoid # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_1, %view_3), kwargs = {}) # %sigmoid : [num_users=3] = call_function[target=torch.ops.aten.sigmoid.default](args = (%add,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %primals_5), kwargs = {}) # %sub_4 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %sigmoid), kwargs = {}) # %mul_9 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sigmoid, %sub_4), kwargs = {}) triton_poi_fused_add_mul_sigmoid_sigmoid_backward_0 = async_compile.triton('triton_poi_fused_add_mul_sigmoid_sigmoid_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: '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_sigmoid_sigmoid_backward_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_sigmoid_sigmoid_backward_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, out_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_ptr1 + (x2), xmask) tmp2 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr3 + (x2), xmask) tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tmp5 = tl.sigmoid(tmp4) tmp7 = tmp5 * tmp6 tmp8 = 1.0 tmp9 = tmp8 - tmp5 tmp10 = tmp5 * tmp9 tl.store(out_ptr0 + (x2), tmp7, xmask) tl.store(out_ptr1 + (x2), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/iy/ciyx6cty6ic4g5pu4ch2h3vovxmg4x4zudxde3hg3ettvlhnbnyt.py # Topologically Sorted Source Nodes: [z, z_1, g, g_1, sub, sub_1, mul_1], Original ATen: [aten.add, aten.sigmoid, aten.tanh, aten.rsub, aten.sub, aten.mul] # Source node to ATen node mapping: # g => add_2 # g_1 => tanh # mul_1 => mul_1 # sub => sub # sub_1 => sub_1 # z => add_1 # z_1 => sigmoid_1 # Graph fragment: # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_5, %view_7), kwargs = {}) # %sigmoid_1 : [num_users=2] = call_function[target=torch.ops.aten.sigmoid.default](args = (%add_1,), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_9, %view_11), kwargs = {}) # %tanh : [num_users=2] = call_function[target=torch.ops.aten.tanh.default](args = (%add_2,), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (1, %sigmoid_1), kwargs = {}) # %sub_1 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%tanh, %primals_5), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%sub, %sub_1), kwargs = {}) triton_poi_fused_add_mul_rsub_sigmoid_sub_tanh_1 = async_compile.triton('triton_poi_fused_add_mul_rsub_sigmoid_sub_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: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'fp32', 6: 'fp32', 7: 'fp32', 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_poi_fused_add_mul_rsub_sigmoid_sub_tanh_1', 'mutated_arg_names': ['in_out_ptr0', 'in_out_ptr1'], 'no_x_dim': False, 'num_load': 7, '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_rsub_sigmoid_sub_tanh_1(in_out_ptr0, in_out_ptr1, 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 x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr0 + (x2), xmask) tmp2 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_out_ptr1 + (x2), xmask) tmp7 = tl.load(in_ptr2 + (x2), xmask) tmp8 = tl.load(in_ptr3 + (x0), xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr4 + (x2), xmask) tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tmp5 = tl.sigmoid(tmp4) tmp9 = tmp7 + tmp8 tmp10 = tmp6 + tmp9 tmp11 = libdevice.tanh(tmp10) tmp12 = 1.0 tmp13 = tmp12 - tmp5 tmp15 = tmp11 - tmp14 tmp16 = tmp13 * tmp15 tl.store(in_out_ptr0 + (x2), tmp5, xmask) tl.store(in_out_ptr1 + (x2), tmp11, xmask) tl.store(out_ptr0 + (x2), tmp16, 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, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_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, 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, 4), (4, 1)) assert_size_stride(primals_11, (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: [linear], 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((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_5, (64, 4), (4, 1), 0), reinterpret_tensor(primals_3, (4, 4), (1, 4), 0), out=buf1) del primals_3 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_2], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf2) del primals_6 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_5, (64, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf3) del primals_7 buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_4], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_9, (4, 4), (1, 4), 0), out=buf5) del primals_9 buf6 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [r, r_1, mul], Original ATen: [aten.add, aten.sigmoid, aten.mul, aten.sigmoid_backward] stream0 = get_raw_stream(0) triton_poi_fused_add_mul_sigmoid_sigmoid_backward_0.run(buf0, buf1, primals_4, primals_5, buf6, buf10, 256, grid=grid(256), stream=stream0) del primals_4 buf7 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf6, (64, 4), (4, 1), 0), reinterpret_tensor(primals_10, (4, 4), (1, 4), 0), out=buf7) buf4 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf2 # reuse buf8 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf5 # reuse buf9 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [z, z_1, g, g_1, sub, sub_1, mul_1], Original ATen: [aten.add, aten.sigmoid, aten.tanh, aten.rsub, aten.sub, aten.mul] triton_poi_fused_add_mul_rsub_sigmoid_sub_tanh_1.run(buf4, buf8, buf3, primals_8, buf7, primals_11, primals_5, buf9, 256, grid=grid(256), stream=stream0) del buf3 del buf7 del primals_11 del primals_8 return (buf9, primals_5, reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), buf4, reinterpret_tensor(buf6, (64, 4), (4, 1), 0), buf8, primals_10, buf10, ) 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, 4), (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, 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, 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, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_11 = 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]) 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 _GRU_ODE(torch.nn.Module): def __init__(self, input_channels, hidden_channels): super(_GRU_ODE, self).__init__() self.input_channels = input_channels self.hidden_channels = hidden_channels self.W_r = torch.nn.Linear(input_channels, hidden_channels, bias=False) self.W_z = torch.nn.Linear(input_channels, hidden_channels, bias=False) self.W_h = torch.nn.Linear(input_channels, hidden_channels, bias=False) self.U_r = torch.nn.Linear(hidden_channels, hidden_channels) self.U_z = torch.nn.Linear(hidden_channels, hidden_channels) self.U_h = torch.nn.Linear(hidden_channels, hidden_channels) def extra_repr(self): return 'input_channels: {}, hidden_channels: {}'.format(self. input_channels, self.hidden_channels) def forward(self, x, h): r = self.W_r(x) + self.U_r(h) r = r.sigmoid() z = self.W_z(x) + self.U_z(h) z = z.sigmoid() g = self.W_h(x) + self.U_h(r * h) g = g.tanh() return (1 - z) * (g - h) def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_channels': 4, 'hidden_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 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_sigmoid_sigmoid_backward_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, out_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_ptr1 + x2, xmask) tmp2 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr3 + x2, xmask) tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tmp5 = tl.sigmoid(tmp4) tmp7 = tmp5 * tmp6 tmp8 = 1.0 tmp9 = tmp8 - tmp5 tmp10 = tmp5 * tmp9 tl.store(out_ptr0 + x2, tmp7, xmask) tl.store(out_ptr1 + x2, tmp10, xmask) @triton.jit def triton_poi_fused_add_mul_rsub_sigmoid_sub_tanh_1(in_out_ptr0, in_out_ptr1, 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 x0 = xindex % 4 tmp0 = tl.load(in_out_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr0 + x2, xmask) tmp2 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_out_ptr1 + x2, xmask) tmp7 = tl.load(in_ptr2 + x2, xmask) tmp8 = tl.load(in_ptr3 + x0, xmask, eviction_policy='evict_last') tmp14 = tl.load(in_ptr4 + x2, xmask) tmp3 = tmp1 + tmp2 tmp4 = tmp0 + tmp3 tmp5 = tl.sigmoid(tmp4) tmp9 = tmp7 + tmp8 tmp10 = tmp6 + tmp9 tmp11 = libdevice.tanh(tmp10) tmp12 = 1.0 tmp13 = tmp12 - tmp5 tmp15 = tmp11 - tmp14 tmp16 = tmp13 * tmp15 tl.store(in_out_ptr0 + x2, tmp5, xmask) tl.store(in_out_ptr1 + x2, tmp11, xmask) tl.store(out_ptr0 + x2, tmp16, 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, (4, 4), (4, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, 4), (4, 1)) assert_size_stride(primals_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, 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, 4), (4, 1)) assert_size_stride(primals_11, (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((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_5, (64, 4), (4, 1), 0), reinterpret_tensor(primals_3, (4, 4), (1, 4), 0), out=buf1) del primals_3 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf2) del primals_6 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_5, (64, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf3) del primals_7 buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_2, (64, 4), (4, 1), 0), reinterpret_tensor(primals_9, (4, 4), (1, 4), 0), out=buf5) del primals_9 buf6 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused_add_mul_sigmoid_sigmoid_backward_0[grid(256)](buf0, buf1, primals_4, primals_5, buf6, buf10, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_4 buf7 = buf1 del buf1 extern_kernels.mm(reinterpret_tensor(buf6, (64, 4), (4, 1), 0), reinterpret_tensor(primals_10, (4, 4), (1, 4), 0), out=buf7) buf4 = reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf2 buf8 = reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf5 buf9 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 triton_poi_fused_add_mul_rsub_sigmoid_sub_tanh_1[grid(256)](buf4, buf8, buf3, primals_8, buf7, primals_11, primals_5, buf9, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf3 del buf7 del primals_11 del primals_8 return buf9, primals_5, reinterpret_tensor(primals_2, (64, 4), (4, 1), 0 ), buf4, reinterpret_tensor(buf6, (64, 4), (4, 1), 0 ), buf8, primals_10, buf10 class _GRU_ODENew(torch.nn.Module): def __init__(self, input_channels, hidden_channels): super(_GRU_ODENew, self).__init__() self.input_channels = input_channels self.hidden_channels = hidden_channels self.W_r = torch.nn.Linear(input_channels, hidden_channels, bias=False) self.W_z = torch.nn.Linear(input_channels, hidden_channels, bias=False) self.W_h = torch.nn.Linear(input_channels, hidden_channels, bias=False) self.U_r = torch.nn.Linear(hidden_channels, hidden_channels) self.U_z = torch.nn.Linear(hidden_channels, hidden_channels) self.U_h = torch.nn.Linear(hidden_channels, hidden_channels) def extra_repr(self): return 'input_channels: {}, hidden_channels: {}'.format(self. input_channels, self.hidden_channels) def forward(self, input_0, input_1): primals_1 = self.W_r.weight primals_3 = self.W_z.weight primals_6 = self.W_h.weight primals_7 = self.U_r.weight primals_4 = self.U_r.bias primals_9 = self.U_z.weight primals_8 = self.U_z.bias primals_10 = self.U_h.weight primals_11 = self.U_h.bias primals_2 = 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, primals_10, primals_11]) return output[0]	MLforHealth/state_representations_for_RLinHealth	_GRU_ODE	false	8,516	[ "MIT" ]	24	aa8dbb7d56caa95bf4380e3e745e134996291b66	https://github.com/MLforHealth/state_representations_for_RLinHealth/tree/aa8dbb7d56caa95bf4380e3e745e134996291b66
L2Conv2D	# 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/2w/c2w7caldjbhxdyt4awtnxgajjqz3xlyltt7dulaxn4gukxl3k6hm.py # Topologically Sorted Source Nodes: [ones, pow_1, xs_squared_l2], Original ATen: [aten.ones_like, aten.pow, aten.convolution] # Source node to ATen node mapping: # ones => full_default # pow_1 => pow_1 # xs_squared_l2 => convolution # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 4, 4, 4], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%primals_2, 2), kwargs = {}) # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%pow_1, %full_default, None, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_ones_like_pow_0 = async_compile.triton('triton_poi_fused_convolution_ones_like_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_convolution_ones_like_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_convolution_ones_like_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 tl.store(out_ptr0 + (x0), tmp1, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/p2/cp2xkbpgmauntg7wm3tteypd4dt6x4njfosymwg56x454kixurru.py # Topologically Sorted Source Nodes: [ones, pow_1, xs_squared_l2], Original ATen: [aten.ones_like, aten.pow, aten.convolution] # Source node to ATen node mapping: # ones => full_default # pow_1 => pow_1 # xs_squared_l2 => convolution # Graph fragment: # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 4, 4, 4], 1), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%primals_2, 2), kwargs = {}) # %convolution : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%pow_1, %full_default, None, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_ones_like_pow_1 = async_compile.triton('triton_poi_fused_convolution_ones_like_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: '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_ones_like_pow_1', '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_convolution_ones_like_pow_1(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 = 1.0 tl.store(out_ptr0 + (x0), tmp0, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/u7/cu7jzanj5fbplxdeuhksde6vjwnksapgp4mgamisscev46z3wmb4.py # Topologically Sorted Source Nodes: [pow_2, ps_squared_l2], Original ATen: [aten.pow, aten.sum] # Source node to ATen node mapping: # pow_2 => pow_2 # ps_squared_l2 => sum_1 # Graph fragment: # %pow_2 : [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_2, [1, 2, 3]), kwargs = {}) triton_per_fused_pow_sum_2 = async_compile.triton('triton_per_fused_pow_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, 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': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 3), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_pow_sum_2', '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_pow_sum_2(in_ptr0, out_ptr0, xnumel, rnumel, XBLOCK : tl.constexpr): xnumel = 4 rnumel = 64 RBLOCK: tl.constexpr = 64 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 + (64x0)), xmask, other=0.0) tmp1 = tmp0 tmp0 tmp2 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp4 = tl.where(xmask, tmp2, 0) tmp5 = tl.sum(tmp4, 1)[:, None] tl.store(out_ptr0 + (x0), tmp5, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/3u/c3ueptnlljwiig3ugzrog7dqdn2cq47dayipvhktx7ql33ubhl2b.py # Topologically Sorted Source Nodes: [add, mul, distance, abs_1, add_1, distance_1, isnan, any_1], Original ATen: [aten.add, aten.mul, aten.sub, aten.abs, aten.sqrt, aten.isnan, aten.any, aten.sgn] # Source node to ATen node mapping: # abs_1 => abs_1 # add => add # add_1 => add_1 # any_1 => any_1 # distance => sub # distance_1 => sqrt # isnan => isnan # mul => mul # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution, %view), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution_1, 2), kwargs = {}) # %sub : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add, %mul), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%abs_1, 1e-14), kwargs = {}) # %sqrt : [num_users=2] = call_function[target=torch.ops.aten.sqrt.default](args = (%add_1,), kwargs = {}) # %isnan : [num_users=1] = call_function[target=torch.ops.aten.isnan.default](args = (%sqrt,), kwargs = {}) # %any_1 : [num_users=1] = call_function[target=torch.ops.aten.any.default](args = (%isnan,), kwargs = {}) # %sign : [num_users=1] = call_function[target=torch.ops.aten.sign.default](args = (%sub,), kwargs = {}) triton_per_fused_abs_add_any_isnan_mul_sgn_sqrt_sub_3 = async_compile.triton('triton_per_fused_abs_add_any_isnan_mul_sgn_sqrt_sub_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=[1, 16], reduction_hint=ReductionHint.INNER, filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'fp32', 3: 'fp32', 4: 'fp32', 5: 'i1', 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': {6: 1}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5, 7), equal_to_1=(6,))]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_abs_add_any_isnan_mul_sgn_sqrt_sub_3', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 3, '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_any_isnan_mul_sgn_sqrt_sub_3(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, out_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) r2 = rindex r0 = rindex % 4 tmp0 = tl.load(in_ptr0 + (r2), None) tmp1 = tl.load(in_ptr1 + (r0), None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (r2), None) tmp2 = tmp0 + tmp1 tmp4 = 2.0 tmp5 = tmp3 * tmp4 tmp6 = tmp2 - tmp5 tmp7 = tl_math.abs(tmp6) tmp8 = 1e-14 tmp9 = tmp7 + tmp8 tmp10 = libdevice.sqrt(tmp9) tmp11 = tl.full([1, 1], 0, tl.int32) tmp12 = tmp11 < tmp6 tmp13 = tmp12.to(tl.int8) tmp14 = tmp6 < tmp11 tmp15 = tmp14.to(tl.int8) tmp16 = tmp13 - tmp15 tmp17 = tmp16.to(tmp6.dtype) tmp18 = libdevice.isnan(tmp10).to(tl.int1) tmp19 = tl.broadcast_to(tmp18, [XBLOCK, RBLOCK]) tmp21 = triton_helpers.any(tmp19, 1)[:, None] tl.store(out_ptr0 + (tl.broadcast_to(r2, [XBLOCK, RBLOCK])), tmp10, None) tl.store(out_ptr1 + (tl.broadcast_to(r2, [XBLOCK, RBLOCK])), tmp17, None) tl.store(out_ptr2 + (tl.full([XBLOCK, 1], 0, tl.int32)), tmp21, None) ''', 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, 4), (64, 16, 4, 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: [ones, pow_1, xs_squared_l2], Original ATen: [aten.ones_like, aten.pow, aten.convolution] stream0 = get_raw_stream(0) triton_poi_fused_convolution_ones_like_pow_0.run(primals_2, 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: [ones, pow_1, xs_squared_l2], Original ATen: [aten.ones_like, aten.pow, aten.convolution] triton_poi_fused_convolution_ones_like_pow_1.run(buf1, 256, grid=grid(256), stream=stream0) # Topologically Sorted Source Nodes: [ones, pow_1, xs_squared_l2], Original ATen: [aten.ones_like, aten.pow, aten.convolution] buf2 = extern_kernels.convolution(buf0, buf1, 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)) del buf0 del buf1 buf3 = empty_strided_cuda((4, ), (1, ), torch.float32) # Topologically Sorted Source Nodes: [pow_2, ps_squared_l2], Original ATen: [aten.pow, aten.sum] triton_per_fused_pow_sum_2.run(primals_1, buf3, 4, 64, grid=grid(4), stream=stream0) # Topologically Sorted Source Nodes: [xs_conv], Original ATen: [aten.convolution] buf4 = 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(buf4, (4, 4, 1, 1), (4, 1, 1, 1)) buf5 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) buf7 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) buf6 = empty_strided_cuda((), (), torch.bool) # Topologically Sorted Source Nodes: [add, mul, distance, abs_1, add_1, distance_1, isnan, any_1], Original ATen: [aten.add, aten.mul, aten.sub, aten.abs, aten.sqrt, aten.isnan, aten.any, aten.sgn] triton_per_fused_abs_add_any_isnan_mul_sgn_sqrt_sub_3.run(buf2, buf3, buf4, buf5, buf7, buf6, 1, 16, grid=grid(1), stream=stream0) del buf2 del buf3 del buf4 return (buf5, buf6, primals_1, primals_2, buf5, buf7, ) 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) 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.nn.functional as F import torch.optim import torch.utils.data class L2Conv2D(nn.Module): """ Convolutional layer that computes the squared L2 distance instead of the conventional inner product. """ def __init__(self, num_prototypes, num_features, w_1, h_1): """ Create a new L2Conv2D layer :param num_prototypes: The number of prototypes in the layer :param num_features: The number of channels in the input features :param w_1: Width of the prototypes :param h_1: Height of the prototypes """ super().__init__() prototype_shape = num_prototypes, num_features, w_1, h_1 self.prototype_vectors = nn.Parameter(torch.randn(prototype_shape), requires_grad=True) def forward(self, xs): """ Perform convolution over the input using the squared L2 distance for all prototypes in the layer :param xs: A batch of input images obtained as output from some convolutional neural network F. Following the notation from the paper, let the shape of xs be (batch_size, D, W, H), where - D is the number of output channels of the conv net F - W is the width of the convolutional output of F - H is the height of the convolutional output of F :return: a tensor of shape (batch_size, num_prototypes, W, H) obtained from computing the squared L2 distances for patches of the input using all prototypes """ ones = torch.ones_like(self.prototype_vectors, device=xs.device) xs_squared_l2 = F.conv2d(xs 2, weight=ones) ps_squared_l2 = torch.sum(self.prototype_vectors 2, dim=(1, 2, 3)) ps_squared_l2 = ps_squared_l2.view(-1, 1, 1) xs_conv = F.conv2d(xs, weight=self.prototype_vectors) distance = xs_squared_l2 + ps_squared_l2 - 2 * xs_conv distance = torch.sqrt(torch.abs(distance) + 1e-14) if torch.isnan(distance).any(): raise Exception( 'Error: NaN values! Using the --log_probabilities flag might fix this issue' ) return distance def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'num_prototypes': 4, 'num_features': 4, 'w_1': 4, 'h_1': 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.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_convolution_ones_like_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 tl.store(out_ptr0 + x0, tmp1, xmask) @triton.jit def triton_poi_fused_convolution_ones_like_pow_1(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 = 1.0 tl.store(out_ptr0 + x0, tmp0, xmask) @triton.jit def triton_per_fused_pow_sum_2(in_ptr0, out_ptr0, xnumel, rnumel, XBLOCK: tl.constexpr): xnumel = 4 RBLOCK: tl.constexpr = 64 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 + 64 * x0), xmask, other=0.0) tmp1 = tmp0 * tmp0 tmp2 = tl.broadcast_to(tmp1, [XBLOCK, RBLOCK]) tmp4 = tl.where(xmask, tmp2, 0) tmp5 = tl.sum(tmp4, 1)[:, None] tl.store(out_ptr0 + x0, tmp5, xmask) @triton.jit def triton_per_fused_abs_add_any_isnan_mul_sgn_sqrt_sub_3(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, out_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) r2 = rindex r0 = rindex % 4 tmp0 = tl.load(in_ptr0 + r2, None) tmp1 = tl.load(in_ptr1 + r0, None, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + r2, None) tmp2 = tmp0 + tmp1 tmp4 = 2.0 tmp5 = tmp3 * tmp4 tmp6 = tmp2 - tmp5 tmp7 = tl_math.abs(tmp6) tmp8 = 1e-14 tmp9 = tmp7 + tmp8 tmp10 = libdevice.sqrt(tmp9) tmp11 = tl.full([1, 1], 0, tl.int32) tmp12 = tmp11 < tmp6 tmp13 = tmp12.to(tl.int8) tmp14 = tmp6 < tmp11 tmp15 = tmp14.to(tl.int8) tmp16 = tmp13 - tmp15 tmp17 = tmp16.to(tmp6.dtype) tmp18 = libdevice.isnan(tmp10).to(tl.int1) tmp19 = tl.broadcast_to(tmp18, [XBLOCK, RBLOCK]) tmp21 = triton_helpers.any(tmp19, 1)[:, None] tl.store(out_ptr0 + tl.broadcast_to(r2, [XBLOCK, RBLOCK]), tmp10, None) tl.store(out_ptr1 + tl.broadcast_to(r2, [XBLOCK, RBLOCK]), tmp17, None) tl.store(out_ptr2 + tl.full([XBLOCK, 1], 0, tl.int32), tmp21, None) def call(args): primals_1, primals_2 = 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)) 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_convolution_ones_like_pow_0[grid(256)](primals_2, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) buf1 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_convolution_ones_like_pow_1[grid(256)](buf1, 256, XBLOCK=256, num_warps=4, num_stages=1) buf2 = extern_kernels.convolution(buf0, buf1, 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)) del buf0 del buf1 buf3 = empty_strided_cuda((4,), (1,), torch.float32) triton_per_fused_pow_sum_2[grid(4)](primals_1, buf3, 4, 64, XBLOCK= 1, num_warps=2, num_stages=1) buf4 = 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(buf4, (4, 4, 1, 1), (4, 1, 1, 1)) buf5 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) buf7 = empty_strided_cuda((4, 4, 1, 1), (4, 1, 1, 1), torch.float32) buf6 = empty_strided_cuda((), (), torch.bool) triton_per_fused_abs_add_any_isnan_mul_sgn_sqrt_sub_3[grid(1)](buf2, buf3, buf4, buf5, buf7, buf6, 1, 16, XBLOCK=1, num_warps=2, num_stages=1) del buf2 del buf3 del buf4 return buf5, buf6, primals_1, primals_2, buf5, buf7 class L2Conv2DNew(nn.Module): """ Convolutional layer that computes the squared L2 distance instead of the conventional inner product. """ def __init__(self, num_prototypes, num_features, w_1, h_1): """ Create a new L2Conv2D layer :param num_prototypes: The number of prototypes in the layer :param num_features: The number of channels in the input features :param w_1: Width of the prototypes :param h_1: Height of the prototypes """ super().__init__() prototype_shape = num_prototypes, num_features, w_1, h_1 self.prototype_vectors = nn.Parameter(torch.randn(prototype_shape), requires_grad=True) def forward(self, input_0): primals_1 = self.prototype_vectors primals_2 = input_0 output = call([primals_1, primals_2]) return output[0]	M-Nauta/ProtoTree	L2Conv2D	false	8,517	[ "MIT" ]	35	72cad5e42b0eb05c1312e5496f36b842726e081a	https://github.com/M-Nauta/ProtoTree/tree/72cad5e42b0eb05c1312e5496f36b842726e081a
Encoder	# 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: [hidden], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # hidden => 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') 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 buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [hidden], 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: [z_mu], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [z_var], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_7 return (reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(buf3, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), primals_6, 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) 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 import torch.utils.data from torch import nn from torch.nn import functional class Encoder(nn.Module): def __init__(self, input_dim, hidden_dim, z_dim): """ Args: input_dim: A integer indicating the size of input. hidden_dim: A integer indicating the size of hidden dimension. z_dim: A integer indicating the latent dimension. """ super().__init__() self.linear = nn.Linear(input_dim, hidden_dim) self.mu = nn.Linear(hidden_dim, z_dim) self.var = nn.Linear(hidden_dim, z_dim) def forward(self, x): hidden = functional.relu(self.linear(x)) z_mu = self.mu(hidden) z_var = self.var(hidden) return z_mu, z_var def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_dim': 4, 'hidden_dim': 4, 'z_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 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_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) 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 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.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 buf3 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_7, reinterpret_tensor(buf1, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_7 return reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(buf3, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 4), (4, 1), 0 ), primals_6, primals_4, buf4 class EncoderNew(nn.Module): def __init__(self, input_dim, hidden_dim, z_dim): """ Args: input_dim: A integer indicating the size of input. hidden_dim: A integer indicating the size of hidden dimension. z_dim: A integer indicating the latent dimension. """ super().__init__() self.linear = nn.Linear(input_dim, hidden_dim) self.mu = nn.Linear(hidden_dim, z_dim) self.var = nn.Linear(hidden_dim, z_dim) def forward(self, input_0): primals_1 = self.linear.weight primals_2 = self.linear.bias primals_4 = self.mu.weight primals_5 = self.mu.bias primals_6 = self.var.weight primals_7 = self.var.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0], output[1]	MaurizioFD/recsys-challenge-2020-twitter	Encoder	false	8,518	[ "Apache-2.0" ]	44	95dc024fb4f8777aa62e1304536daece640428de	https://github.com/MaurizioFD/recsys-challenge-2020-twitter/tree/95dc024fb4f8777aa62e1304536daece640428de
BasicBlock	# 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/l7/cl7yxfbt4ykiq5jvwa5z2y7sq5svbia3hxdlhmplibtjjkzvzuil.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # out => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%squeeze,), kwargs = {}) # %le_1 : [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=[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_relu_threshold_backward_0', '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_relu_threshold_backward_0(in_out_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_out_ptr0 + (x0), xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp3 = 0.0 tmp4 = tmp2 <= tmp3 tl.store(in_out_ptr0 + (x0), tmp2, xmask) tl.store(out_ptr0 + (x0), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/5x/c5xvbbrbrcgfjcyatbfkvnueua5ae2wvjxm5atfvp25dbd2xeb7g.py # Topologically Sorted Source Nodes: [out_3], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # out_3 => relu_1 # Graph fragment: # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%squeeze_2,), 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=[16], 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 = 16 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 tmp3 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tmp5 = 0.0 tmp6 = tmp4 <= tmp5 tl.store(in_out_ptr0 + (x0), tmp4, xmask) tl.store(out_ptr0 + (x0), tmp6, 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, 3), (12, 3, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4, 3), (12, 3, 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_2, (1, 4, 4), (16, 4, 1), 0), primals_1, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf0, (1, 4, 4), (16, 4, 1)) buf1 = reinterpret_tensor(buf0, (4, 4), (4, 1), 0); del buf0 # reuse buf5 = empty_strided_cuda((4, 4), (4, 1), torch.bool) # Topologically Sorted Source Nodes: [out], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, buf5, 16, grid=grid(16), stream=stream0) # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(reinterpret_tensor(buf1, (1, 4, 4), (0, 4, 1), 0), primals_3, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf2, (1, 4, 4), (16, 4, 1)) buf3 = reinterpret_tensor(buf2, (4, 4), (4, 1), 0); del buf2 # reuse buf4 = empty_strided_cuda((4, 4), (4, 1), torch.bool) # Topologically Sorted Source Nodes: [out_3], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_1.run(buf3, primals_2, buf4, 16, grid=grid(16), stream=stream0) return (buf3, primals_1, primals_3, reinterpret_tensor(primals_2, (1, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf1, (1, 4, 4), (16, 4, 1), 0), buf4, 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, 3), (12, 3, 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, 3), (12, 3, 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 BasicBlock(nn.Module): """Basic residual block class""" expansion = 1 def __init__(self, in_planes, planes, stride=1): super(BasicBlock, self).__init__() self.conv1 = nn.Conv1d(in_planes, planes, kernel_size=3, stride= stride, padding=1, bias=False) self.conv2 = nn.Conv1d(planes, planes, kernel_size=3, stride=1, padding=1, bias=False) self.shortcut = nn.Sequential() if stride != 1 or in_planes != self.expansion * planes: self.shortcut = nn.Sequential(nn.Conv1d(in_planes, self. expansion * planes, kernel_size=1, stride=stride, bias=False)) def forward(self, x): out = F.relu(self.conv1(x)) out = self.conv2(out) out += self.shortcut(x) out = F.relu(out) return out def get_inputs(): return [torch.rand([4, 4])] def get_init_inputs(): return [[], {'in_planes': 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 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, 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_out_ptr0 + x0, xmask) tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tmp3 = 0.0 tmp4 = tmp2 <= tmp3 tl.store(in_out_ptr0 + x0, tmp2, xmask) tl.store(out_ptr0 + x0, tmp4, xmask) @triton.jit def triton_poi_fused_relu_threshold_backward_1(in_out_ptr0, 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_out_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask) 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 + x0, tmp4, xmask) tl.store(out_ptr0 + x0, tmp6, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 3), (12, 3, 1)) assert_size_stride(primals_2, (4, 4), (4, 1)) assert_size_stride(primals_3, (4, 4, 3), (12, 3, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(reinterpret_tensor(primals_2, (1, 4, 4), (16, 4, 1), 0), primals_1, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf0, (1, 4, 4), (16, 4, 1)) buf1 = reinterpret_tensor(buf0, (4, 4), (4, 1), 0) del buf0 buf5 = empty_strided_cuda((4, 4), (4, 1), torch.bool) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(16)](buf1, buf5, 16, XBLOCK=16, num_warps=1, num_stages=1) buf2 = extern_kernels.convolution(reinterpret_tensor(buf1, (1, 4, 4 ), (0, 4, 1), 0), primals_3, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf2, (1, 4, 4), (16, 4, 1)) buf3 = reinterpret_tensor(buf2, (4, 4), (4, 1), 0) del buf2 buf4 = empty_strided_cuda((4, 4), (4, 1), torch.bool) triton_poi_fused_relu_threshold_backward_1[grid(16)](buf3, primals_2, buf4, 16, XBLOCK=16, num_warps=1, num_stages=1) return buf3, primals_1, primals_3, reinterpret_tensor(primals_2, (1, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf1, (1, 4, 4), (16, 4, 1), 0 ), buf4, buf5 class BasicBlockNew(nn.Module): """Basic residual block class""" expansion = 1 def __init__(self, in_planes, planes, stride=1): super(BasicBlockNew, self).__init__() self.conv1 = nn.Conv1d(in_planes, planes, kernel_size=3, stride= stride, padding=1, bias=False) self.conv2 = nn.Conv1d(planes, planes, kernel_size=3, stride=1, padding=1, bias=False) self.shortcut = nn.Sequential() if stride != 1 or in_planes != self.expansion * planes: self.shortcut = nn.Sequential(nn.Conv1d(in_planes, self. expansion * planes, kernel_size=1, stride=stride, bias=False)) def forward(self, input_0): primals_1 = self.conv1.weight primals_3 = self.conv2.weight primals_2 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	Maosef/easy-to-hard	BasicBlock	false	8,519	[ "MIT" ]	44	711ec0965229444a6c51b1b06a4e2cad3e32d02e	https://github.com/Maosef/easy-to-hard/tree/711ec0965229444a6c51b1b06a4e2cad3e32d02e
FC_Q	# 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: [q], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # q => 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=[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/i3/ci3427gcebth2tbb4zeob3pped7beygndf4zujgcefrg2q6nfbd7.py # Topologically Sorted Source Nodes: [i_2], Original ATen: [aten.relu] # Source node to ATen node mapping: # i_2 => relu_4 # Graph fragment: # %relu_4 : [num_users=4] = call_function[target=torch.ops.aten.relu.default](args = (%view_9,), 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=[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_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 = 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) tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ca/ccaq6mtax7lpinscyguigp5vxmaxypnyz4m5z3h7fxitlrigiqx6.py # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax, aten.threshold_backward] # Source node to ATen node mapping: # log_softmax => amax, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%relu_4, [1], True), kwargs = {}) # %sub : [num_users=2] = call_function[target=torch.ops.aten.sub.Tensor](args = (%relu_4, %amax), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_4, 0), kwargs = {}) triton_poi_fused__log_softmax_threshold_backward_2 = async_compile.triton('triton_poi_fused__log_softmax_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=[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__log_softmax_threshold_backward_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__log_softmax_threshold_backward_2(in_ptr0, out_ptr0, out_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 % 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 = 0.0 tmp10 = tmp0 <= tmp9 tl.store(out_ptr0 + (x3), tmp8, xmask) tl.store(out_ptr1 + (x3), tmp10, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/n5/cn57rxzgf7khvz5a74w5kxnvsnbyovaovdvlhp4j6czjd6qwtwtv.py # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax] # Source node to ATen node mapping: # log_softmax => 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_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=[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__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 = 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 = 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, primals_10, primals_11, primals_12, primals_13 = 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, (128, 128), (128, 1)) assert_size_stride(primals_5, (128, ), (1, )) assert_size_stride(primals_6, (128, 4), (4, 1)) assert_size_stride(primals_7, (128, ), (1, )) assert_size_stride(primals_8, (128, 128), (128, 1)) assert_size_stride(primals_9, (128, ), (1, )) assert_size_stride(primals_10, (4, 128), (128, 1)) assert_size_stride(primals_11, (4, ), (1, )) assert_size_stride(primals_12, (4, 128), (128, 1)) assert_size_stride(primals_13, (4, ), (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 buf17 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) # Topologically Sorted Source Nodes: [q], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_2, buf17, 8192, grid=grid(8192), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 128), (128, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (64, 128), (128, 1), 0), reinterpret_tensor(primals_4, (128, 128), (1, 128), 0), out=buf2) buf3 = 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_6, (4, 128), (1, 4), 0), out=buf3) del primals_6 buf4 = reinterpret_tensor(buf3, (4, 4, 4, 128), (2048, 512, 128, 1), 0); del buf3 # reuse buf15 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) # Topologically Sorted Source Nodes: [i], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_0.run(buf4, primals_7, buf15, 8192, grid=grid(8192), stream=stream0) del primals_7 buf5 = empty_strided_cuda((64, 128), (128, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf4, (64, 128), (128, 1), 0), reinterpret_tensor(primals_8, (128, 128), (1, 128), 0), out=buf5) buf6 = reinterpret_tensor(buf5, (4, 4, 4, 128), (2048, 512, 128, 1), 0); del buf5 # reuse buf14 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) # Topologically Sorted Source Nodes: [i_1], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_0.run(buf6, primals_9, buf14, 8192, grid=grid(8192), stream=stream0) del primals_9 buf7 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf6, (64, 128), (128, 1), 0), reinterpret_tensor(primals_10, (128, 4), (1, 128), 0), out=buf7) buf8 = reinterpret_tensor(buf7, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf7 # reuse # Topologically Sorted Source Nodes: [i_2], Original ATen: [aten.relu] triton_poi_fused_relu_1.run(buf8, primals_11, 256, grid=grid(256), stream=stream0) del primals_11 buf9 = reinterpret_tensor(buf2, (4, 4, 4, 128), (2048, 512, 128, 1), 0); del buf2 # reuse buf16 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) # Topologically Sorted Source Nodes: [q_1], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_0.run(buf9, primals_5, buf16, 8192, grid=grid(8192), stream=stream0) del primals_5 buf10 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_5], Original ATen: [aten.addmm] extern_kernels.addmm(primals_13, reinterpret_tensor(buf9, (64, 128), (128, 1), 0), reinterpret_tensor(primals_12, (128, 4), (1, 128), 0), alpha=1, beta=1, out=buf10) del primals_13 buf11 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf13 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax, aten.threshold_backward] triton_poi_fused__log_softmax_threshold_backward_2.run(buf8, buf11, buf13, 256, grid=grid(256), stream=stream0) buf12 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [log_softmax], Original ATen: [aten._log_softmax] triton_poi_fused__log_softmax_3.run(buf11, buf12, 256, grid=grid(256), stream=stream0) del buf11 return (reinterpret_tensor(buf10, (4, 4, 4, 4), (64, 16, 4, 1), 0), buf12, buf8, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 128), (128, 1), 0), reinterpret_tensor(buf4, (64, 128), (128, 1), 0), reinterpret_tensor(buf6, (64, 128), (128, 1), 0), reinterpret_tensor(buf9, (64, 128), (128, 1), 0), buf12, primals_12, buf13, primals_10, buf14, primals_8, buf15, buf16, primals_4, 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((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((128, 128), (128, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((128, 4), (4, 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), (128, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, 128), (128, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((4, 128), (128, 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 import torch.nn.functional as F class FC_Q(nn.Module): def __init__(self, state_dim, num_actions, num_nodes=128): super(FC_Q, self).__init__() self.q1 = nn.Linear(state_dim, num_nodes) self.q2 = nn.Linear(num_nodes, num_nodes) self.q3 = nn.Linear(num_nodes, num_actions) self.i1 = nn.Linear(state_dim, num_nodes) self.i2 = nn.Linear(num_nodes, num_nodes) self.i3 = nn.Linear(num_nodes, num_actions) def forward(self, state): q = F.relu(self.q1(state)) q = F.relu(self.q2(q)) i = F.relu(self.i1(state)) i = F.relu(self.i2(i)) i = F.relu(self.i3(i)) return self.q3(q), F.log_softmax(i, dim=1), i def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'state_dim': 4, 'num_actions': 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 % 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_relu_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 = tl.full([1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(in_out_ptr0 + x2, tmp4, xmask) @triton.jit def triton_poi_fused__log_softmax_threshold_backward_2(in_ptr0, out_ptr0, out_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 % 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 = 0.0 tmp10 = tmp0 <= tmp9 tl.store(out_ptr0 + x3, tmp8, xmask) tl.store(out_ptr1 + x3, tmp10, xmask) @triton.jit def triton_poi_fused__log_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 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 = 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, primals_10, primals_11, primals_12, primals_13) = 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, (128, 128), (128, 1)) assert_size_stride(primals_5, (128,), (1,)) assert_size_stride(primals_6, (128, 4), (4, 1)) assert_size_stride(primals_7, (128,), (1,)) assert_size_stride(primals_8, (128, 128), (128, 1)) assert_size_stride(primals_9, (128,), (1,)) assert_size_stride(primals_10, (4, 128), (128, 1)) assert_size_stride(primals_11, (4,), (1,)) assert_size_stride(primals_12, (4, 128), (128, 1)) assert_size_stride(primals_13, (4,), (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 buf17 = 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, buf17, 8192, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 128), (128, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 128), (128, 1), 0), reinterpret_tensor(primals_4, (128, 128), (1, 128), 0), out=buf2) buf3 = empty_strided_cuda((64, 128), (128, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 128), (1, 4), 0), out=buf3) del primals_6 buf4 = reinterpret_tensor(buf3, (4, 4, 4, 128), (2048, 512, 128, 1), 0) del buf3 buf15 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) triton_poi_fused_relu_threshold_backward_0[grid(8192)](buf4, primals_7, buf15, 8192, XBLOCK=128, num_warps=4, num_stages=1) del primals_7 buf5 = empty_strided_cuda((64, 128), (128, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf4, (64, 128), (128, 1), 0), reinterpret_tensor(primals_8, (128, 128), (1, 128), 0), out=buf5) buf6 = reinterpret_tensor(buf5, (4, 4, 4, 128), (2048, 512, 128, 1), 0) del buf5 buf14 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) triton_poi_fused_relu_threshold_backward_0[grid(8192)](buf6, primals_9, buf14, 8192, XBLOCK=128, num_warps=4, num_stages=1) del primals_9 buf7 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf6, (64, 128), (128, 1), 0), reinterpret_tensor(primals_10, (128, 4), (1, 128), 0), out=buf7) buf8 = reinterpret_tensor(buf7, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf7 triton_poi_fused_relu_1[grid(256)](buf8, primals_11, 256, XBLOCK= 128, num_warps=4, num_stages=1) del primals_11 buf9 = reinterpret_tensor(buf2, (4, 4, 4, 128), (2048, 512, 128, 1), 0) del buf2 buf16 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) triton_poi_fused_relu_threshold_backward_0[grid(8192)](buf9, primals_5, buf16, 8192, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf10 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_13, reinterpret_tensor(buf9, (64, 128), (128, 1), 0), reinterpret_tensor(primals_12, (128, 4), (1, 128), 0), alpha=1, beta=1, out=buf10) del primals_13 buf11 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) buf13 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused__log_softmax_threshold_backward_2[grid(256)](buf8, buf11, buf13, 256, XBLOCK=128, num_warps=4, num_stages=1) buf12 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused__log_softmax_3[grid(256)](buf11, buf12, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf11 return (reinterpret_tensor(buf10, (4, 4, 4, 4), (64, 16, 4, 1), 0), buf12, buf8, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 128), (128, 1), 0), reinterpret_tensor(buf4, (64, 128), (128, 1), 0), reinterpret_tensor(buf6, (64, 128), (128, 1), 0), reinterpret_tensor(buf9, (64, 128), (128, 1), 0), buf12, primals_12, buf13, primals_10, buf14, primals_8, buf15, buf16, primals_4, buf17) class FC_QNew(nn.Module): def __init__(self, state_dim, num_actions, num_nodes=128): super(FC_QNew, self).__init__() self.q1 = nn.Linear(state_dim, num_nodes) self.q2 = nn.Linear(num_nodes, num_nodes) self.q3 = nn.Linear(num_nodes, num_actions) self.i1 = nn.Linear(state_dim, num_nodes) self.i2 = nn.Linear(num_nodes, num_nodes) self.i3 = nn.Linear(num_nodes, num_actions) def forward(self, input_0): primals_1 = self.q1.weight primals_2 = self.q1.bias primals_4 = self.q2.weight primals_5 = self.q2.bias primals_10 = self.q3.weight primals_11 = self.q3.bias primals_6 = self.i1.weight primals_7 = self.i1.bias primals_8 = self.i2.weight primals_9 = self.i2.bias primals_12 = self.i3.weight primals_13 = self.i3.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], output[1], output[2]	MLforHealth/state_representations_for_RLinHealth	FC_Q	false	8,520	[ "MIT" ]	24	aa8dbb7d56caa95bf4380e3e745e134996291b66	https://github.com/MLforHealth/state_representations_for_RLinHealth/tree/aa8dbb7d56caa95bf4380e3e745e134996291b66
gem	# 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/gs/cgs6cb3wyd5yabtli4euefdrxsyuiyv4qsv62zyymtdob4ecouxa.py # Topologically Sorted Source Nodes: [clamp, pow_1, avg_pool2d, pow_2], Original ATen: [aten.clamp, aten.pow, aten.avg_pool2d] # Source node to ATen node mapping: # avg_pool2d => avg_pool2d # clamp => clamp_min # pow_1 => pow_1 # pow_2 => pow_2 # Graph fragment: # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%arg0_1, 1e-06), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%clamp_min, 3.0), kwargs = {}) # %avg_pool2d : [num_users=1] = call_function[target=torch.ops.aten.avg_pool2d.default](args = (%pow_1, [4, 4]), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%avg_pool2d, 0.3333333333333333), kwargs = {}) triton_poi_fused_avg_pool2d_clamp_pow_0 = async_compile.triton('triton_poi_fused_avg_pool2d_clamp_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=[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_clamp_pow_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_avg_pool2d_clamp_pow_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 tmp0 = tl.load(in_ptr0 + (16x0), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (1 + (16x0)), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr0 + (2 + (16x0)), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr0 + (3 + (16x0)), xmask, eviction_policy='evict_last') tmp20 = tl.load(in_ptr0 + (4 + (16x0)), xmask, eviction_policy='evict_last') tmp25 = tl.load(in_ptr0 + (5 + (16x0)), xmask, eviction_policy='evict_last') tmp30 = tl.load(in_ptr0 + (6 + (16x0)), xmask, eviction_policy='evict_last') tmp35 = tl.load(in_ptr0 + (7 + (16x0)), xmask, eviction_policy='evict_last') tmp40 = tl.load(in_ptr0 + (8 + (16x0)), xmask, eviction_policy='evict_last') tmp45 = tl.load(in_ptr0 + (9 + (16x0)), xmask, eviction_policy='evict_last') tmp50 = tl.load(in_ptr0 + (10 + (16x0)), xmask, eviction_policy='evict_last') tmp55 = tl.load(in_ptr0 + (11 + (16x0)), xmask, eviction_policy='evict_last') tmp60 = tl.load(in_ptr0 + (12 + (16x0)), xmask, eviction_policy='evict_last') tmp65 = tl.load(in_ptr0 + (13 + (16x0)), xmask, eviction_policy='evict_last') tmp70 = tl.load(in_ptr0 + (14 + (16x0)), xmask, eviction_policy='evict_last') tmp75 = tl.load(in_ptr0 + (15 + (16x0)), xmask, eviction_policy='evict_last') tmp1 = 1e-06 tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp3 = tmp2 * tmp2 tmp4 = tmp3 * tmp2 tmp6 = triton_helpers.maximum(tmp5, tmp1) tmp7 = tmp6 * tmp6 tmp8 = tmp7 * tmp6 tmp9 = tmp8 + tmp4 tmp11 = triton_helpers.maximum(tmp10, tmp1) tmp12 = tmp11 * tmp11 tmp13 = tmp12 * tmp11 tmp14 = tmp13 + tmp9 tmp16 = triton_helpers.maximum(tmp15, tmp1) tmp17 = tmp16 * tmp16 tmp18 = tmp17 * tmp16 tmp19 = tmp18 + tmp14 tmp21 = triton_helpers.maximum(tmp20, tmp1) tmp22 = tmp21 * tmp21 tmp23 = tmp22 * tmp21 tmp24 = tmp23 + tmp19 tmp26 = triton_helpers.maximum(tmp25, tmp1) tmp27 = tmp26 * tmp26 tmp28 = tmp27 * tmp26 tmp29 = tmp28 + tmp24 tmp31 = triton_helpers.maximum(tmp30, tmp1) tmp32 = tmp31 * tmp31 tmp33 = tmp32 * tmp31 tmp34 = tmp33 + tmp29 tmp36 = triton_helpers.maximum(tmp35, tmp1) tmp37 = tmp36 * tmp36 tmp38 = tmp37 * tmp36 tmp39 = tmp38 + tmp34 tmp41 = triton_helpers.maximum(tmp40, tmp1) tmp42 = tmp41 * tmp41 tmp43 = tmp42 * tmp41 tmp44 = tmp43 + tmp39 tmp46 = triton_helpers.maximum(tmp45, tmp1) tmp47 = tmp46 * tmp46 tmp48 = tmp47 * tmp46 tmp49 = tmp48 + tmp44 tmp51 = triton_helpers.maximum(tmp50, tmp1) tmp52 = tmp51 * tmp51 tmp53 = tmp52 * tmp51 tmp54 = tmp53 + tmp49 tmp56 = triton_helpers.maximum(tmp55, tmp1) tmp57 = tmp56 * tmp56 tmp58 = tmp57 * tmp56 tmp59 = tmp58 + tmp54 tmp61 = triton_helpers.maximum(tmp60, tmp1) tmp62 = tmp61 * tmp61 tmp63 = tmp62 * tmp61 tmp64 = tmp63 + tmp59 tmp66 = triton_helpers.maximum(tmp65, tmp1) tmp67 = tmp66 * tmp66 tmp68 = tmp67 * tmp66 tmp69 = tmp68 + tmp64 tmp71 = triton_helpers.maximum(tmp70, tmp1) tmp72 = tmp71 * tmp71 tmp73 = tmp72 * tmp71 tmp74 = tmp73 + tmp69 tmp76 = triton_helpers.maximum(tmp75, tmp1) tmp77 = tmp76 * tmp76 tmp78 = tmp77 * tmp76 tmp79 = tmp78 + tmp74 tmp80 = 0.0625 tmp81 = tmp79 * tmp80 tmp82 = 0.3333333333333333 tmp83 = libdevice.pow(tmp81, tmp82) tl.store(in_out_ptr0 + (x0), tmp83, 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: [clamp, pow_1, avg_pool2d, pow_2], Original ATen: [aten.clamp, aten.pow, aten.avg_pool2d] stream0 = get_raw_stream(0) triton_poi_fused_avg_pool2d_clamp_pow_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 import torch.nn.functional as F class gem(nn.Module): def __init__(self, p=3.0, eps=1e-06): super(gem, self).__init__() self.p = p self.eps = eps def forward(self, x): return F.avg_pool2d(x.clamp(min=self.eps).pow(self.p), (x.size(-2), x.size(-1))).pow(1.0 / self.p) 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 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_avg_pool2d_clamp_pow_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 tmp0 = tl.load(in_ptr0 + 16 * x0, xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (1 + 16 * x0), xmask, eviction_policy='evict_last' ) tmp10 = tl.load(in_ptr0 + (2 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp15 = tl.load(in_ptr0 + (3 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp20 = tl.load(in_ptr0 + (4 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp25 = tl.load(in_ptr0 + (5 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp30 = tl.load(in_ptr0 + (6 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp35 = tl.load(in_ptr0 + (7 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp40 = tl.load(in_ptr0 + (8 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp45 = tl.load(in_ptr0 + (9 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp50 = tl.load(in_ptr0 + (10 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp55 = tl.load(in_ptr0 + (11 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp60 = tl.load(in_ptr0 + (12 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp65 = tl.load(in_ptr0 + (13 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp70 = tl.load(in_ptr0 + (14 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp75 = tl.load(in_ptr0 + (15 + 16 * x0), xmask, eviction_policy= 'evict_last') tmp1 = 1e-06 tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp3 = tmp2 * tmp2 tmp4 = tmp3 * tmp2 tmp6 = triton_helpers.maximum(tmp5, tmp1) tmp7 = tmp6 * tmp6 tmp8 = tmp7 * tmp6 tmp9 = tmp8 + tmp4 tmp11 = triton_helpers.maximum(tmp10, tmp1) tmp12 = tmp11 * tmp11 tmp13 = tmp12 * tmp11 tmp14 = tmp13 + tmp9 tmp16 = triton_helpers.maximum(tmp15, tmp1) tmp17 = tmp16 * tmp16 tmp18 = tmp17 * tmp16 tmp19 = tmp18 + tmp14 tmp21 = triton_helpers.maximum(tmp20, tmp1) tmp22 = tmp21 * tmp21 tmp23 = tmp22 * tmp21 tmp24 = tmp23 + tmp19 tmp26 = triton_helpers.maximum(tmp25, tmp1) tmp27 = tmp26 * tmp26 tmp28 = tmp27 * tmp26 tmp29 = tmp28 + tmp24 tmp31 = triton_helpers.maximum(tmp30, tmp1) tmp32 = tmp31 * tmp31 tmp33 = tmp32 * tmp31 tmp34 = tmp33 + tmp29 tmp36 = triton_helpers.maximum(tmp35, tmp1) tmp37 = tmp36 * tmp36 tmp38 = tmp37 * tmp36 tmp39 = tmp38 + tmp34 tmp41 = triton_helpers.maximum(tmp40, tmp1) tmp42 = tmp41 * tmp41 tmp43 = tmp42 * tmp41 tmp44 = tmp43 + tmp39 tmp46 = triton_helpers.maximum(tmp45, tmp1) tmp47 = tmp46 * tmp46 tmp48 = tmp47 * tmp46 tmp49 = tmp48 + tmp44 tmp51 = triton_helpers.maximum(tmp50, tmp1) tmp52 = tmp51 * tmp51 tmp53 = tmp52 * tmp51 tmp54 = tmp53 + tmp49 tmp56 = triton_helpers.maximum(tmp55, tmp1) tmp57 = tmp56 * tmp56 tmp58 = tmp57 * tmp56 tmp59 = tmp58 + tmp54 tmp61 = triton_helpers.maximum(tmp60, tmp1) tmp62 = tmp61 * tmp61 tmp63 = tmp62 * tmp61 tmp64 = tmp63 + tmp59 tmp66 = triton_helpers.maximum(tmp65, tmp1) tmp67 = tmp66 * tmp66 tmp68 = tmp67 * tmp66 tmp69 = tmp68 + tmp64 tmp71 = triton_helpers.maximum(tmp70, tmp1) tmp72 = tmp71 * tmp71 tmp73 = tmp72 * tmp71 tmp74 = tmp73 + tmp69 tmp76 = triton_helpers.maximum(tmp75, tmp1) tmp77 = tmp76 * tmp76 tmp78 = tmp77 * tmp76 tmp79 = tmp78 + tmp74 tmp80 = 0.0625 tmp81 = tmp79 * tmp80 tmp82 = 0.3333333333333333 tmp83 = libdevice.pow(tmp81, tmp82) tl.store(in_out_ptr0 + x0, tmp83, 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_poi_fused_avg_pool2d_clamp_pow_0[grid(16)](buf1, arg0_1, 16, XBLOCK=16, num_warps=1, num_stages=1) del arg0_1 return buf1, class gemNew(nn.Module): def __init__(self, p=3.0, eps=1e-06): super(gemNew, self).__init__() self.p = p self.eps = eps def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	MCC-WH/Token	gem	false	8,521	[ "MIT" ]	30	eadc301f2df9e1851633be1b63c273659af0da49	https://github.com/MCC-WH/Token/tree/eadc301f2df9e1851633be1b63c273659af0da49
FFNN1	# 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: [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 : [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') 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, (1, 4), (4, 1)) assert_size_stride(primals_5, (1, ), (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: [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, buf4, 256, grid=grid(256), stream=stream0) del primals_2 buf3 = empty_strided_cuda((64, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 1), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_5 return (reinterpret_tensor(buf3, (4, 4, 4, 1), (16, 4, 1, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), 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((1, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((1, ), (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.utils.data from torch import nn class FFNN1(nn.Module): def __init__(self, input_size, hidden_size, hidden_dropout_prob): super(FFNN1, self).__init__() self.input_size = input_size self.hidden_size = hidden_size self.hidden_dropout_prob = hidden_dropout_prob self.dropout = nn.Dropout(hidden_dropout_prob) self.first_layer = nn.Linear(input_size, hidden_size) self.classifier = nn.Linear(hidden_size, 1) def forward(self, x): x = self.first_layer(x) x = nn.ReLU()(x) x = self.dropout(x) x = self.classifier(x) return x def __str__(self): return f"""Input size: {self.input_size} Hidden size: {self.hidden_size} Dropout: {self.hidden_dropout_prob} Output Size: 1 """ def get_params_string(self): return ( f'{self.input_size}_{self.hidden_size}_{self.hidden_dropout_prob_1}' ) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_size': 4, 'hidden_size': 4, 'hidden_dropout_prob': 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._inductor.runtime import triton_helpers 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_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) 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, (1, 4), (4, 1)) assert_size_stride(primals_5, (1,), (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 buf3 = empty_strided_cuda((64, 1), (1, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_4, (4, 1), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_5 return reinterpret_tensor(buf3, (4, 4, 4, 1), (16, 4, 1, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), primals_4, buf4 class FFNN1New(nn.Module): def __init__(self, input_size, hidden_size, hidden_dropout_prob): super(FFNN1New, self).__init__() self.input_size = input_size self.hidden_size = hidden_size self.hidden_dropout_prob = hidden_dropout_prob self.dropout = nn.Dropout(hidden_dropout_prob) self.first_layer = nn.Linear(input_size, hidden_size) self.classifier = nn.Linear(hidden_size, 1) def __str__(self): return f"""Input size: {self.input_size} Hidden size: {self.hidden_size} Dropout: {self.hidden_dropout_prob} Output Size: 1 """ def get_params_string(self): return ( f'{self.input_size}_{self.hidden_size}_{self.hidden_dropout_prob_1}' ) def forward(self, input_0): primals_1 = self.first_layer.weight primals_2 = self.first_layer.bias primals_4 = self.classifier.weight primals_5 = self.classifier.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	MaurizioFD/recsys-challenge-2020-twitter	FFNN1	false	8,522	[ "Apache-2.0" ]	44	95dc024fb4f8777aa62e1304536daece640428de	https://github.com/MaurizioFD/recsys-challenge-2020-twitter/tree/95dc024fb4f8777aa62e1304536daece640428de
DDM_Encoder	# 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/33/c33kotsba3oidxajeetvknhwu4z4qd4dmrzmpxbqaeudrx2igwjk.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.elu] # Source node to ATen node mapping: # x => expm1, gt, mul, mul_2, where # Graph fragment: # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%view_1, 0), kwargs = {}) # %mul : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, 1.0), kwargs = {}) # %expm1 : [num_users=1] = call_function[target=torch.ops.aten.expm1.default](args = (%mul,), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expm1, 1.0), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %mul, %mul_2), kwargs = {}) triton_poi_fused_elu_0 = async_compile.triton('triton_poi_fused_elu_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_elu_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_elu_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 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 1.0 tmp4 = tmp0 * tmp3 tmp5 = libdevice.expm1(tmp4) tmp6 = tmp5 * tmp3 tmp7 = tl.where(tmp2, tmp4, tmp6) tl.store(out_ptr0 + (x0), tmp7, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/bk/cbkukn6xfczsqai5pbskhzivziibkv4kg2hh6e45ivemfwvdszm5.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.elu] # Source node to ATen node mapping: # x_1 => expm1_1, gt_1, mul_3, mul_5, where_1 # Graph fragment: # %gt_1 : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%view_3, 0), kwargs = {}) # %mul_3 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_3, 1.0), kwargs = {}) # %expm1_1 : [num_users=1] = call_function[target=torch.ops.aten.expm1.default](args = (%mul_3,), kwargs = {}) # %mul_5 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%expm1_1, 1.0), kwargs = {}) # %where_1 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %mul_3, %mul_5), kwargs = {}) triton_poi_fused_elu_1 = async_compile.triton('triton_poi_fused_elu_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: '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_elu_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_elu_1(in_ptr0, out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 18432 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_ptr0 + (x0), None) 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) tl.store(out_ptr0 + (x0), tmp7, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/pc/cpczk7mqbztp7xqhb7n65tzs4adjyx5qengzojsqqqszzcbqsswx.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.tanh] # Source node to ATen node mapping: # x_2 => tanh # Graph fragment: # %tanh : [num_users=1] = call_function[target=torch.ops.aten.tanh.default](args = (%view_5,), kwargs = {}) triton_poi_fused_tanh_2 = async_compile.triton('triton_poi_fused_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_tanh_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_tanh_2(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, (288, 4), (4, 1)) assert_size_stride(primals_5, (288, ), (1, )) assert_size_stride(primals_6, (4, 288), (288, 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: [linear], 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: [x], Original ATen: [aten.elu] stream0 = get_raw_stream(0) triton_poi_fused_elu_0.run(buf0, buf1, 256, grid=grid(256), stream=stream0) buf2 = empty_strided_cuda((64, 288), (288, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 288), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 buf3 = empty_strided_cuda((4, 4, 4, 288), (4608, 1152, 288, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.elu] triton_poi_fused_elu_1.run(buf2, buf3, 18432, grid=grid(18432), stream=stream0) buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf3, (64, 288), (288, 1), 0), reinterpret_tensor(primals_6, (288, 4), (1, 288), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf4 # reuse # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.tanh] triton_poi_fused_tanh_2.run(buf5, primals_7, 256, grid=grid(256), stream=stream0) del primals_7 return (buf5, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf0, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), buf2, reinterpret_tensor(buf3, (64, 288), (288, 1), 0), 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((288, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((288, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 288), (288, 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 import numpy as np import torch.nn as nn import torch.nn.functional as F import torch.nn.init as init def weights_init(m): classname = m.__class__.__name__ if classname.find('Conv') != -1: weight_shape = list(m.weight.data.size()) fan_in = np.prod(weight_shape[1:4]) fan_out = np.prod(weight_shape[2:4]) * weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('Linear') != -1: weight_shape = list(m.weight.data.size()) fan_in = weight_shape[1] fan_out = weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('GRUCell') != -1: for param in m.parameters(): if len(param.shape) >= 2: init.orthogonal_(param.data) else: init.normal_(param.data) class DDM_Encoder(torch.nn.Module): def __init__(self, obs_space, dim, context_input=False, context_dim=0): """ architecture should be input, so that we can pass multiple jobs ! """ super(DDM_Encoder, self).__init__() if context_input: self.linear1 = nn.Linear(obs_space + context_dim, dim) else: self.linear1 = nn.Linear(obs_space, dim) self.linear2 = nn.Linear(dim, 32 * 3 * 3) self.fc = nn.Linear(32 * 3 * 3, dim) self.apply(weights_init) self.train() def forward(self, inputs): x = F.elu(self.linear1(inputs)) x = F.elu(self.linear2(x)) x = F.tanh(self.fc(x)) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'obs_space': 4, '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.triton_helpers import libdevice import numpy as np import torch.nn as nn import torch.nn.init as init 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_elu_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 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 1.0 tmp4 = tmp0 * tmp3 tmp5 = libdevice.expm1(tmp4) tmp6 = tmp5 * tmp3 tmp7 = tl.where(tmp2, tmp4, tmp6) tl.store(out_ptr0 + x0, tmp7, xmask) @triton.jit def triton_poi_fused_elu_1(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) x0 = xindex tmp0 = tl.load(in_ptr0 + x0, None) 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) tl.store(out_ptr0 + x0, tmp7, None) @triton.jit def triton_poi_fused_tanh_2(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, (288, 4), (4, 1)) assert_size_stride(primals_5, (288,), (1,)) assert_size_stride(primals_6, (4, 288), (288, 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.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_elu_0[grid(256)](buf0, buf1, 256, XBLOCK=256, num_warps=4, num_stages=1) buf2 = empty_strided_cuda((64, 288), (288, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_4, (4, 288), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 buf3 = empty_strided_cuda((4, 4, 4, 288), (4608, 1152, 288, 1), torch.float32) triton_poi_fused_elu_1[grid(18432)](buf2, buf3, 18432, XBLOCK=256, num_warps=4, num_stages=1) buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf3, (64, 288), (288, 1), 0), reinterpret_tensor(primals_6, (288, 4), (1, 288), 0), out=buf4) buf5 = reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf4 triton_poi_fused_tanh_2[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 ), buf0, reinterpret_tensor(buf1, (64, 4), (4, 1), 0 ), buf2, reinterpret_tensor(buf3, (64, 288), (288, 1), 0 ), buf5, primals_6, primals_4 def weights_init(m): classname = m.__class__.__name__ if classname.find('Conv') != -1: weight_shape = list(m.weight.data.size()) fan_in = np.prod(weight_shape[1:4]) fan_out = np.prod(weight_shape[2:4]) * weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('Linear') != -1: weight_shape = list(m.weight.data.size()) fan_in = weight_shape[1] fan_out = weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('GRUCell') != -1: for param in m.parameters(): if len(param.shape) >= 2: init.orthogonal_(param.data) else: init.normal_(param.data) class DDM_EncoderNew(torch.nn.Module): def __init__(self, obs_space, dim, context_input=False, context_dim=0): """ architecture should be input, so that we can pass multiple jobs ! """ super(DDM_EncoderNew, self).__init__() if context_input: self.linear1 = nn.Linear(obs_space + context_dim, dim) else: self.linear1 = nn.Linear(obs_space, dim) self.linear2 = nn.Linear(dim, 32 * 3 * 3) self.fc = nn.Linear(32 * 3 * 3, dim) self.apply(weights_init) self.train() def forward(self, input_0): primals_1 = self.linear1.weight primals_2 = self.linear1.bias primals_4 = self.linear2.weight primals_5 = self.linear2.bias primals_6 = self.fc.weight primals_7 = self.fc.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	MLforHealth/state_representations_for_RLinHealth	DDM_Encoder	false	8,523	[ "MIT" ]	24	aa8dbb7d56caa95bf4380e3e745e134996291b66	https://github.com/MLforHealth/state_representations_for_RLinHealth/tree/aa8dbb7d56caa95bf4380e3e745e134996291b66
FFNNDual	# 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: [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_1 : [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') 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, (2, 4), (4, 1)) assert_size_stride(primals_7, (2, ), (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 buf6 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 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, buf6, 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 buf5 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_0.run(buf3, primals_5, buf5, 256, grid=grid(256), stream=stream0) del primals_5 buf4 = empty_strided_cuda((64, 2), (2, 1), torch.float32) # Topologically Sorted Source Nodes: [x_6], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, reinterpret_tensor(buf3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 2), (1, 4), 0), alpha=1, beta=1, out=buf4) del primals_7 return (reinterpret_tensor(buf4, (4, 4, 4, 2), (32, 8, 2, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(buf3, (64, 4), (4, 1), 0), primals_6, buf5, primals_4, buf6, ) 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((2, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_7 = 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]) 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 FFNNDual(nn.Module): def __init__(self, input_size, hidden_size_1, hidden_size_2, hidden_dropout_prob_1, hidden_dropout_prob_2): super(FFNNDual, self).__init__() self.input_size = input_size self.hidden_size_1 = hidden_size_1 self.hidden_size_2 = hidden_size_2 self.hidden_dropout_prob_1 = hidden_dropout_prob_1 self.hidden_dropout_prob_2 = hidden_dropout_prob_2 self.dropout_1 = nn.Dropout(hidden_dropout_prob_1) self.dropout_2 = nn.Dropout(hidden_dropout_prob_2) self.first_layer = nn.Linear(input_size, hidden_size_1) self.second_layer = nn.Linear(hidden_size_1, hidden_size_2) self.classifier = nn.Linear(hidden_size_2, 2) def forward(self, x): x = self.first_layer(x) x = nn.ReLU()(x) x = self.dropout_1(x) x = self.second_layer(x) x = nn.ReLU()(x) x = self.dropout_2(x) x = self.classifier(x) return x def __str__(self): return f"""Input size: {self.input_size} Hidden size 1: {self.hidden_size_1} Hidden size 2: {self.hidden_size_2} Dropout 1: {self.hidden_dropout_prob_1} Dropout 2: {self.hidden_dropout_prob_2} Output Size: 2 """ def get_params_string(self): return ( f'dual_output_{self.input_size}_{self.hidden_size_1}_{self.hidden_size_2}_{self.hidden_dropout_prob_1}_{self.hidden_dropout_prob_2}' ) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'input_size': 4, 'hidden_size_1': 4, 'hidden_size_2': 4, 'hidden_dropout_prob_1': 0.5, 'hidden_dropout_prob_2': 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._inductor.runtime import triton_helpers 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_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) 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, (2, 4), (4, 1)) assert_size_stride(primals_7, (2,), (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 buf6 = 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, buf6, 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 buf5 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_relu_threshold_backward_0[grid(256)](buf3, primals_5, buf5, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf4 = empty_strided_cuda((64, 2), (2, 1), torch.float32) extern_kernels.addmm(primals_7, reinterpret_tensor(buf3, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_6, (4, 2), (1, 4), 0), alpha=1, beta=1, out=buf4) del primals_7 return reinterpret_tensor(buf4, (4, 4, 4, 2), (32, 8, 2, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor( buf3, (64, 4), (4, 1), 0), primals_6, buf5, primals_4, buf6 class FFNNDualNew(nn.Module): def __init__(self, input_size, hidden_size_1, hidden_size_2, hidden_dropout_prob_1, hidden_dropout_prob_2): super(FFNNDualNew, self).__init__() self.input_size = input_size self.hidden_size_1 = hidden_size_1 self.hidden_size_2 = hidden_size_2 self.hidden_dropout_prob_1 = hidden_dropout_prob_1 self.hidden_dropout_prob_2 = hidden_dropout_prob_2 self.dropout_1 = nn.Dropout(hidden_dropout_prob_1) self.dropout_2 = nn.Dropout(hidden_dropout_prob_2) self.first_layer = nn.Linear(input_size, hidden_size_1) self.second_layer = nn.Linear(hidden_size_1, hidden_size_2) self.classifier = nn.Linear(hidden_size_2, 2) def __str__(self): return f"""Input size: {self.input_size} Hidden size 1: {self.hidden_size_1} Hidden size 2: {self.hidden_size_2} Dropout 1: {self.hidden_dropout_prob_1} Dropout 2: {self.hidden_dropout_prob_2} Output Size: 2 """ def get_params_string(self): return ( f'dual_output_{self.input_size}_{self.hidden_size_1}_{self.hidden_size_2}_{self.hidden_dropout_prob_1}_{self.hidden_dropout_prob_2}' ) def forward(self, input_0): primals_1 = self.first_layer.weight primals_2 = self.first_layer.bias primals_4 = self.second_layer.weight primals_5 = self.second_layer.bias primals_6 = self.classifier.weight primals_7 = self.classifier.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	MaurizioFD/recsys-challenge-2020-twitter	FFNNDual	false	8,524	[ "Apache-2.0" ]	44	95dc024fb4f8777aa62e1304536daece640428de	https://github.com/MaurizioFD/recsys-challenge-2020-twitter/tree/95dc024fb4f8777aa62e1304536daece640428de
FFNet	# 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/cxu4ioiwga5mlnvb3xtnxllmwiagye4r27tsxxg5uyhohpmp6rmd.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.relu] # Source node to ATen node mapping: # out => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), 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=[1024], 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_relu_0', '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_relu_0(in_out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 1024 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.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(in_out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/xi/cxifscmq46fbq3icnndglxvrenuyfqipkzqiltfl3aguzyzphr72.py # Topologically Sorted Source Nodes: [thought_1], Original ATen: [aten.relu] # Source node to ATen node mapping: # thought_1 => relu_2 # Graph fragment: # %relu_2 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_2,), 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=[512], 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_relu_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_relu_1(in_out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 512 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.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) 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 = args args.clear() assert_size_stride(primals_1, (4, 1, 3), (3, 3, 1)) assert_size_stride(primals_2, (4, 1, 64), (64, 64, 1)) assert_size_stride(primals_3, (4, 4, 3), (12, 3, 1)) assert_size_stride(primals_4, (2, 4, 3), (12, 3, 1)) assert_size_stride(primals_5, (2, 2, 3), (6, 3, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) # Topologically Sorted Source Nodes: [conv1d], Original ATen: [aten.convolution] buf0 = extern_kernels.convolution(primals_2, primals_1, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 64), (256, 64, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [out], Original ATen: [aten.relu] stream0 = get_raw_stream(0) triton_poi_fused_relu_0.run(buf1, 1024, grid=grid(1024), stream=stream0) # Topologically Sorted Source Nodes: [conv1d_1], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(buf1, primals_3, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf2, (4, 4, 64), (256, 64, 1)) buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [thought], Original ATen: [aten.relu] triton_poi_fused_relu_0.run(buf3, 1024, grid=grid(1024), stream=stream0) # Topologically Sorted Source Nodes: [conv1d_2], Original ATen: [aten.convolution] buf4 = extern_kernels.convolution(buf3, primals_4, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf4, (4, 2, 64), (128, 64, 1)) buf5 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [thought_1], Original ATen: [aten.relu] triton_poi_fused_relu_1.run(buf5, 512, grid=grid(512), stream=stream0) # Topologically Sorted Source Nodes: [thought_2], Original ATen: [aten.convolution] buf6 = extern_kernels.convolution(buf5, primals_5, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=(0,), groups=1, bias=None) assert_size_stride(buf6, (4, 2, 64), (128, 64, 1)) return (buf6, primals_1, primals_2, primals_3, primals_4, primals_5, buf1, 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, 1, 3), (3, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 1, 64), (64, 64, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 3), (12, 3, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((2, 4, 3), (12, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((2, 2, 3), (6, 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 import torch.nn as nn import torch.nn.functional as F class FFNet(nn.Module): """Modified ResidualNetworkSegment model class""" def __init__(self, block, num_blocks, width, depth): super(FFNet, self).__init__() assert (depth - 4 ) % 4 == 0, 'Depth not compatible with recurrent architectue.' self.iters = (depth - 4) // 4 self.in_planes = int(width) self.conv1 = nn.Conv1d(1, width, kernel_size=3, stride=1, padding=1, bias=False) layers = [] for _ in range(self.iters): for i in range(len(num_blocks)): layers.append(self._make_layer(block, width, num_blocks[i], stride=1)) self.recur_block = nn.Sequential(layers) self.conv2 = nn.Conv1d(width, width, kernel_size=3, stride=1, padding=1, bias=False) self.conv3 = nn.Conv1d(width, int(width / 2), kernel_size=3, stride =1, padding=1, bias=False) self.conv4 = nn.Conv1d(int(width / 2), 2, kernel_size=3, stride=1, padding=1, bias=False) def _make_layer(self, block, planes, num_blocks, stride): strides = [stride] + [1] (num_blocks - 1) layers = [] for strd in strides: layers.append(block(self.in_planes, planes, strd)) self.in_planes = planes * block.expansion return nn.Sequential(*layers) def forward(self, x): out = F.relu(self.conv1(x)) out = self.recur_block(out) thought = F.relu(self.conv2(out)) thought = F.relu(self.conv3(thought)) thought = self.conv4(thought) return thought def get_inputs(): return [torch.rand([4, 1, 64])] def get_init_inputs(): return [[], {'block': 4, 'num_blocks': 4, 'width': 4, 'depth': 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 @triton.jit def triton_poi_fused_relu_0(in_out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 1024 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.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(in_out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused_relu_1(in_out_ptr0, xnumel, XBLOCK: tl.constexpr): xnumel = 512 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.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(in_out_ptr0 + x0, tmp2, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (4, 1, 3), (3, 3, 1)) assert_size_stride(primals_2, (4, 1, 64), (64, 64, 1)) assert_size_stride(primals_3, (4, 4, 3), (12, 3, 1)) assert_size_stride(primals_4, (2, 4, 3), (12, 3, 1)) assert_size_stride(primals_5, (2, 2, 3), (6, 3, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_2, primals_1, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=( 0,), groups=1, bias=None) assert_size_stride(buf0, (4, 4, 64), (256, 64, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_relu_0[grid(1024)](buf1, 1024, XBLOCK=128, num_warps=4, num_stages=1) buf2 = extern_kernels.convolution(buf1, primals_3, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=( 0,), groups=1, bias=None) assert_size_stride(buf2, (4, 4, 64), (256, 64, 1)) buf3 = buf2 del buf2 triton_poi_fused_relu_0[grid(1024)](buf3, 1024, XBLOCK=128, num_warps=4, num_stages=1) buf4 = extern_kernels.convolution(buf3, primals_4, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=( 0,), groups=1, bias=None) assert_size_stride(buf4, (4, 2, 64), (128, 64, 1)) buf5 = buf4 del buf4 triton_poi_fused_relu_1[grid(512)](buf5, 512, XBLOCK=256, num_warps =4, num_stages=1) buf6 = extern_kernels.convolution(buf5, primals_5, stride=(1,), padding=(1,), dilation=(1,), transposed=False, output_padding=( 0,), groups=1, bias=None) assert_size_stride(buf6, (4, 2, 64), (128, 64, 1)) return (buf6, primals_1, primals_2, primals_3, primals_4, primals_5, buf1, buf3, buf5) class FFNetNew(nn.Module): """Modified ResidualNetworkSegment model class""" def __init__(self, block, num_blocks, width, depth): super(FFNetNew, self).__init__() assert (depth - 4 ) % 4 == 0, 'Depth not compatible with recurrent architectue.' self.iters = (depth - 4) // 4 self.in_planes = int(width) self.conv1 = nn.Conv1d(1, width, kernel_size=3, stride=1, padding=1, bias=False) layers = [] for _ in range(self.iters): for i in range(len(num_blocks)): layers.append(self._make_layer(block, width, num_blocks[i], stride=1)) self.recur_block = nn.Sequential(layers) self.conv2 = nn.Conv1d(width, width, kernel_size=3, stride=1, padding=1, bias=False) self.conv3 = nn.Conv1d(width, int(width / 2), kernel_size=3, stride =1, padding=1, bias=False) self.conv4 = nn.Conv1d(int(width / 2), 2, kernel_size=3, stride=1, padding=1, bias=False) def _make_layer(self, block, planes, num_blocks, stride): strides = [stride] + [1] (num_blocks - 1) layers = [] for strd in strides: layers.append(block(self.in_planes, planes, strd)) self.in_planes = planes * block.expansion return nn.Sequential(*layers) def forward(self, input_0): primals_1 = self.conv1.weight primals_3 = self.conv2.weight primals_4 = self.conv3.weight primals_5 = self.conv4.weight primals_2 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	Maosef/easy-to-hard	FFNet	false	8,525	[ "MIT" ]	44	711ec0965229444a6c51b1b06a4e2cad3e32d02e	https://github.com/Maosef/easy-to-hard/tree/711ec0965229444a6c51b1b06a4e2cad3e32d02e
Net	# 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/zb/czbffd3mbpfkrd3mkyzim5ykyymr6o2jp3alzgmcqp4a22s2llcc.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.tanh] # Source node to ATen node mapping: # x => 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=[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_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 = 3200 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 50 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/6x/c6xiyswroc3c7a5os7z2mdf7ugeycd6ukcthnw55dqmk7654ngrr.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=[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_sigmoid_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_sigmoid_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 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.sigmoid(tmp3) tl.store(in_out_ptr0 + (x0), 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, (50, 4), (4, 1)) assert_size_stride(primals_2, (50, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (1, 50), (50, 1)) assert_size_stride(primals_5, (1, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 50), (50, 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, 50), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 50), (800, 200, 50, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [x], Original ATen: [aten.tanh] stream0 = get_raw_stream(0) triton_poi_fused_tanh_0.run(buf1, primals_2, 3200, grid=grid(3200), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 1), (1, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (64, 50), (50, 1), 0), reinterpret_tensor(primals_4, (50, 1), (1, 50), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 1), (16, 4, 1, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [sigmoid], Original ATen: [aten.sigmoid] triton_poi_fused_sigmoid_1.run(buf3, primals_5, 64, grid=grid(64), stream=stream0) del primals_5 return (buf3, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf1, buf3, 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((50, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((50, ), (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, 50), (50, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((1, ), (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.utils class Net(nn.Module): def __init__(self, n_inputs, n_units=50): super(Net, self).__init__() self.fc = nn.Linear(n_inputs, n_units) self.out = nn.Linear(n_units, 1) def forward(self, x): x = torch.tanh(self.fc(x)) return torch.sigmoid(self.out(x)) def basis_funcs(self, x): return torch.tanh(self.fc(x)) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'n_inputs': 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.utils 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 = 3200 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x2 = xindex x0 = xindex % 50 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_sigmoid_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 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.sigmoid(tmp3) tl.store(in_out_ptr0 + x0, tmp4, xmask) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (50, 4), (4, 1)) assert_size_stride(primals_2, (50,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (1, 50), (50, 1)) assert_size_stride(primals_5, (1,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 50), (50, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 50), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 50), (800, 200, 50, 1), 0) del buf0 get_raw_stream(0) triton_poi_fused_tanh_0[grid(3200)](buf1, primals_2, 3200, XBLOCK= 256, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 1), (1, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 50), (50, 1), 0), reinterpret_tensor(primals_4, (50, 1), (1, 50), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 1), (16, 4, 1, 1), 0) del buf2 triton_poi_fused_sigmoid_1[grid(64)](buf3, primals_5, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_5 return buf3, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), buf1, buf3, primals_4 class NetNew(nn.Module): def __init__(self, n_inputs, n_units=50): super(NetNew, self).__init__() self.fc = nn.Linear(n_inputs, n_units) self.out = nn.Linear(n_units, 1) def basis_funcs(self, x): return torch.tanh(self.fc(x)) def forward(self, input_0): primals_1 = self.fc.weight primals_2 = self.fc.bias primals_4 = self.out.weight primals_5 = self.out.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	MSU-MLSys-Lab/CATE	Net	false	8,526	[ "Apache-2.0" ]	15	654c393d7df888d2c3f3b90f9e6752faa061157e	https://github.com/MSU-MLSys-Lab/CATE/tree/654c393d7df888d2c3f3b90f9e6752faa061157e
VGGOutputBlock	# 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/5m/c5mecvlzvg5rkilcxg3j7a6zoudbvu6s2hoshliyr4ivtzdp4udh.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=1] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %le_1 : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%view_3, 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=[262144], 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 = 262144 xoffset = tl.program_id(0) XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = tl.full([XBLOCK], True, tl.int1) x4 = xindex x0 = xindex % 4096 tmp0 = tl.load(in_out_ptr0 + (x4), 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 + (x4), tmp4, None) tl.store(out_ptr0 + (x4), tmp6, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/hk/chkohvvhufnnovmk6iox6efxegdyhjma5haxc7kwk7qyxgt4vsvs.py # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.view] # Source node to ATen node mapping: # x_3 => view_5 # Graph fragment: # %view_5 : [num_users=2] = call_function[target=torch.ops.aten.reshape.default](args = (%view_3, [64, 4096]), kwargs = {}) triton_poi_fused_view_1 = async_compile.triton('triton_poi_fused_view_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: '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_view_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_view_1(in_ptr0, out_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) x0 = xindex % 4096 x1 = (xindex // 4096) x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (4096x1) + (16384((x1 % 4) // 4)) + (65536(((4((x1 // 4) % 4)) + (x1 % 4)) // 16))), None) tl.store(out_ptr0 + (x2), tmp0, 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 = args args.clear() assert_size_stride(primals_1, (4096, 4), (4, 1)) assert_size_stride(primals_2, (4096, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4096, 4096), (4096, 1)) assert_size_stride(primals_5, (4096, ), (1, )) assert_size_stride(primals_6, (4, 4096), (4096, 1)) assert_size_stride(primals_7, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4096), (4096, 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, 4096), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4096), (65536, 16384, 4096, 1), 0); del buf0 # reuse buf8 = empty_strided_cuda((4, 4, 4, 4096), (65536, 16384, 4096, 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, buf8, 262144, grid=grid(262144), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 4096), (4096, 1), torch.float32) # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.view] triton_poi_fused_view_1.run(buf1, buf2, 262144, grid=grid(262144), stream=stream0) buf3 = reinterpret_tensor(buf1, (64, 4096), (4096, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf2, reinterpret_tensor(primals_4, (4096, 4096), (1, 4096), 0), out=buf3) buf4 = reinterpret_tensor(buf3, (4, 4, 4, 4096), (65536, 16384, 4096, 1), 0); del buf3 # reuse buf7 = empty_strided_cuda((4, 4, 4, 4096), (65536, 16384, 4096, 1), torch.bool) # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_0.run(buf4, primals_5, buf7, 262144, grid=grid(262144), stream=stream0) del primals_5 buf5 = empty_strided_cuda((64, 4096), (4096, 1), torch.float32) # Topologically Sorted Source Nodes: [x_6], Original ATen: [aten.view] triton_poi_fused_view_1.run(buf4, buf5, 262144, grid=grid(262144), stream=stream0) del buf4 buf6 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_6], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, buf5, reinterpret_tensor(primals_6, (4096, 4), (1, 4096), 0), alpha=1, beta=1, out=buf6) del primals_7 return (reinterpret_tensor(buf6, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), buf2, buf5, primals_6, buf7, primals_4, 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((4096, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4096, ), (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((4096, 4096), (4096, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4096, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 4096), (4096, 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 import torch.nn as nn class VGGDense(nn.Module): def __init__(self, in_channels, out_channels): super(VGGDense, self).__init__() self.fc = nn.Linear(in_features=in_channels, out_features=out_channels) self.activ = nn.ReLU(inplace=True) self.dropout = nn.Dropout(p=0.5) def forward(self, x): x = self.fc(x) x = self.activ(x) x = self.dropout(x) return x class VGGOutputBlock(nn.Module): def __init__(self, in_channels, classes): super(VGGOutputBlock, self).__init__() mid_channels = 4096 self.fc1 = VGGDense(in_channels=in_channels, out_channels=mid_channels) self.fc2 = VGGDense(in_channels=mid_channels, out_channels=mid_channels ) self.fc3 = nn.Linear(in_features=mid_channels, out_features=classes) def forward(self, x): x = self.fc1(x) x = self.fc2(x) x = self.fc3(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_channels': 4, 'classes': 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) x4 = xindex x0 = xindex % 4096 tmp0 = tl.load(in_out_ptr0 + x4, 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 + x4, tmp4, None) tl.store(out_ptr0 + x4, tmp6, None) @triton.jit def triton_poi_fused_view_1(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) x0 = xindex % 4096 x1 = xindex // 4096 x2 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 4096 * x1 + 16384 * (x1 % 4 // 4) + 65536 * ((4 * (x1 // 4 % 4) + x1 % 4) // 16)), None) tl.store(out_ptr0 + x2, tmp0, None) 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, (4096, 4), (4, 1)) assert_size_stride(primals_2, (4096,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (4096, 4096), (4096, 1)) assert_size_stride(primals_5, (4096,), (1,)) assert_size_stride(primals_6, (4, 4096), (4096, 1)) assert_size_stride(primals_7, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 4096), (4096, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 4096), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4096), (65536, 16384, 4096, 1), 0) del buf0 buf8 = empty_strided_cuda((4, 4, 4, 4096), (65536, 16384, 4096, 1), torch.bool) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(262144)](buf1, primals_2, buf8, 262144, XBLOCK=1024, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 4096), (4096, 1), torch.float32) triton_poi_fused_view_1[grid(262144)](buf1, buf2, 262144, XBLOCK= 1024, num_warps=4, num_stages=1) buf3 = reinterpret_tensor(buf1, (64, 4096), (4096, 1), 0) del buf1 extern_kernels.mm(buf2, reinterpret_tensor(primals_4, (4096, 4096), (1, 4096), 0), out=buf3) buf4 = reinterpret_tensor(buf3, (4, 4, 4, 4096), (65536, 16384, 4096, 1), 0) del buf3 buf7 = empty_strided_cuda((4, 4, 4, 4096), (65536, 16384, 4096, 1), torch.bool) triton_poi_fused_relu_threshold_backward_0[grid(262144)](buf4, primals_5, buf7, 262144, XBLOCK=1024, num_warps=4, num_stages=1) del primals_5 buf5 = empty_strided_cuda((64, 4096), (4096, 1), torch.float32) triton_poi_fused_view_1[grid(262144)](buf4, buf5, 262144, XBLOCK= 1024, num_warps=4, num_stages=1) del buf4 buf6 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_7, buf5, reinterpret_tensor(primals_6, (4096, 4), (1, 4096), 0), alpha=1, beta=1, out=buf6) del primals_7 return reinterpret_tensor(buf6, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), buf2, buf5, primals_6, buf7, primals_4, buf8 class VGGDense(nn.Module): def __init__(self, in_channels, out_channels): super(VGGDense, self).__init__() self.fc = nn.Linear(in_features=in_channels, out_features=out_channels) self.activ = nn.ReLU(inplace=True) self.dropout = nn.Dropout(p=0.5) def forward(self, x): x = self.fc(x) x = self.activ(x) x = self.dropout(x) return x class VGGOutputBlockNew(nn.Module): def __init__(self, in_channels, classes): super(VGGOutputBlockNew, self).__init__() mid_channels = 4096 self.fc1 = VGGDense(in_channels=in_channels, out_channels=mid_channels) self.fc2 = VGGDense(in_channels=mid_channels, out_channels=mid_channels ) self.fc3 = nn.Linear(in_features=mid_channels, out_features=classes) def forward(self, input_0): primals_1 = self.fc1.fc.weight primals_2 = self.fc1.fc.bias primals_4 = self.fc2.fc.weight primals_5 = self.fc2.fc.bias primals_6 = self.fc3.weight primals_7 = self.fc3.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	MarioMZhang/HAP-tryout	VGGOutputBlock	false	8,527	[ "MIT" ]	24	9a423f35b50766533a0d2cab8069316ccb21954b	https://github.com/MarioMZhang/HAP-tryout/tree/9a423f35b50766533a0d2cab8069316ccb21954b
GlobalAttentionGeneral	# 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/3o/c3o4fyjxlkj4npsoxsqqqpk3uuygpey2bd23rcgrqskm4bg6g5ni.py # Topologically Sorted Source Nodes: [targetT], Original ATen: [aten.clone, aten.transpose] # Source node to ATen node mapping: # targetT => clone # Graph fragment: # %clone : [num_users=2] = call_function[target=torch.ops.aten.clone.default](args = (%permute,), kwargs = {memory_format: torch.contiguous_format}) # %permute_5 : [num_users=1] = call_function[target=torch.ops.aten.permute.default](args = (%clone, [0, 2, 1]), kwargs = {}) triton_poi_fused_clone_transpose_0 = async_compile.triton('triton_poi_fused_clone_transpose_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.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, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_transpose_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_transpose_0(in_ptr0, out_ptr0, out_ptr1, 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 x1 = xindex y0 = yindex y2 = yindex % 4 y3 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x1 + (16y0)), xmask & ymask) tl.store(out_ptr0 + (x1 + (16y0)), tmp0, xmask & ymask) tl.store(out_ptr1 + (y2 + (4x1) + (64y3)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/om/com5a2jdtzsd2gxozlfy64n7thpakjehaajnnx7weffss4gxj2sy.py # Topologically Sorted Source Nodes: [attn_2], Original ATen: [aten._softmax] # Source node to ATen node mapping: # attn_2 => amax, exp, sub # Graph fragment: # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_1, [1], 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_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/o6/co6rds2fnpdijj6xbnv2tmkoxmykgqu7idfvvwu22ylhgstr53gf.py # Topologically Sorted Source Nodes: [attn_4], Original ATen: [aten.clone] # Source node to ATen node mapping: # attn_4 => clone_1 # Graph fragment: # %clone_1 : [num_users=3] = call_function[target=torch.ops.aten.clone.default](args = (%permute_1,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_2 = async_compile.triton('triton_poi_fused_clone_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, 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_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_clone_2(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 y0 = yindex % 4 y1 = (yindex // 4) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (4x2) + (64y1)), xmask & ymask) tmp1 = tl.load(in_ptr0 + ((4x2) + (64y1)), xmask & ymask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + (4x2) + (64y1)), xmask & ymask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + (4x2) + (64y1)), xmask & ymask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + (4x2) + (64y1)), xmask & ymask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2 + (16*y3)), tmp8, xmask & ymask) ''', 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), (16, 4, 1)) assert_size_stride(primals_3, (4, 4, 1, 1), (4, 1, 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(reinterpret_tensor(primals_2, (4, 4, 4, 1), (16, 4, 1, 1), 0), primals_3, 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, 1), (16, 4, 1, 1)) buf1 = empty_strided_cuda((4, 16, 4), (64, 1, 16), torch.float32) buf6 = empty_strided_cuda((4, 4, 16), (64, 1, 4), torch.float32) # Topologically Sorted Source Nodes: [targetT], Original ATen: [aten.clone, aten.transpose] stream0 = get_raw_stream(0) triton_poi_fused_clone_transpose_0.run(primals_1, buf1, buf6, 16, 16, grid=grid(16, 16), stream=stream0) del primals_1 buf2 = empty_strided_cuda((4, 16, 4), (64, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [targetT, attn], Original ATen: [aten.clone, aten.bmm] extern_kernels.bmm(buf1, reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), out=buf2) buf3 = reinterpret_tensor(buf1, (64, 4), (4, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [attn_2], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf2, buf3, 256, grid=grid(256), stream=stream0) buf4 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) # Topologically Sorted Source Nodes: [attn_4], Original ATen: [aten.clone] triton_poi_fused_clone_2.run(buf3, buf4, 16, 16, grid=grid(16, 16), stream=stream0) buf5 = reinterpret_tensor(buf3, (4, 4, 16), (64, 16, 1), 0); del buf3 # reuse # Topologically Sorted Source Nodes: [weightedContext], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), buf4, out=buf5) return (reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0), primals_3, reinterpret_tensor(primals_2, (4, 4, 4, 1), (16, 4, 1, 1), 0), buf2, reinterpret_tensor(buf0, (4, 4, 4), (16, 1, 4), 0), reinterpret_tensor(buf4, (4, 16, 4), (64, 1, 16), 0), buf6, ) 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), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 1, 1), (4, 1, 1, 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.parallel import torch.onnx def conv1x1(in_planes, out_planes, bias=False): """1x1 convolution with padding""" return nn.Conv2d(in_planes, out_planes, kernel_size=1, stride=1, padding=0, bias=bias) class GlobalAttentionGeneral(nn.Module): def __init__(self, idf, cdf): super(GlobalAttentionGeneral, self).__init__() self.conv_context = conv1x1(cdf, idf) self.sm = nn.Softmax() self.mask = None def applyMask(self, mask): self.mask = mask def forward(self, input, context): """ input: batch x idf x ih x iw (queryL=ihxiw) context: batch x cdf x sourceL """ ih, iw = input.size(2), input.size(3) queryL = ih * iw batch_size, sourceL = context.size(0), context.size(2) target = input.view(batch_size, -1, queryL) targetT = torch.transpose(target, 1, 2).contiguous() sourceT = context.unsqueeze(3) sourceT = self.conv_context(sourceT).squeeze(3) attn = torch.bmm(targetT, sourceT) attn = attn.view(batch_size * queryL, sourceL) if self.mask is not None: mask = self.mask.repeat(queryL, 1) attn.data.masked_fill_(mask.data.bool(), -float('inf')) attn = self.sm(attn) attn = attn.view(batch_size, queryL, sourceL) attn = torch.transpose(attn, 1, 2).contiguous() weightedContext = torch.bmm(sourceT, attn) weightedContext = weightedContext.view(batch_size, -1, ih, iw) attn = attn.view(batch_size, -1, ih, iw) return weightedContext, attn def get_inputs(): return [torch.rand([4, 4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'idf': 4, 'cdf': 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 import torch.nn.parallel import torch.onnx 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_transpose_0(in_ptr0, out_ptr0, out_ptr1, 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 x1 = xindex y0 = yindex y2 = yindex % 4 y3 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x1 + 16 * y0), xmask & ymask) tl.store(out_ptr0 + (x1 + 16 * y0), tmp0, xmask & ymask) tl.store(out_ptr1 + (y2 + 4 * x1 + 64 * y3), tmp0, xmask & ymask) @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_clone_2(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 y0 = yindex % 4 y1 = yindex // 4 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 4 * x2 + 64 * y1), xmask & ymask) tmp1 = tl.load(in_ptr0 + (4 * x2 + 64 * y1), xmask & ymask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr0 + (1 + 4 * x2 + 64 * y1), xmask & ymask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr0 + (2 + 4 * x2 + 64 * y1), xmask & ymask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (3 + 4 * x2 + 64 * y1), xmask & ymask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 + tmp4 tmp7 = tmp5 + tmp6 tmp8 = tmp0 / tmp7 tl.store(out_ptr0 + (x2 + 16 * y3), tmp8, xmask & ymask) 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), (16, 4, 1)) assert_size_stride(primals_3, (4, 4, 1, 1), (4, 1, 1, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(reinterpret_tensor(primals_2, (4, 4, 4, 1), (16, 4, 1, 1), 0), primals_3, 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, 1), (16, 4, 1, 1)) buf1 = empty_strided_cuda((4, 16, 4), (64, 1, 16), torch.float32) buf6 = empty_strided_cuda((4, 4, 16), (64, 1, 4), torch.float32) get_raw_stream(0) triton_poi_fused_clone_transpose_0[grid(16, 16)](primals_1, buf1, buf6, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del primals_1 buf2 = empty_strided_cuda((4, 16, 4), (64, 4, 1), torch.float32) extern_kernels.bmm(buf1, reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), out=buf2) buf3 = reinterpret_tensor(buf1, (64, 4), (4, 1), 0) del buf1 triton_poi_fused__softmax_1[grid(256)](buf2, buf3, 256, XBLOCK=256, num_warps=4, num_stages=1) buf4 = empty_strided_cuda((4, 4, 16), (64, 16, 1), torch.float32) triton_poi_fused_clone_2[grid(16, 16)](buf3, buf4, 16, 16, XBLOCK= 16, YBLOCK=16, num_warps=4, num_stages=1) buf5 = reinterpret_tensor(buf3, (4, 4, 16), (64, 16, 1), 0) del buf3 extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 4), (16, 4, 1), 0), buf4, out=buf5) return reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), primals_3, reinterpret_tensor(primals_2, (4, 4, 4, 1), (16, 4, 1, 1), 0), buf2, reinterpret_tensor(buf0, (4, 4, 4), (16, 1, 4), 0 ), reinterpret_tensor(buf4, (4, 16, 4), (64, 1, 16), 0), buf6 def conv1x1(in_planes, out_planes, bias=False): """1x1 convolution with padding""" return nn.Conv2d(in_planes, out_planes, kernel_size=1, stride=1, padding=0, bias=bias) class GlobalAttentionGeneralNew(nn.Module): def __init__(self, idf, cdf): super(GlobalAttentionGeneralNew, self).__init__() self.conv_context = conv1x1(cdf, idf) self.sm = nn.Softmax() self.mask = None def applyMask(self, mask): self.mask = mask def forward(self, input_0, input_1): primals_3 = self.conv_context.weight primals_1 = input_0 primals_2 = input_1 output = call([primals_1, primals_2, primals_3]) return output[0], output[1]	MaxyLee/Style-AttnGAN	GlobalAttentionGeneral	false	8,528	[ "MIT" ]	36	d33d0df061c94b75ad4af5c750b8d6f37ee1a35a	https://github.com/MaxyLee/Style-AttnGAN/tree/d33d0df061c94b75ad4af5c750b8d6f37ee1a35a
FFModule	# 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/bm/cbmvwkhgioz63mnhrh3onxemouh4axyclce6ay7mypmzm62glj7h.py # Topologically Sorted Source Nodes: [x], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # x => 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-05), 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-05 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: [x], Original ATen: [aten.native_layer_norm] # Source node to ATen node mapping: # x => 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-05), 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/p3/cp3utc5v23sn2cyk7duypeqnubya7xxdpwoonppg3f7ngk5462gb.py # Topologically Sorted Source Nodes: [sigmoid, x_2], Original ATen: [aten.sigmoid, aten.mul] # Source node to ATen node mapping: # sigmoid => sigmoid # x_2 => mul_2 # Graph fragment: # %sigmoid : [num_users=1] = call_function[target=torch.ops.aten.sigmoid.default](args = (%view_1,), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, %sigmoid), kwargs = {}) triton_poi_fused_mul_sigmoid_2 = async_compile.triton('triton_poi_fused_mul_sigmoid_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_mul_sigmoid_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_mul_sigmoid_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 = 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): 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: [x], 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: [x], 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: [x_1], 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: [sigmoid, x_2], Original ATen: [aten.sigmoid, aten.mul] triton_poi_fused_mul_sigmoid_2.run(buf3, buf4, 256, grid=grid(256), stream=stream0) buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, reinterpret_tensor(buf4, (64, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf5) del primals_7 return (reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0), 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 torch import torch.nn as nn def swish(x): return x * torch.sigmoid(x) class FFModule(nn.Module): def __init__(self, d_model, h_size, dropout=0.2): super(FFModule, self).__init__() self.layer_norm = nn.LayerNorm(d_model) self.layer1 = nn.Linear(d_model, h_size) self.swish_activation = swish self.dropout = nn.Dropout(dropout) self.layer2 = nn.Linear(h_size, d_model) def forward(self, inputs): x = self.layer_norm(inputs) x = self.layer1(x) x = self.swish_activation(x) x = self.dropout(x) x = self.layer2(x) x = self.dropout(x) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'d_model': 4, 'h_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 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-05 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_mul_sigmoid_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 = tl.sigmoid(tmp0) tmp2 = tmp0 * tmp1 tl.store(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,), (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_mul_sigmoid_2[grid(256)](buf3, buf4, 256, XBLOCK= 256, num_warps=4, num_stages=1) buf5 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_7, reinterpret_tensor(buf4, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf5) del primals_7 return reinterpret_tensor(buf5, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), primals_3, reinterpret_tensor(buf2, (64, 4), (4, 1), 0 ), buf3, reinterpret_tensor(buf4, (64, 4), (4, 1), 0 ), primals_6, primals_4 def swish(x): return x * torch.sigmoid(x) class FFModuleNew(nn.Module): def __init__(self, d_model, h_size, dropout=0.2): super(FFModuleNew, self).__init__() self.layer_norm = nn.LayerNorm(d_model) self.layer1 = nn.Linear(d_model, h_size) self.swish_activation = swish self.dropout = nn.Dropout(dropout) self.layer2 = nn.Linear(h_size, d_model) def forward(self, input_0): primals_1 = self.layer_norm.weight primals_2 = self.layer_norm.bias primals_4 = self.layer1.weight primals_5 = self.layer1.bias primals_6 = self.layer2.weight primals_7 = self.layer2.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	Masao-Someki/Conformer	FFModule	false	8,529	[ "MIT" ]	18	866da9ae05a6d07304775c592caac8d516f67c92	https://github.com/Masao-Someki/Conformer/tree/866da9ae05a6d07304775c592caac8d516f67c92
BasicBlock	# 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/fz/cfzj5bubecclqwixnyw4mgb2x6p65oossc6qcu54ffkv7e56hx4a.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.relu] # Source node to ATen node mapping: # out => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), 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: '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_0', '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_relu_0(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.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(in_out_ptr0 + (x0), tmp2, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/xl/cxldz53yhux33th37rzhp6akujnp4o5wil5llpv47kfpc5x5qt2d.py # Topologically Sorted Source Nodes: [out_2, out_3], Original ATen: [aten.add, aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # out_2 => add # out_3 => relu_1 # Graph fragment: # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%convolution_1, %primals_2), kwargs = {}) # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%add,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu_1, 0), kwargs = {}) triton_poi_fused_add_relu_threshold_backward_1 = async_compile.triton('triton_poi_fused_add_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_add_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_add_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 x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), xmask) tmp1 = tl.load(in_ptr0 + (x0), xmask) 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 + (x0), tmp4, xmask) tl.store(out_ptr0 + (x0), tmp6, 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, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, 4, 3, 3), (36, 9, 3, 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_2, 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, 4, 4), (64, 16, 4, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [out], Original ATen: [aten.relu] stream0 = get_raw_stream(0) triton_poi_fused_relu_0.run(buf1, 256, grid=grid(256), stream=stream0) # Topologically Sorted Source Nodes: [out_1], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(buf1, primals_3, 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, 4, 4), (64, 16, 4, 1)) buf3 = buf2; del buf2 # reuse buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [out_2, out_3], Original ATen: [aten.add, aten.relu, aten.threshold_backward] triton_poi_fused_add_relu_threshold_backward_1.run(buf3, primals_2, buf4, 256, grid=grid(256), stream=stream0) return (buf3, primals_1, primals_2, primals_3, buf1, 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, 3, 3), (36, 9, 3, 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, 3, 3), (36, 9, 3, 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 from abc import ABC import torch.utils.data import torch.nn.functional as F def conv3x3(in_planes, out_planes, stride=1): return nn.Conv2d(in_planes, out_planes, kernel_size=3, stride=stride, padding=1, bias=False) class BasicBlock(nn.Module, ABC): expansion = 1 def __init__(self, in_planes, planes, stride=1): super(BasicBlock, self).__init__() self.conv1 = conv3x3(in_planes, planes, stride) self.bn1 = nn.Sequential() self.conv2 = conv3x3(planes, planes) self.bn2 = nn.Sequential() self.shortcut = nn.Sequential() if stride != 1 or in_planes != self.expansion * planes: self.shortcut = nn.Sequential(nn.Conv2d(in_planes, self. expansion * planes, kernel_size=1, stride=stride, bias=False)) def forward(self, x): out = F.relu(self.bn1(self.conv1(x))) out = self.bn2(self.conv2(out)) out += self.shortcut(x) out = F.relu(out) return out def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_planes': 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 import torch.nn as nn from abc import ABC 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_relu_0(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.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(in_out_ptr0 + x0, tmp2, xmask) @triton.jit def triton_poi_fused_add_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 x0 = xindex tmp0 = tl.load(in_out_ptr0 + x0, xmask) tmp1 = tl.load(in_ptr0 + x0, xmask) 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 + x0, tmp4, xmask) tl.store(out_ptr0 + x0, tmp6, xmask) def call(args): primals_1, primals_2, primals_3 = args args.clear() assert_size_stride(primals_1, (4, 4, 3, 3), (36, 9, 3, 1)) assert_size_stride(primals_2, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_3, (4, 4, 3, 3), (36, 9, 3, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_2, 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, 4, 4), (64, 16, 4, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_relu_0[grid(256)](buf1, 256, XBLOCK=128, num_warps =4, num_stages=1) buf2 = extern_kernels.convolution(buf1, primals_3, 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, 4, 4), (64, 16, 4, 1)) buf3 = buf2 del buf2 buf4 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) triton_poi_fused_add_relu_threshold_backward_1[grid(256)](buf3, primals_2, buf4, 256, XBLOCK=256, num_warps=4, num_stages=1) return buf3, primals_1, primals_2, primals_3, buf1, buf4 def conv3x3(in_planes, out_planes, stride=1): return nn.Conv2d(in_planes, out_planes, kernel_size=3, stride=stride, padding=1, bias=False) class BasicBlockNew(nn.Module, ABC): expansion = 1 def __init__(self, in_planes, planes, stride=1): super(BasicBlockNew, self).__init__() self.conv1 = conv3x3(in_planes, planes, stride) self.bn1 = nn.Sequential() self.conv2 = conv3x3(planes, planes) self.bn2 = nn.Sequential() self.shortcut = nn.Sequential() if stride != 1 or in_planes != self.expansion * planes: self.shortcut = nn.Sequential(nn.Conv2d(in_planes, self. expansion * planes, kernel_size=1, stride=stride, bias=False)) def forward(self, input_0): primals_1 = self.conv1.weight primals_3 = self.conv2.weight primals_2 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	Mattdl/RehearsalRevealed	BasicBlock	false	8,530	[ "MIT" ]	12	f9cd2548f6c6d3ff119b40fecdb0df6fcd1525f6	https://github.com/Mattdl/RehearsalRevealed/tree/f9cd2548f6c6d3ff119b40fecdb0df6fcd1525f6
EncoderLayer	# 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/s6/cs6vp4teg5vmcdeisieecaiyglq5vktlerz3idprxiiywrsiin4u.py # Topologically Sorted Source Nodes: [mean, sub, mul, std, add, truediv, norm], Original ATen: [aten.mean, aten.sub, aten.mul, aten.std, aten.add, aten.div] # Source node to ATen node mapping: # add => add # mean => mean # mul => mul # norm => add_1 # std => sqrt, var # sub => sub # truediv => div # Graph fragment: # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%primals_2, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_2, %mean), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, %sub), kwargs = {}) # %var : [num_users=1] = call_function[target=torch.ops.aten.var.correction](args = (%primals_2, [-1]), kwargs = {correction: 1.0, keepdim: True}) # %sqrt : [num_users=1] = call_function[target=torch.ops.aten.sqrt.default](args = (%var,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sqrt, 1e-06), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul, %add), kwargs = {}) # %add_1 : [num_users=4] = call_function[target=torch.ops.aten.add.Tensor](args = (%div, %primals_3), kwargs = {}) triton_poi_fused_add_div_mean_mul_std_sub_0 = async_compile.triton('triton_poi_fused_add_div_mean_mul_std_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=[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_div_mean_mul_std_sub_0', 'mutated_arg_names': [], 'no_x_dim': False, 'num_load': 7, '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_mean_mul_std_sub_0(in_ptr0, in_ptr1, in_ptr2, 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 % 4 x2 = xindex x1 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x2), xmask) tmp2 = tl.load(in_ptr1 + (4x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr1 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (3 + (4x1)), xmask, eviction_policy='evict_last') tmp30 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp8 = tmp6 + tmp7 tmp9 = 4.0 tmp10 = tmp8 / tmp9 tmp11 = tmp1 - tmp10 tmp12 = tmp0 * tmp11 tmp13 = tmp2 - tmp10 tmp14 = tmp13 * tmp13 tmp15 = tmp3 - tmp10 tmp16 = tmp15 * tmp15 tmp17 = tmp14 + tmp16 tmp18 = tmp5 - tmp10 tmp19 = tmp18 * tmp18 tmp20 = tmp17 + tmp19 tmp21 = tmp7 - tmp10 tmp22 = tmp21 * tmp21 tmp23 = tmp20 + tmp22 tmp24 = 3.0 tmp25 = tmp23 / tmp24 tmp26 = libdevice.sqrt(tmp25) tmp27 = 1e-06 tmp28 = tmp26 + tmp27 tmp29 = tmp12 / tmp28 tmp31 = tmp29 + tmp30 tl.store(out_ptr0 + (x2), tmp31, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/i6/ci6sdb7rygv55epppdljfhhfbb55dtajriqb7rgs7gniycfqzx3l.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_4, 1.0), 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=[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_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_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 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 = 1.0 tmp4 = tmp2 * tmp3 tl.store(in_out_ptr0 + (x2), tmp4, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ov/covjhftcdptuemgwgjwmvu7p52qkfzset3sk7beuepqdznyxd7j7.py # Topologically Sorted Source Nodes: [], Original ATen: [] # Source node to ATen node mapping: # Graph fragment: # %amax_default : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%view_default_2, [-1], True), kwargs = {}) # %sub_tensor : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%view_default_2, %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 = {}) # %div_tensor : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp_default, %sum_dim_int_list), kwargs = {}) # %eq_scalar : [num_users=1] = call_function[target=torch.ops.aten.eq.Scalar](args = (%view_default_2, -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 = {}) # %logical_not_default_1 : [num_users=1] = call_function[target=torch.ops.aten.logical_not.default](args = (%any_dim,), kwargs = {}) # %full_default_2 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([4, 4, 1, 1], 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_2, %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=[16], 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_2', '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_2(in_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_out_ptr0 + (x0), xmask) tmp1 = float("-inf") tmp2 = tmp0 == tmp1 tmp3 = tmp2 == 0 tmp4 = tmp3.to(tl.int64) tmp5 = (tmp4 != 0) tmp6 = tmp5 == 0 tmp7 = tmp0 - tmp0 tmp8 = tl_math.exp(tmp7) tmp9 = tmp8 / tmp8 tmp10 = 0.0 tmp11 = tl.where(tmp6, tmp10, tmp9) tl.store(in_out_ptr0 + (x0), tmp11, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/gm/cgmhhseh24gbgkv647oxu3jwtaobwb56houfi642wzi6pe2egbeu.py # Topologically Sorted Source Nodes: [x, mean_1, std_1], Original ATen: [aten.add, aten.mean, aten.std] # Source node to ATen node mapping: # mean_1 => mean_1 # std_1 => var_1 # x => add_2 # Graph fragment: # %add_2 : [num_users=4] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_2, %view_11), kwargs = {}) # %mean_1 : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%add_2, [-1], True), kwargs = {}) # %var_1 : [num_users=1] = call_function[target=torch.ops.aten.var.correction](args = (%add_2, [-1]), kwargs = {correction: 1.0, keepdim: True}) triton_poi_fused_add_mean_std_3 = async_compile.triton('triton_poi_fused_add_mean_std_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_mean_std_3', '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_add_mean_std_3(in_out_ptr0, 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 % 4 x1 = (xindex // 4) x2 = xindex tmp0 = tl.load(in_ptr0 + (4x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (4x1), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr0 + (1 + (4x0)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr1 + (1 + (4x1)), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr0 + (2 + (4x0)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr1 + (2 + (4x1)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (3 + (4x0)), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr1 + (3 + (4x1)), 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 = 3.0 tmp29 = tmp27 / tmp28 tl.store(out_ptr0 + (x2), tmp16, xmask) tl.store(in_out_ptr0 + (x2), tmp29, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/t5/ct5gycxagg4r3zdw334knlyb7h2bln5clln3bsvkihtvxtjbwwuh.py # Topologically Sorted Source Nodes: [x, mean_1, sub_1, mul_1, std_1, add_3, truediv_2, norm_1], Original ATen: [aten.add, aten.mean, aten.sub, aten.mul, aten.std, aten.div] # Source node to ATen node mapping: # add_3 => add_3 # mean_1 => mean_1 # mul_1 => mul_1 # norm_1 => add_4 # std_1 => sqrt_1 # sub_1 => sub_2 # truediv_2 => div_3 # x => add_2 # Graph fragment: # %add_2 : [num_users=4] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_2, %view_11), kwargs = {}) # %mean_1 : [num_users=1] = call_function[target=torch.ops.aten.mean.dim](args = (%add_2, [-1], True), kwargs = {}) # %sub_2 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%add_2, %mean_1), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_13, %sub_2), kwargs = {}) # %sqrt_1 : [num_users=1] = call_function[target=torch.ops.aten.sqrt.default](args = (%var_1,), kwargs = {}) # %add_3 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%sqrt_1, 1e-06), kwargs = {}) # %div_3 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%mul_1, %add_3), kwargs = {}) # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%div_3, %primals_14), kwargs = {}) triton_poi_fused_add_div_mean_mul_std_sub_4 = async_compile.triton('triton_poi_fused_add_div_mean_mul_std_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=[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_div_mean_mul_std_sub_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_div_mean_mul_std_sub_4(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 x0 = xindex % 4 x3 = xindex % 16 x2 = (xindex // 16) x4 = (xindex // 4) x5 = xindex tmp0 = tl.load(in_ptr0 + (x0), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x3), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + (x0 + (4x2)), xmask, eviction_policy='evict_last') tmp4 = tl.load(in_ptr3 + (x4), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + (x4), xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr5 + (x0), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 - tmp4 tmp6 = tmp0 tmp5 tmp8 = libdevice.sqrt(tmp7) tmp9 = 1e-06 tmp10 = tmp8 + tmp9 tmp11 = tmp6 / tmp10 tmp13 = tmp11 + tmp12 tl.store(out_ptr0 + (x5), tmp13, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ys/cysinorolh2veooyql7z67bcp5f3rjpmqzw44sflecmhoataxxzx.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_13,), kwargs = {}) # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%relu, 0), kwargs = {}) triton_poi_fused_relu_threshold_backward_5 = async_compile.triton('triton_poi_fused_relu_threshold_backward_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=[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_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_relu_threshold_backward_5(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 % 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) 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/it/cit2nnovhhienhqocml6r2pskjfdxcs3ecx2wwzl4ebgrbgtzsod.py # Topologically Sorted Source Nodes: [x, x_3], Original ATen: [aten.add] # Source node to ATen node mapping: # x => add_2 # x_3 => add_5 # Graph fragment: # %add_2 : [num_users=4] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_2, %view_11), kwargs = {}) # %add_5 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add_2, %view_15), kwargs = {}) triton_poi_fused_add_6 = async_compile.triton('triton_poi_fused_add_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: '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_6', '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_add_6(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK : tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex % 16 x0 = xindex % 4 x2 = (xindex // 16) x4 = xindex tmp0 = tl.load(in_ptr0 + (x3), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x0 + (4*x2)), xmask, eviction_policy='evict_last') tmp3 = tl.load(in_out_ptr0 + (x4), xmask) tmp4 = tl.load(in_ptr2 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tmp2 + tmp5 tl.store(in_out_ptr0 + (x4), 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 = args args.clear() assert_size_stride(primals_1, (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, )) 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, )) assert_size_stride(primals_10, (4, 4), (4, 1)) assert_size_stride(primals_11, (4, 4), (4, 1)) assert_size_stride(primals_12, (4, ), (1, )) assert_size_stride(primals_13, (4, ), (1, )) assert_size_stride(primals_14, (4, ), (1, )) assert_size_stride(primals_15, (512, 4), (4, 1)) assert_size_stride(primals_16, (512, ), (1, )) assert_size_stride(primals_17, (4, 512), (512, 1)) assert_size_stride(primals_18, (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: [mean, sub, mul, std, add, truediv, norm], Original ATen: [aten.mean, aten.sub, aten.mul, aten.std, aten.add, aten.div] stream0 = get_raw_stream(0) triton_poi_fused_add_div_mean_mul_std_sub_0.run(primals_1, primals_2, primals_3, buf0, 16, grid=grid(16), stream=stream0) del primals_1 del primals_3 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf0, reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), out=buf1) buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(buf0, reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf2) buf3 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_2], Original ATen: [aten.addmm] extern_kernels.addmm(primals_9, buf0, reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_9 buf4 = reinterpret_tensor(buf2, (4, 4, 1, 1), (4, 1, 16, 16), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] triton_poi_fused_1.run(buf4, primals_7, 16, grid=grid(16), stream=stream0) del primals_7 buf5 = reinterpret_tensor(buf1, (4, 4, 1, 1), (4, 1, 16, 16), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] triton_poi_fused_1.run(buf5, primals_5, 16, grid=grid(16), stream=stream0) del primals_5 buf6 = empty_strided_cuda((16, 1, 1), (1, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.bmm(reinterpret_tensor(buf4, (16, 1, 1), (1, 0, 0), 0), reinterpret_tensor(buf5, (16, 1, 1), (1, 0, 0), 0), out=buf6) buf7 = reinterpret_tensor(buf6, (4, 4, 1, 1), (4, 1, 1, 1), 0); del buf6 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(buf7, 16, grid=grid(16), stream=stream0) buf8 = empty_strided_cuda((16, 1, 1), (1, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.bmm(reinterpret_tensor(buf7, (16, 1, 1), (1, 1, 1), 0), reinterpret_tensor(buf3, (16, 1, 1), (1, 1, 1), 0), out=buf8) buf9 = empty_strided_cuda((4, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [output_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_12, reinterpret_tensor(buf8, (4, 4), (4, 1), 0), reinterpret_tensor(primals_11, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf9) del primals_12 buf10 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) buf11 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) buf12 = buf11; del buf11 # reuse # Topologically Sorted Source Nodes: [x, mean_1, std_1], Original ATen: [aten.add, aten.mean, aten.std] triton_poi_fused_add_mean_std_3.run(buf12, primals_2, buf9, buf10, 16, grid=grid(16), stream=stream0) buf13 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x, mean_1, sub_1, mul_1, std_1, add_3, truediv_2, norm_1], Original ATen: [aten.add, aten.mean, aten.sub, aten.mul, aten.std, aten.div] triton_poi_fused_add_div_mean_mul_std_sub_4.run(primals_13, primals_2, buf9, buf10, buf12, primals_14, buf13, 64, grid=grid(64), stream=stream0) del buf10 del buf12 del primals_14 buf14 = empty_strided_cuda((16, 512), (512, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf13, (16, 4), (4, 1), 0), reinterpret_tensor(primals_15, (4, 512), (1, 4), 0), out=buf14) buf15 = reinterpret_tensor(buf14, (4, 4, 512), (2048, 512, 1), 0); del buf14 # reuse buf18 = empty_strided_cuda((4, 4, 512), (2048, 512, 1), torch.bool) # Topologically Sorted Source Nodes: [relu], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_5.run(buf15, primals_16, buf18, 8192, grid=grid(8192), stream=stream0) del primals_16 buf16 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf15, (16, 512), (512, 1), 0), reinterpret_tensor(primals_17, (512, 4), (1, 512), 0), out=buf16) buf17 = reinterpret_tensor(buf16, (4, 4, 4), (16, 4, 1), 0); del buf16 # reuse # Topologically Sorted Source Nodes: [x, x_3], Original ATen: [aten.add] triton_poi_fused_add_6.run(buf17, primals_2, buf9, primals_18, 64, grid=grid(64), stream=stream0) del primals_18 return (buf17, primals_2, primals_13, buf0, buf7, reinterpret_tensor(buf3, (16, 1, 1), (1, 1, 4), 0), reinterpret_tensor(buf4, (16, 1, 1), (1, 1, 4), 0), reinterpret_tensor(buf5, (16, 1, 1), (1, 4, 1), 0), reinterpret_tensor(buf8, (4, 4), (4, 1), 0), buf9, reinterpret_tensor(buf13, (16, 4), (4, 1), 0), reinterpret_tensor(buf15, (16, 512), (512, 1), 0), primals_17, buf18, primals_15, primals_11, 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, ), (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) 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) primals_10 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_14 = rand_strided((4, ), (1, ), device='cuda:0', dtype=torch.float32) primals_15 = rand_strided((512, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_16 = rand_strided((512, ), (1, ), device='cuda:0', dtype=torch.float32) primals_17 = rand_strided((4, 512), (512, 1), device='cuda:0', dtype=torch.float32) primals_18 = 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, primals_14, primals_15, primals_16, primals_17, primals_18]) 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 import torch.nn.functional as F def attention(q, k, v, d_k, mask=None, dropout=None): scores = torch.matmul(q, k.transpose(-2, -1)) / math.sqrt(d_k) if mask is not None: mask = mask.unsqueeze(1) scores = F.softmax(scores, dim=-1) if dropout is not None: scores = dropout(scores) output = torch.matmul(scores, v) return output class FeedForward(nn.Module): def __init__(self, d_model, d_ff=512, dropout=0.5): super().__init__() self.linear_1 = nn.Linear(d_model, d_ff) self.dropout = nn.Dropout(dropout) self.linear_2 = nn.Linear(d_ff, d_model) def forward(self, x): x = self.dropout(F.relu(self.linear_1(x))) x = self.linear_2(x) return x class MultiHeadAttention(nn.Module): def __init__(self, heads, d_model, dropout=0.5): super().__init__() self.d_model = d_model self.d_k = d_model // heads self.h = heads self.q_linear = nn.Linear(d_model, d_model) self.v_linear = nn.Linear(d_model, d_model) self.k_linear = nn.Linear(d_model, d_model) self.dropout = nn.Dropout(dropout) self.out = nn.Linear(d_model, d_model) def forward(self, q, k, v, mask=None): bs = q.size(0) k = self.k_linear(k).view(bs, -1, self.h, self.d_k) q = self.q_linear(q).view(bs, -1, self.h, self.d_k) v = self.v_linear(v).view(bs, -1, self.h, self.d_k) k = k.transpose(1, 2) q = q.transpose(1, 2) v = v.transpose(1, 2) scores = attention(q, k, v, self.d_k, mask, self.dropout) concat = scores.transpose(1, 2).contiguous().view(bs, -1, self.d_model) output = self.out(concat) return output class Norm(nn.Module): def __init__(self, d_model, eps=1e-06): super().__init__() self.size = d_model self.alpha = nn.Parameter(torch.ones(self.size)) self.bias = nn.Parameter(torch.zeros(self.size)) self.eps = eps def forward(self, x): norm = self.alpha * (x - x.mean(dim=-1, keepdim=True)) / (x.std(dim =-1, keepdim=True) + self.eps) + self.bias return norm class EncoderLayer(nn.Module): def __init__(self, d_model, heads, dropout=0.5): super().__init__() self.norm_1 = Norm(d_model) self.norm_2 = Norm(d_model) self.attn = MultiHeadAttention(heads, d_model, dropout) self.ff = FeedForward(d_model) self.dropout_1 = nn.Dropout(dropout) self.dropout_2 = nn.Dropout(dropout) def forward(self, x, mask): x2 = self.norm_1(x) x = x + self.dropout_1(self.attn(x2, x2, x2, mask)) x2 = self.norm_2(x) x = x + self.dropout_2(self.ff(x2)) return x def get_inputs(): return [torch.rand([4, 4]), torch.rand([4, 4])] def get_init_inputs(): return [[], {'d_model': 4, 'heads': 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 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_add_div_mean_mul_std_sub_0(in_ptr0, in_ptr1, in_ptr2, 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 % 4 x2 = xindex x1 = xindex // 4 tmp0 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + x2, xmask) tmp2 = tl.load(in_ptr1 + 4 * x1, xmask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr1 + (1 + 4 * x1), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr1 + (2 + 4 * x1), xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr1 + (3 + 4 * x1), xmask, eviction_policy='evict_last') tmp30 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp4 = tmp2 + tmp3 tmp6 = tmp4 + tmp5 tmp8 = tmp6 + tmp7 tmp9 = 4.0 tmp10 = tmp8 / tmp9 tmp11 = tmp1 - tmp10 tmp12 = tmp0 * tmp11 tmp13 = tmp2 - tmp10 tmp14 = tmp13 * tmp13 tmp15 = tmp3 - tmp10 tmp16 = tmp15 * tmp15 tmp17 = tmp14 + tmp16 tmp18 = tmp5 - tmp10 tmp19 = tmp18 * tmp18 tmp20 = tmp17 + tmp19 tmp21 = tmp7 - tmp10 tmp22 = tmp21 * tmp21 tmp23 = tmp20 + tmp22 tmp24 = 3.0 tmp25 = tmp23 / tmp24 tmp26 = libdevice.sqrt(tmp25) tmp27 = 1e-06 tmp28 = tmp26 + tmp27 tmp29 = tmp12 / tmp28 tmp31 = tmp29 + tmp30 tl.store(out_ptr0 + x2, tmp31, xmask) @triton.jit def triton_poi_fused_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 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 = 1.0 tmp4 = tmp2 * tmp3 tl.store(in_out_ptr0 + x2, tmp4, xmask) @triton.jit def triton_poi_fused_2(in_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_out_ptr0 + x0, xmask) tmp1 = float('-inf') tmp2 = tmp0 == tmp1 tmp3 = tmp2 == 0 tmp4 = tmp3.to(tl.int64) tmp5 = tmp4 != 0 tmp6 = tmp5 == 0 tmp7 = tmp0 - tmp0 tmp8 = tl_math.exp(tmp7) tmp9 = tmp8 / tmp8 tmp10 = 0.0 tmp11 = tl.where(tmp6, tmp10, tmp9) tl.store(in_out_ptr0 + x0, tmp11, xmask) @triton.jit def triton_poi_fused_add_mean_std_3(in_out_ptr0, 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 % 4 x1 = xindex // 4 x2 = xindex tmp0 = tl.load(in_ptr0 + 4 * x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + 4 * x1, 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 * x1), 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 * x1), 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 * x1), 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 = 3.0 tmp29 = tmp27 / tmp28 tl.store(out_ptr0 + x2, tmp16, xmask) tl.store(in_out_ptr0 + x2, tmp29, xmask) @triton.jit def triton_poi_fused_add_div_mean_mul_std_sub_4(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 x0 = xindex % 4 x3 = xindex % 16 x2 = xindex // 16 x4 = xindex // 4 x5 = xindex tmp0 = tl.load(in_ptr0 + x0, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + x3, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + (x0 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp4 = tl.load(in_ptr3 + x4, xmask, eviction_policy='evict_last') tmp7 = tl.load(in_ptr4 + x4, xmask, eviction_policy='evict_last') tmp12 = tl.load(in_ptr5 + x0, xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp5 = tmp3 - tmp4 tmp6 = tmp0 * tmp5 tmp8 = libdevice.sqrt(tmp7) tmp9 = 1e-06 tmp10 = tmp8 + tmp9 tmp11 = tmp6 / tmp10 tmp13 = tmp11 + tmp12 tl.store(out_ptr0 + x5, tmp13, xmask) @triton.jit def triton_poi_fused_relu_threshold_backward_5(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 % 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) 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_add_6(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, xnumel, XBLOCK: tl.constexpr): xnumel = 64 xoffset = tl.program_id(0) * XBLOCK xindex = xoffset + tl.arange(0, XBLOCK)[:] xmask = xindex < xnumel x3 = xindex % 16 x0 = xindex % 4 x2 = xindex // 16 x4 = xindex tmp0 = tl.load(in_ptr0 + x3, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x0 + 4 * x2), xmask, eviction_policy='evict_last' ) tmp3 = tl.load(in_out_ptr0 + x4, xmask) tmp4 = tl.load(in_ptr2 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp5 = tmp3 + tmp4 tmp6 = tmp2 + tmp5 tl.store(in_out_ptr0 + x4, 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 ) = args args.clear() assert_size_stride(primals_1, (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,)) 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,)) assert_size_stride(primals_10, (4, 4), (4, 1)) assert_size_stride(primals_11, (4, 4), (4, 1)) assert_size_stride(primals_12, (4,), (1,)) assert_size_stride(primals_13, (4,), (1,)) assert_size_stride(primals_14, (4,), (1,)) assert_size_stride(primals_15, (512, 4), (4, 1)) assert_size_stride(primals_16, (512,), (1,)) assert_size_stride(primals_17, (4, 512), (512, 1)) assert_size_stride(primals_18, (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_add_div_mean_mul_std_sub_0[grid(16)](primals_1, primals_2, primals_3, buf0, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_1 del primals_3 buf1 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(buf0, reinterpret_tensor(primals_4, (4, 4), (1, 4 ), 0), out=buf1) buf2 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.mm(buf0, reinterpret_tensor(primals_6, (4, 4), (1, 4 ), 0), out=buf2) buf3 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_9, buf0, reinterpret_tensor(primals_8, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf3) del primals_9 buf4 = reinterpret_tensor(buf2, (4, 4, 1, 1), (4, 1, 16, 16), 0) del buf2 triton_poi_fused_1[grid(16)](buf4, primals_7, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_7 buf5 = reinterpret_tensor(buf1, (4, 4, 1, 1), (4, 1, 16, 16), 0) del buf1 triton_poi_fused_1[grid(16)](buf5, primals_5, 16, XBLOCK=16, num_warps=1, num_stages=1) del primals_5 buf6 = empty_strided_cuda((16, 1, 1), (1, 1, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf4, (16, 1, 1), (1, 0, 0), 0), reinterpret_tensor(buf5, (16, 1, 1), (1, 0, 0), 0), out=buf6) buf7 = reinterpret_tensor(buf6, (4, 4, 1, 1), (4, 1, 1, 1), 0) del buf6 triton_poi_fused_2[grid(16)](buf7, 16, XBLOCK=16, num_warps=1, num_stages=1) buf8 = empty_strided_cuda((16, 1, 1), (1, 1, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf7, (16, 1, 1), (1, 1, 1), 0), reinterpret_tensor(buf3, (16, 1, 1), (1, 1, 1), 0), out=buf8) buf9 = empty_strided_cuda((4, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_12, reinterpret_tensor(buf8, (4, 4), ( 4, 1), 0), reinterpret_tensor(primals_11, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf9) del primals_12 buf10 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) buf11 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) buf12 = buf11 del buf11 triton_poi_fused_add_mean_std_3[grid(16)](buf12, primals_2, buf9, buf10, 16, XBLOCK=16, num_warps=1, num_stages=1) buf13 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_add_div_mean_mul_std_sub_4[grid(64)](primals_13, primals_2, buf9, buf10, buf12, primals_14, buf13, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf10 del buf12 del primals_14 buf14 = empty_strided_cuda((16, 512), (512, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf13, (16, 4), (4, 1), 0), reinterpret_tensor(primals_15, (4, 512), (1, 4), 0), out=buf14) buf15 = reinterpret_tensor(buf14, (4, 4, 512), (2048, 512, 1), 0) del buf14 buf18 = empty_strided_cuda((4, 4, 512), (2048, 512, 1), torch.bool) triton_poi_fused_relu_threshold_backward_5[grid(8192)](buf15, primals_16, buf18, 8192, XBLOCK=128, num_warps=4, num_stages=1) del primals_16 buf16 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf15, (16, 512), (512, 1), 0), reinterpret_tensor(primals_17, (512, 4), (1, 512), 0), out=buf16) buf17 = reinterpret_tensor(buf16, (4, 4, 4), (16, 4, 1), 0) del buf16 triton_poi_fused_add_6[grid(64)](buf17, primals_2, buf9, primals_18, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_18 return (buf17, primals_2, primals_13, buf0, buf7, reinterpret_tensor( buf3, (16, 1, 1), (1, 1, 4), 0), reinterpret_tensor(buf4, (16, 1, 1 ), (1, 1, 4), 0), reinterpret_tensor(buf5, (16, 1, 1), (1, 4, 1), 0 ), reinterpret_tensor(buf8, (4, 4), (4, 1), 0), buf9, reinterpret_tensor(buf13, (16, 4), (4, 1), 0), reinterpret_tensor( buf15, (16, 512), (512, 1), 0), primals_17, buf18, primals_15, primals_11, primals_8, primals_6, primals_4) def attention(q, k, v, d_k, mask=None, dropout=None): scores = torch.matmul(q, k.transpose(-2, -1)) / math.sqrt(d_k) if mask is not None: mask = mask.unsqueeze(1) scores = F.softmax(scores, dim=-1) if dropout is not None: scores = dropout(scores) output = torch.matmul(scores, v) return output class FeedForward(nn.Module): def __init__(self, d_model, d_ff=512, dropout=0.5): super().__init__() self.linear_1 = nn.Linear(d_model, d_ff) self.dropout = nn.Dropout(dropout) self.linear_2 = nn.Linear(d_ff, d_model) def forward(self, x): x = self.dropout(F.relu(self.linear_1(x))) x = self.linear_2(x) return x class MultiHeadAttention(nn.Module): def __init__(self, heads, d_model, dropout=0.5): super().__init__() self.d_model = d_model self.d_k = d_model // heads self.h = heads self.q_linear = nn.Linear(d_model, d_model) self.v_linear = nn.Linear(d_model, d_model) self.k_linear = nn.Linear(d_model, d_model) self.dropout = nn.Dropout(dropout) self.out = nn.Linear(d_model, d_model) def forward(self, q, k, v, mask=None): bs = q.size(0) k = self.k_linear(k).view(bs, -1, self.h, self.d_k) q = self.q_linear(q).view(bs, -1, self.h, self.d_k) v = self.v_linear(v).view(bs, -1, self.h, self.d_k) k = k.transpose(1, 2) q = q.transpose(1, 2) v = v.transpose(1, 2) scores = attention(q, k, v, self.d_k, mask, self.dropout) concat = scores.transpose(1, 2).contiguous().view(bs, -1, self.d_model) output = self.out(concat) return output class Norm(nn.Module): def __init__(self, d_model, eps=1e-06): super().__init__() self.size = d_model self.alpha = nn.Parameter(torch.ones(self.size)) self.bias = nn.Parameter(torch.zeros(self.size)) self.eps = eps def forward(self, x): norm = self.alpha * (x - x.mean(dim=-1, keepdim=True)) / (x.std(dim =-1, keepdim=True) + self.eps) + self.bias return norm class EncoderLayerNew(nn.Module): def __init__(self, d_model, heads, dropout=0.5): super().__init__() self.norm_1 = Norm(d_model) self.norm_2 = Norm(d_model) self.attn = MultiHeadAttention(heads, d_model, dropout) self.ff = FeedForward(d_model) self.dropout_1 = nn.Dropout(dropout) self.dropout_2 = nn.Dropout(dropout) def forward(self, input_0, input_1): primals_1 = self.norm_1.alpha primals_3 = self.norm_1.bias primals_5 = self.norm_2.alpha primals_7 = self.norm_2.bias primals_2 = self.attn.q_linear.weight primals_9 = self.attn.q_linear.bias primals_4 = self.attn.v_linear.weight primals_12 = self.attn.v_linear.bias primals_6 = self.attn.k_linear.weight primals_13 = self.attn.k_linear.bias primals_8 = self.attn.out.weight primals_14 = self.attn.out.bias primals_15 = self.ff.linear_1.weight primals_16 = self.ff.linear_1.bias primals_17 = self.ff.linear_2.weight primals_18 = self.ff.linear_2.bias primals_10 = input_0 primals_11 = 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, primals_16, primals_17, primals_18]) return output[0]	MadanMl/PyTorch-Transformer-for-RUL-Prediction	EncoderLayer	false	8,531	[ "Apache-2.0" ]	25	5bf0a4739abdecbbc88118ea413393997bdc1e24	https://github.com/MadanMl/PyTorch-Transformer-for-RUL-Prediction/tree/5bf0a4739abdecbbc88118ea413393997bdc1e24
MultiHeadedAttention	# 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/lh/clh4qkas6kymmge5sjkrotgaojywmpy5pjnwzrqo6ugbfmgmcf4n.py # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] # Source node to ATen node mapping: # matmul => 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=[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_clone_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_clone_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 tl.store(out_ptr0 + (x2 + (4y3)), tmp2, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/lx/clxvmaq2so334cs7arp2yar2n4jyrxz5dh3tflvi43q2u6twlce7.py # Topologically Sorted Source Nodes: [mask], Original ATen: [aten.eq] # Source node to ATen node mapping: # mask => eq # Graph fragment: # %eq : [num_users=3] = call_function[target=torch.ops.aten.eq.Scalar](args = (%unsqueeze, 0), kwargs = {}) triton_poi_fused_eq_1 = async_compile.triton('triton_poi_fused_eq_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: '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_eq_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_eq_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 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/bl/cbl54bro2hrazatjqasyzvsv7rnlrsjunwv2gfypegwpmyxrpl75.py # Topologically Sorted Source Nodes: [scores, scores_1, softmax], Original ATen: [aten.div, aten.masked_fill, aten._softmax] # Source node to ATen node mapping: # scores => div # scores_1 => full_default, where # softmax => amax, exp, sub, sum_1 # Graph fragment: # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%view_11, 1.0), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], -inf), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default, %div), kwargs = {}) # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where, %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 = {}) triton_poi_fused__softmax_div_masked_fill_2 = async_compile.triton('triton_poi_fused__softmax_div_masked_fill_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: 'i1', 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__softmax_div_masked_fill_2', '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__softmax_div_masked_fill_2(in_ptr0, in_ptr1, 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 x2 = (xindex // 16) x3 = xindex tmp0 = tl.load(in_ptr0 + ((4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + (4x3), xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + (4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp7 = tl.load(in_ptr1 + (1 + (4x3)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (2 + (4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp12 = tl.load(in_ptr1 + (2 + (4x3)), xmask, eviction_policy='evict_last') tmp16 = tl.load(in_ptr0 + (3 + (4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp17 = tl.load(in_ptr1 + (3 + (4x3)), xmask, eviction_policy='evict_last') tmp2 = 1.0 tmp3 = tmp1 * tmp2 tmp4 = float("-inf") tmp5 = tl.where(tmp0, tmp4, tmp3) tmp8 = tmp7 * tmp2 tmp9 = tl.where(tmp6, tmp4, tmp8) tmp10 = triton_helpers.maximum(tmp5, tmp9) tmp13 = tmp12 * tmp2 tmp14 = tl.where(tmp11, tmp4, tmp13) tmp15 = triton_helpers.maximum(tmp10, tmp14) tmp18 = tmp17 * tmp2 tmp19 = tl.where(tmp16, tmp4, tmp18) tmp20 = triton_helpers.maximum(tmp15, tmp19) tmp21 = tmp5 - tmp20 tmp22 = tl_math.exp(tmp21) tmp23 = tmp9 - tmp20 tmp24 = tl_math.exp(tmp23) tmp25 = tmp22 + tmp24 tmp26 = tmp14 - tmp20 tmp27 = tl_math.exp(tmp26) tmp28 = tmp25 + tmp27 tmp29 = tmp19 - tmp20 tmp30 = tl_math.exp(tmp29) tmp31 = tmp28 + tmp30 tl.store(out_ptr0 + (x3), tmp20, xmask) tl.store(out_ptr1 + (x3), tmp31, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/5o/c5o5ky22knzcloxkt2p5jazhcu22rujnbbiqi2e2qajcbxlr535y.py # Topologically Sorted Source Nodes: [scores, scores_1, softmax, attn], Original ATen: [aten.div, aten.masked_fill, aten._softmax] # Source node to ATen node mapping: # attn => full_default_1, where_1 # scores => div # scores_1 => full_default, where # softmax => amax, div_1, exp, sub # Graph fragment: # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%view_11, 1.0), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], -inf), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default, %div), kwargs = {}) # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %div_1 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) # %full_default_1 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_1 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default_1, %div_1), kwargs = {}) triton_poi_fused__softmax_div_masked_fill_3 = async_compile.triton('triton_poi_fused__softmax_div_masked_fill_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: 'i1', 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__softmax_div_masked_fill_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__softmax_div_masked_fill_3(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 x3 = (xindex // 64) x4 = xindex % 16 x5 = xindex x6 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x4 + (16x3)), xmask, eviction_policy='evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + (x5), xmask) tmp6 = tl.load(in_ptr2 + (x6), xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr3 + (x6), xmask, eviction_policy='evict_last') tmp2 = 1.0 tmp3 = tmp1 tmp2 tmp4 = float("-inf") tmp5 = tl.where(tmp0, tmp4, tmp3) tmp7 = tmp5 - tmp6 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 / tmp9 tmp11 = 0.0 tmp12 = tl.where(tmp0, tmp11, tmp10) tl.store(out_ptr0 + (x5), tmp12, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/5k/c5kufnc7mciff7by75wm2btl7xamphqljghinmvgmksxfleox4tp.py # Topologically Sorted Source Nodes: [contiguous], Original ATen: [aten.clone] # Source node to ATen node mapping: # contiguous => 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 + (4*y3)), tmp0, 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, primals_8, primals_9, primals_10, primals_11, primals_12 = 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, ), (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), (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), (16, 4, 1)) assert_size_stride(primals_10, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_11, (4, 4), (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_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_6, (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_9, (16, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf2) del primals_7 buf3 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(buf0, primals_3, buf3, 16, 4, grid=grid(16, 4), stream=stream0) del primals_3 buf4 = reinterpret_tensor(buf0, (4, 4, 1, 4), (16, 4, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [matmul], Original ATen: [aten.clone] triton_poi_fused_clone_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: [matmul], Original ATen: [aten.bmm] 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 = empty_strided_cuda((4, 1, 4, 4), (16, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [mask], Original ATen: [aten.eq] triton_poi_fused_eq_1.run(primals_10, buf6, 64, grid=grid(64), stream=stream0) del primals_10 buf7 = reinterpret_tensor(buf1, (4, 4, 4, 1), (16, 4, 1, 64), 0); del buf1 # reuse buf8 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) # Topologically Sorted Source Nodes: [scores, scores_1, softmax], Original ATen: [aten.div, aten.masked_fill, aten._softmax] triton_poi_fused__softmax_div_masked_fill_2.run(buf6, buf5, buf7, buf8, 64, grid=grid(64), stream=stream0) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [scores, scores_1, softmax, attn], Original ATen: [aten.div, aten.masked_fill, aten._softmax] triton_poi_fused__softmax_div_masked_fill_3.run(buf6, buf5, buf7, buf8, buf9, 256, grid=grid(256), stream=stream0) buf10 = reinterpret_tensor(buf8, (4, 4, 4, 1), (16, 4, 1, 1), 0); del buf8 # reuse # Topologically Sorted Source Nodes: [x], Original ATen: [aten.clone] triton_poi_fused_clone_0.run(buf2, primals_8, buf10, 16, 4, grid=grid(16, 4), stream=stream0) del primals_8 buf11 = reinterpret_tensor(buf2, (16, 4, 1), (4, 1, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [x], Original ATen: [aten.bmm] 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(buf7, (4, 4, 4, 1), (16, 4, 1, 1), 0); del buf7 # reuse # Topologically Sorted Source Nodes: [contiguous], 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: [linear_3], Original ATen: [aten.addmm] extern_kernels.addmm(primals_12, reinterpret_tensor(buf12, (16, 4), (4, 1), 0), reinterpret_tensor(primals_11, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf13) del primals_12 return (reinterpret_tensor(buf13, (4, 4, 4), (16, 4, 1), 0), reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_6, (16, 4), (4, 1), 0), reinterpret_tensor(primals_9, (16, 4), (4, 1), 0), buf5, buf6, reinterpret_tensor(buf12, (16, 4), (4, 1), 0), primals_11, reinterpret_tensor(buf9, (16, 4, 4), (16, 1, 4), 0), 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), ) 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, ), (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), (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), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((4, 4), (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 from typing import Optional from typing import Tuple from torch import nn class MultiHeadedAttention(nn.Module): """Multi-Head Attention layer. Args: n_head (int): The number of heads. n_feat (int): The number of features. dropout_rate (float): Dropout rate. """ def __init__(self, n_head: 'int', n_feat: 'int', dropout_rate: 'float'): """Construct an MultiHeadedAttention object.""" super().__init__() assert n_feat % n_head == 0 self.d_k = n_feat // n_head self.h = n_head self.linear_q = nn.Linear(n_feat, n_feat) self.linear_k = nn.Linear(n_feat, n_feat) self.linear_v = nn.Linear(n_feat, n_feat) self.linear_out = nn.Linear(n_feat, n_feat) self.dropout = nn.Dropout(p=dropout_rate) def forward_qkv(self, query: 'torch.Tensor', key: 'torch.Tensor', value: 'torch.Tensor') ->Tuple[torch.Tensor, torch.Tensor, torch.Tensor]: """Transform query, key and value. Args: query (torch.Tensor): Query tensor (#batch, time1, size). key (torch.Tensor): Key tensor (#batch, time2, size). value (torch.Tensor): Value tensor (#batch, time2, size). Returns: torch.Tensor: Transformed query tensor, size (#batch, n_head, time1, d_k). torch.Tensor: Transformed key tensor, size (#batch, n_head, time2, d_k). torch.Tensor: Transformed value tensor, size (#batch, n_head, time2, d_k). """ n_batch = query.size(0) q = self.linear_q(query).view(n_batch, -1, self.h, self.d_k) k = self.linear_k(key).view(n_batch, -1, self.h, self.d_k) v = self.linear_v(value).view(n_batch, -1, self.h, self.d_k) q = q.transpose(1, 2) k = k.transpose(1, 2) v = v.transpose(1, 2) return q, k, v def forward_attention(self, value: 'torch.Tensor', scores: 'torch.Tensor', mask: 'Optional[torch.Tensor]') ->torch.Tensor: """Compute attention context vector. Args: value (torch.Tensor): Transformed value, size (#batch, n_head, time2, d_k). scores (torch.Tensor): Attention score, size (#batch, n_head, time1, time2). mask (torch.Tensor): Mask, size (#batch, 1, time2) or (#batch, time1, time2). Returns: torch.Tensor: Transformed value (#batch, time1, d_model) weighted by the attention score (#batch, time1, time2). """ n_batch = value.size(0) if mask is not None: mask = mask.unsqueeze(1).eq(0) scores = scores.masked_fill(mask, -float('inf')) attn = torch.softmax(scores, dim=-1).masked_fill(mask, 0.0) else: attn = torch.softmax(scores, dim=-1) p_attn = self.dropout(attn) x = torch.matmul(p_attn, value) x = x.transpose(1, 2).contiguous().view(n_batch, -1, self.h * self.d_k) return self.linear_out(x) def forward(self, query: 'torch.Tensor', key: 'torch.Tensor', value: 'torch.Tensor', mask: 'Optional[torch.Tensor]', pos_emb: 'torch.Tensor'=torch.empty(0)) ->torch.Tensor: """Compute scaled dot product attention. Args: query (torch.Tensor): Query tensor (#batch, time1, size). key (torch.Tensor): Key tensor (#batch, time2, size). value (torch.Tensor): Value tensor (#batch, time2, size). mask (torch.Tensor): Mask tensor (#batch, 1, time2) or (#batch, time1, time2). 1.When applying cross attention between decoder and encoder, the batch padding mask for input is in (#batch, 1, T) shape. 2.When applying self attention of encoder, the mask is in (#batch, T, T) shape. 3.When applying self attention of decoder, the mask is in (#batch, L, L) shape. 4.If the different position in decoder see different block of the encoder, such as Mocha, the passed in mask could be in (#batch, L, T) shape. But there is no such case in current Wenet. Returns: torch.Tensor: Output tensor (#batch, time1, d_model). """ q, k, v = self.forward_qkv(query, key, value) scores = torch.matmul(q, k.transpose(-2, -1)) / math.sqrt(self.d_k) return self.forward_attention(v, scores, mask) def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'n_head': 4, 'n_feat': 4, 'dropout_rate': 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._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math from typing import Optional from typing import Tuple 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, 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_eq_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 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_div_masked_fill_2(in_ptr0, in_ptr1, 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 x2 = xindex // 16 x3 = xindex tmp0 = tl.load(in_ptr0 + (4 * x0 + 16 * x2), xmask, eviction_policy= 'evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + 4 * x3, xmask, eviction_policy='evict_last') tmp6 = tl.load(in_ptr0 + (1 + 4 * x0 + 16 * x2), xmask, eviction_policy ='evict_last').to(tl.int1) tmp7 = tl.load(in_ptr1 + (1 + 4 * x3), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (2 + 4 * x0 + 16 * x2), xmask, eviction_policy='evict_last').to(tl.int1) tmp12 = tl.load(in_ptr1 + (2 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp16 = tl.load(in_ptr0 + (3 + 4 * x0 + 16 * x2), xmask, eviction_policy='evict_last').to(tl.int1) tmp17 = tl.load(in_ptr1 + (3 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp2 = 1.0 tmp3 = tmp1 * tmp2 tmp4 = float('-inf') tmp5 = tl.where(tmp0, tmp4, tmp3) tmp8 = tmp7 * tmp2 tmp9 = tl.where(tmp6, tmp4, tmp8) tmp10 = triton_helpers.maximum(tmp5, tmp9) tmp13 = tmp12 * tmp2 tmp14 = tl.where(tmp11, tmp4, tmp13) tmp15 = triton_helpers.maximum(tmp10, tmp14) tmp18 = tmp17 * tmp2 tmp19 = tl.where(tmp16, tmp4, tmp18) tmp20 = triton_helpers.maximum(tmp15, tmp19) tmp21 = tmp5 - tmp20 tmp22 = tl_math.exp(tmp21) tmp23 = tmp9 - tmp20 tmp24 = tl_math.exp(tmp23) tmp25 = tmp22 + tmp24 tmp26 = tmp14 - tmp20 tmp27 = tl_math.exp(tmp26) tmp28 = tmp25 + tmp27 tmp29 = tmp19 - tmp20 tmp30 = tl_math.exp(tmp29) tmp31 = tmp28 + tmp30 tl.store(out_ptr0 + x3, tmp20, xmask) tl.store(out_ptr1 + x3, tmp31, xmask) @triton.jit def triton_poi_fused__softmax_div_masked_fill_3(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 x3 = xindex // 64 x4 = xindex % 16 x5 = xindex x6 = xindex // 4 tmp0 = tl.load(in_ptr0 + (x4 + 16 * x3), xmask, eviction_policy= 'evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + x5, xmask) tmp6 = tl.load(in_ptr2 + x6, xmask, eviction_policy='evict_last') tmp9 = tl.load(in_ptr3 + x6, xmask, eviction_policy='evict_last') tmp2 = 1.0 tmp3 = tmp1 * tmp2 tmp4 = float('-inf') tmp5 = tl.where(tmp0, tmp4, tmp3) tmp7 = tmp5 - tmp6 tmp8 = tl_math.exp(tmp7) tmp10 = tmp8 / tmp9 tmp11 = 0.0 tmp12 = tl.where(tmp0, tmp11, tmp10) tl.store(out_ptr0 + x5, tmp12, xmask) @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) 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), (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,)) assert_size_stride(primals_6, (4, 4, 4), (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), (16, 4, 1)) assert_size_stride(primals_10, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_11, (4, 4), (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_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_6, (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_9, (16, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf2) del primals_7 buf3 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(16, 4)](buf0, primals_3, buf3, 16, 4, XBLOCK=4, YBLOCK=8, num_warps=1, num_stages=1) del primals_3 buf4 = reinterpret_tensor(buf0, (4, 4, 1, 4), (16, 4, 4, 1), 0) del buf0 triton_poi_fused_clone_0[grid(16, 4)](buf1, primals_5, buf4, 16, 4, XBLOCK=4, YBLOCK=8, 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 = empty_strided_cuda((4, 1, 4, 4), (16, 16, 4, 1), torch.bool) triton_poi_fused_eq_1[grid(64)](primals_10, buf6, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_10 buf7 = reinterpret_tensor(buf1, (4, 4, 4, 1), (16, 4, 1, 64), 0) del buf1 buf8 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) triton_poi_fused__softmax_div_masked_fill_2[grid(64)](buf6, buf5, buf7, buf8, 64, XBLOCK=64, num_warps=1, num_stages=1) buf9 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused__softmax_div_masked_fill_3[grid(256)](buf6, buf5, buf7, buf8, buf9, 256, XBLOCK=128, num_warps=4, num_stages=1) buf10 = reinterpret_tensor(buf8, (4, 4, 4, 1), (16, 4, 1, 1), 0) del buf8 triton_poi_fused_clone_0[grid(16, 4)](buf2, primals_8, buf10, 16, 4, XBLOCK=4, YBLOCK=8, num_warps=1, num_stages=1) del primals_8 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(buf7, (4, 4, 4, 1), (16, 4, 1, 1), 0) del buf7 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_12, reinterpret_tensor(buf12, (16, 4), (4, 1), 0), reinterpret_tensor(primals_11, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf13) del primals_12 return reinterpret_tensor(buf13, (4, 4, 4), (16, 4, 1), 0 ), reinterpret_tensor(primals_1, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_6, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_9, (16, 4), (4, 1), 0 ), buf5, buf6, reinterpret_tensor(buf12, (16, 4), (4, 1), 0 ), primals_11, reinterpret_tensor(buf9, (16, 4, 4), (16, 1, 4), 0 ), 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) class MultiHeadedAttentionNew(nn.Module): """Multi-Head Attention layer. Args: n_head (int): The number of heads. n_feat (int): The number of features. dropout_rate (float): Dropout rate. """ def __init__(self, n_head: 'int', n_feat: 'int', dropout_rate: 'float'): """Construct an MultiHeadedAttention object.""" super().__init__() assert n_feat % n_head == 0 self.d_k = n_feat // n_head self.h = n_head self.linear_q = nn.Linear(n_feat, n_feat) self.linear_k = nn.Linear(n_feat, n_feat) self.linear_v = nn.Linear(n_feat, n_feat) self.linear_out = nn.Linear(n_feat, n_feat) self.dropout = nn.Dropout(p=dropout_rate) def forward_qkv(self, query: 'torch.Tensor', key: 'torch.Tensor', value: 'torch.Tensor') ->Tuple[torch.Tensor, torch.Tensor, torch.Tensor]: """Transform query, key and value. Args: query (torch.Tensor): Query tensor (#batch, time1, size). key (torch.Tensor): Key tensor (#batch, time2, size). value (torch.Tensor): Value tensor (#batch, time2, size). Returns: torch.Tensor: Transformed query tensor, size (#batch, n_head, time1, d_k). torch.Tensor: Transformed key tensor, size (#batch, n_head, time2, d_k). torch.Tensor: Transformed value tensor, size (#batch, n_head, time2, d_k). """ n_batch = query.size(0) q = self.linear_q(query).view(n_batch, -1, self.h, self.d_k) k = self.linear_k(key).view(n_batch, -1, self.h, self.d_k) v = self.linear_v(value).view(n_batch, -1, self.h, self.d_k) q = q.transpose(1, 2) k = k.transpose(1, 2) v = v.transpose(1, 2) return q, k, v def forward_attention(self, value: 'torch.Tensor', scores: 'torch.Tensor', mask: 'Optional[torch.Tensor]') ->torch.Tensor: """Compute attention context vector. Args: value (torch.Tensor): Transformed value, size (#batch, n_head, time2, d_k). scores (torch.Tensor): Attention score, size (#batch, n_head, time1, time2). mask (torch.Tensor): Mask, size (#batch, 1, time2) or (#batch, time1, time2). Returns: torch.Tensor: Transformed value (#batch, time1, d_model) weighted by the attention score (#batch, time1, time2). """ n_batch = value.size(0) if mask is not None: mask = mask.unsqueeze(1).eq(0) scores = scores.masked_fill(mask, -float('inf')) attn = torch.softmax(scores, dim=-1).masked_fill(mask, 0.0) else: attn = torch.softmax(scores, dim=-1) p_attn = self.dropout(attn) x = torch.matmul(p_attn, value) x = x.transpose(1, 2).contiguous().view(n_batch, -1, self.h * self.d_k) return self.linear_out(x) def forward(self, input_0, input_1, input_2, input_3): primals_2 = self.linear_q.weight primals_3 = self.linear_q.bias primals_4 = self.linear_k.weight primals_5 = self.linear_k.bias primals_7 = self.linear_v.weight primals_8 = self.linear_v.bias primals_11 = self.linear_out.weight primals_12 = self.linear_out.bias primals_1 = input_0 primals_6 = input_1 primals_9 = input_2 primals_10 = input_3 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]	Mashiro083/wenet-onnx	MultiHeadedAttention	false	8,532	[ "Apache-2.0" ]	18	ae8f8451d73fa9ceac6f7738194543e83959ca86	https://github.com/Mashiro083/wenet-onnx/tree/ae8f8451d73fa9ceac6f7738194543e83959ca86
SMAPE	# 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/pm/cpmipfpsni6732rgram4vcmahb7fhlf3mqnt3cejdikpf3zansuc.py # Topologically Sorted Source Nodes: [sub, abs_1, abs_2, add, abs_3, add_1, truediv, loss], Original ATen: [aten.sub, aten.abs, aten.add, aten.div, aten.mean] # Source node to ATen node mapping: # abs_1 => abs_1 # abs_2 => abs_2 # abs_3 => abs_3 # add => add # add_1 => add_1 # loss => mean # sub => sub # truediv => div # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %abs_1 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%sub,), kwargs = {}) # %abs_2 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%arg0_1,), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%abs_2, 0.01), kwargs = {}) # %abs_3 : [num_users=1] = call_function[target=torch.ops.aten.abs.default](args = (%arg1_1,), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%add, %abs_3), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%abs_1, %add_1), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%div,), 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 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = tl_math.abs(tmp0) tmp5 = 0.01 tmp6 = tmp4 + tmp5 tmp7 = tl_math.abs(tmp1) tmp8 = tmp6 + tmp7 tmp9 = tmp3 / tmp8 tmp10 = tl.broadcast_to(tmp9, [RBLOCK]) tmp12 = triton_helpers.promote_to_tensor(tl.sum(tmp10, 0)) tmp13 = 256.0 tmp14 = tmp12 / tmp13 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp14, 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, abs_1, abs_2, add, abs_3, add_1, truediv, loss], Original ATen: [aten.sub, aten.abs, aten.add, aten.div, aten.mean] stream0 = get_raw_stream(0) triton_per_fused_abs_add_div_mean_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 class SMAPE(torch.nn.Module): """Symmetric Mean Absolute error. :math:`\\frac{\|x - y\|} {\|x\| + \|y\| + \\epsilon}` Args: eps(float): small number to avoid division by 0. """ def __init__(self, eps=0.01): super(SMAPE, self).__init__() self.eps = eps def forward(self, im, ref): loss = (torch.abs(im - ref) / (self.eps + torch.abs(im.detach()) + torch.abs(ref.detach()))).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 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 = tmp0 - tmp1 tmp3 = tl_math.abs(tmp2) tmp4 = tl_math.abs(tmp0) tmp5 = 0.01 tmp6 = tmp4 + tmp5 tmp7 = tl_math.abs(tmp1) tmp8 = tmp6 + tmp7 tmp9 = tmp3 / tmp8 tmp10 = tl.broadcast_to(tmp9, [RBLOCK]) tmp12 = triton_helpers.promote_to_tensor(tl.sum(tmp10, 0)) tmp13 = 256.0 tmp14 = tmp12 / tmp13 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp14, 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, arg0_1, arg1_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 return buf1, class SMAPENew(torch.nn.Module): """Symmetric Mean Absolute error. :math:`\\frac{\|x - y\|} {\|x\| + \|y\| + \\epsilon}` Args: eps(float): small number to avoid division by 0. """ def __init__(self, eps=0.01): super(SMAPENew, 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]	Mephisto405/WCMC-Public	SMAPE	false	8,533	[ "BSD-2-Clause" ]	19	bd54f218d5239db84f404fbe1b465f9497bcf9e4	https://github.com/Mephisto405/WCMC-Public/tree/bd54f218d5239db84f404fbe1b465f9497bcf9e4
baseRNN_predict	# 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/s6/cs6uj6qqbm27rlx4uou6t6cg76fhawo5c7ydsv7qn3oecfm2xd6q.py # Topologically Sorted Source Nodes: [h], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # h => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_1,), kwargs = {}) # %le_1 : [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=[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_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 = 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') # kernel path: runs/run_shard_1/inductor_cache/cq/ccqbfbzeetpsc2d2hbydlb6zh44oakzviqnnh5rue727xy45hkgn.py # Topologically Sorted Source Nodes: [h_1], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # h_1 => relu_1 # Graph fragment: # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%view_3,), 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=[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_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 = 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') 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, (64, 4), (4, 1)) assert_size_stride(primals_2, (64, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (128, 64), (64, 1)) assert_size_stride(primals_5, (128, ), (1, )) assert_size_stride(primals_6, (4, 128), (128, 1)) assert_size_stride(primals_7, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 64), (64, 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, 64), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 64), (1024, 256, 64, 1), 0); del buf0 # reuse buf6 = empty_strided_cuda((4, 4, 4, 64), (1024, 256, 64, 1), torch.bool) # Topologically Sorted Source Nodes: [h], Original ATen: [aten.relu, aten.threshold_backward] stream0 = get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0.run(buf1, primals_2, buf6, 4096, grid=grid(4096), stream=stream0) del primals_2 buf2 = empty_strided_cuda((64, 128), (128, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf1, (64, 64), (64, 1), 0), reinterpret_tensor(primals_4, (64, 128), (1, 64), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 128), (2048, 512, 128, 1), 0); del buf2 # reuse buf5 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) # Topologically Sorted Source Nodes: [h_1], Original ATen: [aten.relu, aten.threshold_backward] triton_poi_fused_relu_threshold_backward_1.run(buf3, primals_5, buf5, 8192, grid=grid(8192), stream=stream0) del primals_5 buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [obs], Original ATen: [aten.addmm] extern_kernels.addmm(primals_7, reinterpret_tensor(buf3, (64, 128), (128, 1), 0), reinterpret_tensor(primals_6, (128, 4), (1, 128), 0), alpha=1, beta=1, out=buf4) del primals_7 return (reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 64), (64, 1), 0), reinterpret_tensor(buf3, (64, 128), (128, 1), 0), primals_6, buf5, primals_4, buf6, ) 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, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((64, ), (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((128, 64), (64, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((4, 128), (128, 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 import numpy as np import torch.nn as nn import torch.nn.init as init def weights_init(m): classname = m.__class__.__name__ if classname.find('Conv') != -1: weight_shape = list(m.weight.data.size()) fan_in = np.prod(weight_shape[1:4]) fan_out = np.prod(weight_shape[2:4]) * weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('Linear') != -1: weight_shape = list(m.weight.data.size()) fan_in = weight_shape[1] fan_out = weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('GRUCell') != -1: for param in m.parameters(): if len(param.shape) >= 2: init.orthogonal_(param.data) else: init.normal_(param.data) class baseRNN_predict(nn.Module): def __init__(self, h_size, obs_dim, num_actions, context_input=False): super(baseRNN_predict, self).__init__() self.l1 = nn.Linear(h_size, 64) self.l2 = nn.Linear(64, 128) self.l3 = nn.Linear(128, obs_dim) self.apply(weights_init) def forward(self, h): h = torch.relu(self.l1(h)) h = torch.relu(self.l2(h)) obs = self.l3(h) return obs def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'h_size': 4, 'obs_dim': 4, 'num_actions': 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 numpy as np import torch.nn as nn import torch.nn.init as init 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 % 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) @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 % 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) 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, (64, 4), (4, 1)) assert_size_stride(primals_2, (64,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (128, 64), (64, 1)) assert_size_stride(primals_5, (128,), (1,)) assert_size_stride(primals_6, (4, 128), (128, 1)) assert_size_stride(primals_7, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 64), (64, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_3, (64, 4), (4, 1), 0), reinterpret_tensor(primals_1, (4, 64), (1, 4), 0), out=buf0) del primals_1 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 64), (1024, 256, 64, 1), 0) del buf0 buf6 = empty_strided_cuda((4, 4, 4, 64), (1024, 256, 64, 1), torch.bool ) get_raw_stream(0) triton_poi_fused_relu_threshold_backward_0[grid(4096)](buf1, primals_2, buf6, 4096, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf2 = empty_strided_cuda((64, 128), (128, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf1, (64, 64), (64, 1), 0), reinterpret_tensor(primals_4, (64, 128), (1, 64), 0), out=buf2) buf3 = reinterpret_tensor(buf2, (4, 4, 4, 128), (2048, 512, 128, 1), 0) del buf2 buf5 = empty_strided_cuda((4, 4, 4, 128), (2048, 512, 128, 1), torch.bool) triton_poi_fused_relu_threshold_backward_1[grid(8192)](buf3, primals_5, buf5, 8192, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf4 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_7, reinterpret_tensor(buf3, (64, 128), (128, 1), 0), reinterpret_tensor(primals_6, (128, 4), (1, 128), 0), alpha=1, beta=1, out=buf4) del primals_7 return reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 64), (64, 1), 0), reinterpret_tensor( buf3, (64, 128), (128, 1), 0), primals_6, buf5, primals_4, buf6 def weights_init(m): classname = m.__class__.__name__ if classname.find('Conv') != -1: weight_shape = list(m.weight.data.size()) fan_in = np.prod(weight_shape[1:4]) fan_out = np.prod(weight_shape[2:4]) * weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('Linear') != -1: weight_shape = list(m.weight.data.size()) fan_in = weight_shape[1] fan_out = weight_shape[0] w_bound = np.sqrt(6.0 / (fan_in + fan_out)) m.weight.data.uniform_(-w_bound, w_bound) m.bias.data.fill_(0) elif classname.find('GRUCell') != -1: for param in m.parameters(): if len(param.shape) >= 2: init.orthogonal_(param.data) else: init.normal_(param.data) class baseRNN_predictNew(nn.Module): def __init__(self, h_size, obs_dim, num_actions, context_input=False): super(baseRNN_predictNew, self).__init__() self.l1 = nn.Linear(h_size, 64) self.l2 = nn.Linear(64, 128) self.l3 = nn.Linear(128, obs_dim) self.apply(weights_init) def forward(self, input_0): primals_1 = self.l1.weight primals_2 = self.l1.bias primals_4 = self.l2.weight primals_5 = self.l2.bias primals_6 = self.l3.weight primals_7 = self.l3.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	MLforHealth/state_representations_for_RLinHealth	baseRNN_predict	false	8,534	[ "MIT" ]	24	aa8dbb7d56caa95bf4380e3e745e134996291b66	https://github.com/MLforHealth/state_representations_for_RLinHealth/tree/aa8dbb7d56caa95bf4380e3e745e134996291b66
LocalStatisticsNetwork	# 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/fb/cfbyh7temr2u5cam5txbekh4n77qsqs7bwxugnr6jx7oljt7yy43.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=[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_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 = 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 y3 = yindex y0 = yindex % 4 y1 = (yindex // 4) tmp0 = tl.load(in_ptr0 + (x2 + (16y3)), xmask & ymask) tl.store(out_ptr0 + (y0 + (4x2) + (64y1)), tmp0, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ed/ced3lywgwox3zqzuzc3yubbozqxb4djgrrc3ww5dhuzsfiklhxjl.py # Topologically Sorted Source Nodes: [x, x_1], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # x => convolution # x_1 => 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_1 = async_compile.triton('triton_poi_fused_convolution_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=[32768], 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_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_relu_1(in_out_ptr0, in_ptr0, 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) 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/qg/cqg3j7dan5ko4okgfyzhaq4zx3k2azaylh7mm5xlm7qw675aiecr.py # Topologically Sorted Source Nodes: [local_statistics], Original ATen: [aten.convolution] # Source node to ATen node mapping: # local_statistics => convolution_2 # Graph fragment: # %convolution_2 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_1, %primals_6, %primals_7, [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=[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 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, primals_5, primals_6, primals_7 = args args.clear() assert_size_stride(primals_1, (512, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (512, ), (1, )) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (512, 512, 1, 1), (512, 1, 1, 1)) assert_size_stride(primals_5, (512, ), (1, )) assert_size_stride(primals_6, (1, 512, 1, 1), (512, 1, 1, 1)) assert_size_stride(primals_7, (1, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] stream0 = get_raw_stream(0) triton_poi_fused_0.run(primals_3, buf0, 16, 16, grid=grid(16, 16), stream=stream0) del primals_3 # Topologically Sorted Source Nodes: [x], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(buf0, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 512, 4, 4), (8192, 1, 2048, 512)) buf2 = buf1; del buf1 # reuse # Topologically Sorted Source Nodes: [x, x_1], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_1.run(buf2, primals_2, 32768, grid=grid(32768), stream=stream0) del primals_2 # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.convolution] buf3 = 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(buf3, (4, 512, 4, 4), (8192, 1, 2048, 512)) buf4 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [x_2, x_3], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_1.run(buf4, primals_5, 32768, grid=grid(32768), stream=stream0) del primals_5 # Topologically Sorted Source Nodes: [local_statistics], Original ATen: [aten.convolution] buf5 = extern_kernels.convolution(buf4, primals_6, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 1, 4, 4), (16, 1, 4, 1)) buf6 = reinterpret_tensor(buf5, (4, 1, 4, 4), (16, 16, 4, 1), 0); del buf5 # reuse # Topologically Sorted Source Nodes: [local_statistics], Original ATen: [aten.convolution] triton_poi_fused_convolution_2.run(buf6, primals_7, 64, grid=grid(64), stream=stream0) del primals_7 return (buf6, primals_1, buf0, primals_4, primals_6, 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((512, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((512, ), (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((512, 512, 1, 1), (512, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((512, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((1, 512, 1, 1), (512, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_7 = 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]) 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 LocalStatisticsNetwork(nn.Module): def __init__(self, img_feature_channels: 'int'): """Local statistique nerwork Args: img_feature_channels (int): [Number of input channels] """ super().__init__() self.conv1 = nn.Conv2d(in_channels=img_feature_channels, out_channels=512, kernel_size=1, stride=1) self.conv2 = nn.Conv2d(in_channels=512, out_channels=512, kernel_size=1, stride=1) self.conv3 = nn.Conv2d(in_channels=512, out_channels=1, kernel_size =1, stride=1) self.relu = nn.ReLU() def forward(self, concat_feature: 'torch.Tensor') ->torch.Tensor: x = self.conv1(concat_feature) x = self.relu(x) x = self.conv2(x) x = self.relu(x) local_statistics = self.conv3(x) return local_statistics def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'img_feature_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_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 y3 = yindex y0 = yindex % 4 y1 = yindex // 4 tmp0 = tl.load(in_ptr0 + (x2 + 16 * y3), xmask & ymask) tl.store(out_ptr0 + (y0 + 4 * x2 + 64 * y1), tmp0, xmask & ymask) @triton.jit def triton_poi_fused_convolution_relu_1(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_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 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, primals_5, primals_6, primals_7) = args args.clear() assert_size_stride(primals_1, (512, 4, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_2, (512,), (1,)) assert_size_stride(primals_3, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_4, (512, 512, 1, 1), (512, 1, 1, 1)) assert_size_stride(primals_5, (512,), (1,)) assert_size_stride(primals_6, (1, 512, 1, 1), (512, 1, 1, 1)) assert_size_stride(primals_7, (1,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((4, 4, 4, 4), (64, 1, 16, 4), torch.float32) get_raw_stream(0) triton_poi_fused_0[grid(16, 16)](primals_3, buf0, 16, 16, XBLOCK=16, YBLOCK=16, num_warps=4, num_stages=1) del primals_3 buf1 = extern_kernels.convolution(buf0, primals_1, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf1, (4, 512, 4, 4), (8192, 1, 2048, 512)) buf2 = buf1 del buf1 triton_poi_fused_convolution_relu_1[grid(32768)](buf2, primals_2, 32768, XBLOCK=128, num_warps=4, num_stages=1) del primals_2 buf3 = 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(buf3, (4, 512, 4, 4), (8192, 1, 2048, 512)) buf4 = buf3 del buf3 triton_poi_fused_convolution_relu_1[grid(32768)](buf4, primals_5, 32768, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf5 = extern_kernels.convolution(buf4, primals_6, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf5, (4, 1, 4, 4), (16, 1, 4, 1)) buf6 = reinterpret_tensor(buf5, (4, 1, 4, 4), (16, 16, 4, 1), 0) del buf5 triton_poi_fused_convolution_2[grid(64)](buf6, primals_7, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_7 return buf6, primals_1, buf0, primals_4, primals_6, buf2, buf4 class LocalStatisticsNetworkNew(nn.Module): def __init__(self, img_feature_channels: 'int'): """Local statistique nerwork Args: img_feature_channels (int): [Number of input channels] """ super().__init__() self.conv1 = nn.Conv2d(in_channels=img_feature_channels, out_channels=512, kernel_size=1, stride=1) self.conv2 = nn.Conv2d(in_channels=512, out_channels=512, kernel_size=1, stride=1) self.conv3 = nn.Conv2d(in_channels=512, out_channels=1, kernel_size =1, stride=1) self.relu = nn.ReLU() 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_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	MehdiZouitine/Learning-Disentangled-Representations-via-Mutual-Information-Estimation	LocalStatisticsNetwork	false	8,535	[ "MIT" ]	25	52952aff647a33b749b709cd7f0c3cd059c66b54	https://github.com/MehdiZouitine/Learning-Disentangled-Representations-via-Mutual-Information-Estimation/tree/52952aff647a33b749b709cd7f0c3cd059c66b54
AdaFM	# 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/jx/cjxraziyup2njlkalhltetta4pktssyrxkxlowblsfilnsnfhfbo.py # Topologically Sorted Source Nodes: [gamma, beta, mul, out], Original ATen: [aten.repeat, aten.mul, aten.add] # Source node to ATen node mapping: # beta => repeat_1 # gamma => repeat # mul => mul # out => add # Graph fragment: # %repeat : [num_users=1] = call_function[target=torch.ops.aten.repeat.default](args = (%primals_2, [1, 1, 4, 4]), kwargs = {}) # %repeat_1 : [num_users=1] = call_function[target=torch.ops.aten.repeat.default](args = (%primals_3, [1, 1, 4, 4]), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%repeat, %primals_1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul, %repeat_1), kwargs = {}) triton_poi_fused_add_mul_repeat_0 = async_compile.triton('triton_poi_fused_add_mul_repeat_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_add_mul_repeat_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_add_mul_repeat_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 x1 = (xindex // 16) x2 = xindex tmp0 = tl.load(in_ptr0 + (x1), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x2), xmask) tmp3 = tl.load(in_ptr2 + (x1), xmask, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tmp4 = tmp2 + tmp3 tl.store(out_ptr0 + (x2), tmp4, 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, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_3, (4, 4, 1, 1), (4, 1, 1, 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: [gamma, beta, mul, out], Original ATen: [aten.repeat, aten.mul, aten.add] stream0 = get_raw_stream(0) triton_poi_fused_add_mul_repeat_0.run(primals_2, primals_1, primals_3, buf0, 256, grid=grid(256), stream=stream0) del primals_2 del primals_3 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, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 1, 1), (4, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((4, 4, 1, 1), (4, 1, 1, 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.data import torch.utils.data.distributed class AdaFM(nn.Module): def __init__(self, in_channel, out_channel, style_dim=0): super().__init__() self.style_gama = nn.Parameter(torch.ones(in_channel, out_channel, 1, 1)) self.style_beta = nn.Parameter(torch.zeros(in_channel, out_channel, 1, 1)) def forward(self, input, style=0): h = input.shape[2] gamma = self.style_gama.repeat(1, 1, h, h) beta = self.style_beta.repeat(1, 1, h, h) out = gamma * input + beta 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 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.data import torch.utils.data.distributed 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_repeat_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 x1 = xindex // 16 x2 = xindex tmp0 = tl.load(in_ptr0 + x1, xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + x2, xmask) tmp3 = tl.load(in_ptr2 + x1, xmask, eviction_policy='evict_last') tmp2 = tmp0 * tmp1 tmp4 = tmp2 + tmp3 tl.store(out_ptr0 + x2, tmp4, 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, 1, 1), (4, 1, 1, 1)) assert_size_stride(primals_3, (4, 4, 1, 1), (4, 1, 1, 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_repeat_0[grid(256)](primals_2, primals_1, primals_3, buf0, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_2 del primals_3 return buf0, primals_1 class AdaFMNew(nn.Module): def __init__(self, in_channel, out_channel, style_dim=0): super().__init__() self.style_gama = nn.Parameter(torch.ones(in_channel, out_channel, 1, 1)) self.style_beta = nn.Parameter(torch.zeros(in_channel, out_channel, 1, 1)) def forward(self, input_0): primals_2 = self.style_gama primals_3 = self.style_beta primals_1 = input_0 output = call([primals_1, primals_2, primals_3]) return output[0]	MiaoyunZhao/GANTransferLimitedData	AdaFM	false	8,536	[ "MIT" ]	41	5545bc37a1d7d4f28a9c3588aaa12a616bbddd88	https://github.com/MiaoyunZhao/GANTransferLimitedData/tree/5545bc37a1d7d4f28a9c3588aaa12a616bbddd88
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/4g/c4guhk7x6skkidedvs2gxz2kcu6gb76l3ig5crjjvjtzvnjlhlte.py # Topologically Sorted Source Nodes: [hidden], Original ATen: [aten.relu, aten.threshold_backward] # Source node to ATen node mapping: # hidden => 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/ta/ctarkhd7gqmxsmyghlzwykngqas6dfclf7bk5ijucwm3q5stwfhi.py # Topologically Sorted Source Nodes: [predicted], Original ATen: [aten.sigmoid] # Source node to ATen node mapping: # predicted => 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: '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_sigmoid_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_sigmoid_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 = tl.sigmoid(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, (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((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: [hidden], 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: [], 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: [predicted], Original ATen: [aten.sigmoid] triton_poi_fused_sigmoid_1.run(buf3, primals_5, 256, grid=grid(256), stream=stream0) del primals_5 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) 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 import torch.utils.data from torch import nn from torch.nn import functional class Decoder(nn.Module): def __init__(self, z_dim, hidden_dim, output_dim): """ Args: z_dim: A integer indicating the latent size. hidden_dim: A integer indicating the size of hidden dimension. output_dim: A integer indicating the output dimension. """ super().__init__() self.linear = nn.Linear(z_dim, hidden_dim) self.out = nn.Linear(hidden_dim, output_dim) def forward(self, x): hidden = functional.relu(self.linear(x)) predicted = torch.sigmoid(self.out(hidden)) return predicted def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'z_dim': 4, 'hidden_dim': 4, 'output_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 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_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, 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 = tl.sigmoid(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, (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((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, primals_5, 256, XBLOCK= 128, num_warps=4, num_stages=1) del primals_5 return buf3, reinterpret_tensor(primals_3, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), buf3, primals_4, buf4 class DecoderNew(nn.Module): def __init__(self, z_dim, hidden_dim, output_dim): """ Args: z_dim: A integer indicating the latent size. hidden_dim: A integer indicating the size of hidden dimension. output_dim: A integer indicating the output dimension. """ super().__init__() self.linear = nn.Linear(z_dim, hidden_dim) self.out = nn.Linear(hidden_dim, output_dim) def forward(self, input_0): primals_1 = self.linear.weight primals_2 = self.linear.bias primals_4 = self.out.weight primals_5 = self.out.bias primals_3 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	MaurizioFD/recsys-challenge-2020-twitter	Decoder	false	8,537	[ "Apache-2.0" ]	44	95dc024fb4f8777aa62e1304536daece640428de	https://github.com/MaurizioFD/recsys-challenge-2020-twitter/tree/95dc024fb4f8777aa62e1304536daece640428de
ClampModule	# 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/5c/c5c7l6zfatboxja74n2zdvyjyveeu7q2zvqi6kwu4o456rzrzo6i.py # Topologically Sorted Source Nodes: [clamp], Original ATen: [aten.clamp] # Source node to ATen node mapping: # clamp => clamp_max, clamp_min # Graph fragment: # %clamp_min : [num_users=1] = call_function[target=torch.ops.aten.clamp_min.default](args = (%arg0_1, 4), kwargs = {}) # %clamp_max : [num_users=1] = call_function[target=torch.ops.aten.clamp_max.default](args = (%clamp_min, 4), kwargs = {}) triton_poi_fused_clamp_0 = async_compile.triton('triton_poi_fused_clamp_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_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_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 = 4.0 tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp3 = triton_helpers.minimum(tmp2, tmp1) tl.store(out_ptr0 + (x0), tmp3, 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: [clamp], Original ATen: [aten.clamp] stream0 = get_raw_stream(0) triton_poi_fused_clamp_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 as th class ClampModule(th.nn.Module): """Why is this not a thing in the main library?""" def __init__(self, min_v, max_v): super().__init__() self.min_v = min_v self.max_v = max_v def forward(self, x): return th.clamp(x, self.min_v, self.max_v) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'min_v': 4, 'max_v': 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 as th 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_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 = 4.0 tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp3 = triton_helpers.minimum(tmp2, tmp1) tl.store(out_ptr0 + x0, tmp3, 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_0[grid(256)](arg0_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) del arg0_1 return buf0, class ClampModuleNew(th.nn.Module): """Why is this not a thing in the main library?""" def __init__(self, min_v, max_v): super().__init__() self.min_v = min_v self.max_v = max_v def forward(self, input_0): arg0_1 = input_0 output = call([arg0_1]) return output[0]	Miffyli/policy-supervectors	ClampModule	false	8,538	[ "MIT" ]	17	358284805e5bc96b95cae15e9741571e46d84bc9	https://github.com/Miffyli/policy-supervectors/tree/358284805e5bc96b95cae15e9741571e46d84bc9
ResnetBlock	# 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/kr/ckrtwovkhwxxs4z33vkmsczo5gcqzvnvdb3zcpdhaxniciqjmysf.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # out => gt, mul, where # Graph fragment: # %gt : [num_users=1] = call_function[target=torch.ops.aten.gt.Scalar](args = (%primals_1, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%primals_1, 0.2), kwargs = {}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt, %primals_1, %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=[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_leaky_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_leaky_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 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 0.2 tmp4 = tmp0 * tmp3 tmp5 = tl.where(tmp2, tmp0, tmp4) tl.store(out_ptr0 + (x0), tmp5, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/vp/cvpiu32ud5hot6gudwwpt47wc2hc56wzti7olzripo2g3thb35ry.py # Topologically Sorted Source Nodes: [dx, out_1], Original ATen: [aten.convolution, aten.leaky_relu] # Source node to ATen node mapping: # dx => convolution # out_1 => gt_1, mul_1, where_1 # Graph fragment: # %convolution : [num_users=3] = call_function[target=torch.ops.aten.convolution.default](args = (%where, %primals_2, %primals_3, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %gt_1 : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%convolution, 0), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution, 0.2), kwargs = {}) # %where_1 : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%gt_1, %convolution, %mul_1), kwargs = {}) triton_poi_fused_convolution_leaky_relu_1 = async_compile.triton('triton_poi_fused_convolution_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=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 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_leaky_relu_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_convolution_leaky_relu_1(in_ptr0, in_ptr1, out_ptr0, out_ptr1, 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_ptr0 + (x3), xmask) tmp1 = tl.load(in_ptr1 + (x1), 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(out_ptr0 + (x3), tmp4, xmask) tl.store(out_ptr1 + (x3), tmp7, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/up/cuphnyugfkosdao3qzodlib3go3xh63gszt5z2hn3dgyjruqkyu7.py # Topologically Sorted Source Nodes: [dx_1, mul, out_2], Original ATen: [aten.convolution, aten.mul, aten.add] # Source node to ATen node mapping: # dx_1 => convolution_1 # mul => mul_2 # out_2 => add # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%where_1, %primals_4, %primals_5, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %mul_2 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%convolution_1, 0.1), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%primals_1, %mul_2), kwargs = {}) triton_poi_fused_add_convolution_mul_2 = async_compile.triton('triton_poi_fused_add_convolution_mul_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_convolution_mul_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_convolution_mul_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 x3 = xindex x1 = (xindex // 16) % 4 tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp1 = tl.load(in_out_ptr0 + (x3), xmask) tmp2 = tl.load(in_ptr1 + (x1), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = 0.1 tmp5 = tmp3 * tmp4 tmp6 = tmp0 + tmp5 tl.store(in_out_ptr0 + (x3), 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 = args args.clear() assert_size_stride(primals_1, (4, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (4, 4, 3, 3), (36, 9, 3, 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, )) 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: [out], Original ATen: [aten.leaky_relu] stream0 = get_raw_stream(0) triton_poi_fused_leaky_relu_0.run(primals_1, buf0, 256, grid=grid(256), stream=stream0) # Topologically Sorted Source Nodes: [dx], Original ATen: [aten.convolution] buf1 = extern_kernels.convolution(buf0, primals_2, 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 = 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.float32) # Topologically Sorted Source Nodes: [dx, out_1], Original ATen: [aten.convolution, aten.leaky_relu] triton_poi_fused_convolution_leaky_relu_1.run(buf1, primals_3, buf2, buf3, 256, grid=grid(256), stream=stream0) del buf1 del primals_3 # Topologically Sorted Source Nodes: [dx_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 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [dx_1, mul, out_2], Original ATen: [aten.convolution, aten.mul, aten.add] triton_poi_fused_add_convolution_mul_2.run(buf5, primals_1, primals_5, 256, grid=grid(256), stream=stream0) del primals_1 del primals_5 return (buf5, primals_2, primals_4, buf0, buf2, 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, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 4, 3, 3), (36, 9, 3, 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) 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.nn.functional as F import torch.utils.data import torch.utils.data.distributed def actvn(x): out = F.leaky_relu(x, 0.2) return out class ResnetBlock(nn.Module): def __init__(self, fin, fout, fhidden=None, is_bias=True): super().__init__() self.is_bias = is_bias self.learned_shortcut = fin != fout self.fin = fin self.fout = fout if fhidden is None: self.fhidden = min(fin, fout) else: self.fhidden = fhidden self.conv_0 = nn.Conv2d(self.fin, self.fhidden, 3, stride=1, padding=1) self.conv_1 = nn.Conv2d(self.fhidden, self.fout, 3, stride=1, padding=1, bias=is_bias) if self.learned_shortcut: self.conv_s = nn.Conv2d(self.fin, self.fout, 1, stride=1, padding=0, bias=False) def forward(self, x, intitial=False): x_s = self._shortcut(x) if intitial: dx = self.conv_0(x) else: dx = self.conv_0(actvn(x)) dx = self.conv_1(actvn(dx)) out = x_s + 0.1 * dx return out def _shortcut(self, x): if self.learned_shortcut: x_s = self.conv_s(x) else: x_s = x return x_s def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'fin': 4, 'fout': 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.nn.functional as F import torch.utils.data import torch.utils.data.distributed 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_leaky_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 = 0.0 tmp2 = tmp0 > tmp1 tmp3 = 0.2 tmp4 = tmp0 * tmp3 tmp5 = tl.where(tmp2, tmp0, tmp4) tl.store(out_ptr0 + x0, tmp5, xmask) @triton.jit def triton_poi_fused_convolution_leaky_relu_1(in_ptr0, in_ptr1, out_ptr0, out_ptr1, 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_ptr0 + x3, xmask) tmp1 = tl.load(in_ptr1 + x1, 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(out_ptr0 + x3, tmp4, xmask) tl.store(out_ptr1 + x3, tmp7, xmask) @triton.jit def triton_poi_fused_add_convolution_mul_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 x3 = xindex x1 = xindex // 16 % 4 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp1 = tl.load(in_out_ptr0 + x3, xmask) tmp2 = tl.load(in_ptr1 + x1, xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = 0.1 tmp5 = tmp3 * tmp4 tmp6 = tmp0 + tmp5 tl.store(in_out_ptr0 + x3, tmp6, 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, 3, 3), (36, 9, 3, 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,)) 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_leaky_relu_0[grid(256)](primals_1, buf0, 256, XBLOCK=128, num_warps=4, num_stages=1) buf1 = extern_kernels.convolution(buf0, primals_2, 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 = 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.float32) triton_poi_fused_convolution_leaky_relu_1[grid(256)](buf1, primals_3, buf2, buf3, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf1 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 = buf4 del buf4 triton_poi_fused_add_convolution_mul_2[grid(256)](buf5, primals_1, primals_5, 256, XBLOCK=256, num_warps=4, num_stages=1) del primals_1 del primals_5 return buf5, primals_2, primals_4, buf0, buf2, buf3 def actvn(x): out = F.leaky_relu(x, 0.2) return out class ResnetBlockNew(nn.Module): def __init__(self, fin, fout, fhidden=None, is_bias=True): super().__init__() self.is_bias = is_bias self.learned_shortcut = fin != fout self.fin = fin self.fout = fout if fhidden is None: self.fhidden = min(fin, fout) else: self.fhidden = fhidden self.conv_0 = nn.Conv2d(self.fin, self.fhidden, 3, stride=1, padding=1) self.conv_1 = nn.Conv2d(self.fhidden, self.fout, 3, stride=1, padding=1, bias=is_bias) if self.learned_shortcut: self.conv_s = nn.Conv2d(self.fin, self.fout, 1, stride=1, padding=0, bias=False) def _shortcut(self, x): if self.learned_shortcut: x_s = self.conv_s(x) else: x_s = x return x_s def forward(self, input_0): primals_2 = self.conv_0.weight primals_3 = self.conv_0.bias primals_4 = self.conv_1.weight primals_5 = self.conv_1.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	MiaoyunZhao/GANTransferLimitedData	ResnetBlock	false	8,539	[ "MIT" ]	41	5545bc37a1d7d4f28a9c3588aaa12a616bbddd88	https://github.com/MiaoyunZhao/GANTransferLimitedData/tree/5545bc37a1d7d4f28a9c3588aaa12a616bbddd88
RelativeMSE	# 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/s6/cs6f2lgk5zd5s6woedm5h4uk7weqfo7gjnhbvm7qcdqo3aicux2y.py # Topologically Sorted Source Nodes: [sub, mse, pow_2, add, loss, mean, loss_1], Original ATen: [aten.sub, aten.pow, aten.add, aten.div, aten.mean, aten.mul] # Source node to ATen node mapping: # add => add # loss => div # loss_1 => mul # mean => mean # mse => pow_1 # pow_2 => pow_2 # sub => sub # Graph fragment: # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%arg0_1, %arg1_1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 2), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%arg1_1, 2), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%pow_2, 0.01), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%pow_1, %add), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%div,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mean, 0.5), kwargs = {}) triton_per_fused_add_div_mean_mul_pow_sub_0 = async_compile.triton('triton_per_fused_add_div_mean_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.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_mean_mul_pow_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_div_mean_mul_pow_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 = tmp2 * tmp2 tmp4 = tmp1 * tmp1 tmp5 = 0.01 tmp6 = tmp4 + tmp5 tmp7 = tmp3 / tmp6 tmp8 = tl.broadcast_to(tmp7, [RBLOCK]) tmp10 = triton_helpers.promote_to_tensor(tl.sum(tmp8, 0)) tmp11 = 256.0 tmp12 = tmp10 / tmp11 tmp13 = 0.5 tmp14 = tmp12 * tmp13 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp14, 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, mse, pow_2, add, loss, mean, loss_1], Original ATen: [aten.sub, aten.pow, aten.add, aten.div, aten.mean, aten.mul] stream0 = get_raw_stream(0) triton_per_fused_add_div_mean_mul_pow_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 class RelativeMSE(torch.nn.Module): """Relative Mean-Squared Error. :math:`0.5 * \\frac{(x - y)^2}{y^2 + \\epsilon}` Args: eps(float): small number to avoid division by 0. """ def __init__(self, eps=0.01): super(RelativeMSE, self).__init__() self.eps = eps def forward(self, im, ref): """Evaluate the metric. Args: im(torch.Tensor): image. ref(torch.Tensor): reference. """ mse = torch.pow(im - ref, 2) loss = mse / (torch.pow(ref, 2) + self.eps) loss = 0.5 * torch.mean(loss) 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 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_mean_mul_pow_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 = tmp2 * tmp2 tmp4 = tmp1 * tmp1 tmp5 = 0.01 tmp6 = tmp4 + tmp5 tmp7 = tmp3 / tmp6 tmp8 = tl.broadcast_to(tmp7, [RBLOCK]) tmp10 = triton_helpers.promote_to_tensor(tl.sum(tmp8, 0)) tmp11 = 256.0 tmp12 = tmp10 / tmp11 tmp13 = 0.5 tmp14 = tmp12 * tmp13 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp14, 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_mean_mul_pow_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 RelativeMSENew(torch.nn.Module): """Relative Mean-Squared Error. :math:`0.5 * \\frac{(x - y)^2}{y^2 + \\epsilon}` Args: eps(float): small number to avoid division by 0. """ def __init__(self, eps=0.01): super(RelativeMSENew, 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]	Mephisto405/WCMC-Public	RelativeMSE	false	8,540	[ "BSD-2-Clause" ]	19	bd54f218d5239db84f404fbe1b465f9497bcf9e4	https://github.com/Mephisto405/WCMC-Public/tree/bd54f218d5239db84f404fbe1b465f9497bcf9e4
MLP	# 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/cm/ccmrk7zi52pxeyjzxmaiey7p5ct332hjibl7rxlbyvnp3ultns36.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # x_1 => gt, mul, where # Graph fragment: # %gt : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%view_1, 0), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_1, 0.01), kwargs = {}) # %where : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt, %view_1, %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=[512], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 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_leaky_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_leaky_relu_0(in_ptr0, in_ptr1, out_ptr0, out_ptr1, 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_ptr0 + (x2), xmask) tmp1 = tl.load(in_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr1 + (x2), tmp7, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/4e/c4eeer2u7iitmlgou3jzhwctvb4ywirtdvzqecn3ekee5hkmsvti.py # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.leaky_relu] # Source node to ATen node mapping: # x_4 => gt_3, mul_3, where_3 # Graph fragment: # %gt_3 : [num_users=2] = call_function[target=torch.ops.aten.gt.Scalar](args = (%view_7, 0), kwargs = {}) # %mul_3 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_7, 0.01), kwargs = {}) # %where_3 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%gt_3, %view_7, %mul_3), 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=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'fp32', 2: 'i1', 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_leaky_relu_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_leaky_relu_1(in_ptr0, in_ptr1, out_ptr0, out_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_ptr1 + (x0), xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + (x2), tmp4, xmask) tl.store(out_ptr1 + (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, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (8, 4), (4, 1)) assert_size_stride(primals_3, (8, ), (1, )) assert_size_stride(primals_4, (8, 8), (8, 1)) assert_size_stride(primals_5, (8, ), (1, )) assert_size_stride(primals_6, (8, 8), (8, 1)) assert_size_stride(primals_7, (8, ), (1, )) assert_size_stride(primals_8, (4, 8), (8, 1)) assert_size_stride(primals_9, (4, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 8), (8, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 8), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.bool) buf2 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.leaky_relu] stream0 = get_raw_stream(0) triton_poi_fused_leaky_relu_0.run(buf0, primals_3, buf1, buf2, 512, grid=grid(512), stream=stream0) del primals_3 buf3 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf2, (64, 8), (8, 1), 0), reinterpret_tensor(primals_4, (8, 8), (1, 8), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.bool) buf5 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_0.run(buf3, primals_5, buf4, buf5, 512, grid=grid(512), stream=stream0) del primals_5 buf6 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf5, (64, 8), (8, 1), 0), reinterpret_tensor(primals_6, (8, 8), (1, 8), 0), out=buf6) buf7 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.bool) buf8 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [x_3], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_0.run(buf6, primals_7, buf7, buf8, 512, grid=grid(512), stream=stream0) del buf6 del primals_7 buf9 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(buf8, (64, 8), (8, 1), 0), reinterpret_tensor(primals_8, (8, 4), (1, 8), 0), out=buf9) buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf11 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [x_4], Original ATen: [aten.leaky_relu] triton_poi_fused_leaky_relu_1.run(buf9, primals_9, buf10, buf11, 256, grid=grid(256), stream=stream0) del buf9 del primals_9 return (buf11, reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), buf1, reinterpret_tensor(buf2, (64, 8), (8, 1), 0), buf4, reinterpret_tensor(buf5, (64, 8), (8, 1), 0), buf7, reinterpret_tensor(buf8, (64, 8), (8, 1), 0), buf10, 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, 4), (64, 16, 4, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((8, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((8, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_6 = rand_strided((8, 8), (8, 1), device='cuda:0', dtype=torch.float32) primals_7 = rand_strided((8, ), (1, ), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 8), (8, 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 class MLP(nn.Module): def __init__(self, in_dim, out_dim): super(MLP, self).__init__() out = max(8, in_dim * 2) self.input = nn.Linear(in_dim, out) self.fc = nn.Linear(out, out) self.fc2 = nn.Linear(out, out) self.output = nn.Linear(out, out_dim) self.relu = nn.LeakyReLU() def forward(self, x): x = x.float() x = self.relu(self.input(x)) x = self.relu(self.fc(x)) x = self.relu(self.fc2(x)) x = self.relu(self.output(x)) return x def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'in_dim': 4, 'out_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 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_ptr0, in_ptr1, out_ptr0, out_ptr1, 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_ptr0 + x2, xmask) tmp1 = tl.load(in_ptr1 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr1 + x2, tmp7, xmask) @triton.jit def triton_poi_fused_leaky_relu_1(in_ptr0, in_ptr1, out_ptr0, out_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_ptr1 + x0, xmask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = 0.0 tmp4 = tmp2 > tmp3 tmp5 = 0.01 tmp6 = tmp2 * tmp5 tmp7 = tl.where(tmp4, tmp2, tmp6) tl.store(out_ptr0 + x2, tmp4, xmask) tl.store(out_ptr1 + 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, 4, 4, 4), (64, 16, 4, 1)) assert_size_stride(primals_2, (8, 4), (4, 1)) assert_size_stride(primals_3, (8,), (1,)) assert_size_stride(primals_4, (8, 8), (8, 1)) assert_size_stride(primals_5, (8,), (1,)) assert_size_stride(primals_6, (8, 8), (8, 1)) assert_size_stride(primals_7, (8,), (1,)) assert_size_stride(primals_8, (4, 8), (8, 1)) assert_size_stride(primals_9, (4,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 8), (8, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 8), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.bool) buf2 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.float32) get_raw_stream(0) triton_poi_fused_leaky_relu_0[grid(512)](buf0, primals_3, buf1, buf2, 512, XBLOCK=128, num_warps=4, num_stages=1) del primals_3 buf3 = buf0 del buf0 extern_kernels.mm(reinterpret_tensor(buf2, (64, 8), (8, 1), 0), reinterpret_tensor(primals_4, (8, 8), (1, 8), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.bool) buf5 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.float32) triton_poi_fused_leaky_relu_0[grid(512)](buf3, primals_5, buf4, buf5, 512, XBLOCK=128, num_warps=4, num_stages=1) del primals_5 buf6 = buf3 del buf3 extern_kernels.mm(reinterpret_tensor(buf5, (64, 8), (8, 1), 0), reinterpret_tensor(primals_6, (8, 8), (1, 8), 0), out=buf6) buf7 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.bool) buf8 = empty_strided_cuda((4, 4, 4, 8), (128, 32, 8, 1), torch.float32) triton_poi_fused_leaky_relu_0[grid(512)](buf6, primals_7, buf7, buf8, 512, XBLOCK=128, num_warps=4, num_stages=1) del buf6 del primals_7 buf9 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf8, (64, 8), (8, 1), 0), reinterpret_tensor(primals_8, (8, 4), (1, 8), 0), out=buf9) buf10 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.bool) buf11 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused_leaky_relu_1[grid(256)](buf9, primals_9, buf10, buf11, 256, XBLOCK=128, num_warps=4, num_stages=1) del buf9 del primals_9 return buf11, reinterpret_tensor(primals_1, (64, 4), (4, 1), 0 ), buf1, reinterpret_tensor(buf2, (64, 8), (8, 1), 0 ), buf4, reinterpret_tensor(buf5, (64, 8), (8, 1), 0 ), buf7, reinterpret_tensor(buf8, (64, 8), (8, 1), 0 ), buf10, primals_8, primals_6, primals_4 class MLPNew(nn.Module): def __init__(self, in_dim, out_dim): super(MLPNew, self).__init__() out = max(8, in_dim * 2) self.input = nn.Linear(in_dim, out) self.fc = nn.Linear(out, out) self.fc2 = nn.Linear(out, out) self.output = nn.Linear(out, out_dim) self.relu = nn.LeakyReLU() def forward(self, input_0): primals_2 = self.input.weight primals_3 = self.input.bias primals_4 = self.fc.weight primals_5 = self.fc.bias primals_6 = self.fc2.weight primals_7 = self.fc2.bias primals_8 = self.output.weight primals_9 = self.output.bias primals_1 = 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]	Malta-Lab/IUPE	MLP	false	8,541	[ "MIT" ]	10	44ddf119917538f02bb69509fec7a8314eed419f	https://github.com/Malta-Lab/IUPE/tree/44ddf119917538f02bb69509fec7a8314eed419f
FFChessNet	# 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/57/c57tccdwc6chffna3zg2oc6sp4unmeoydkwytrpn4pdqbi2wdhqo.py # Topologically Sorted Source Nodes: [out], Original ATen: [aten.relu] # Source node to ATen node mapping: # out => relu # Graph fragment: # %relu : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution,), 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=[4194304], 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_relu_0', '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_relu_0(in_out_ptr0, xnumel, XBLOCK : tl.constexpr): xnumel = 4194304 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.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(in_out_ptr0 + (x0), tmp2, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/uo/cuotx3tx467dpwxv7ucpol3rzgusr5jjpzwmfckzfa76gvknbtng.py # Topologically Sorted Source Nodes: [thought], Original ATen: [aten.relu] # Source node to ATen node mapping: # thought => relu_1 # Graph fragment: # %relu_1 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_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=[524288], 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_relu_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_relu_1(in_out_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) x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), None) tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(in_out_ptr0 + (x0), tmp2, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/cl/ccl2lelj7haoucm6odn5dawadlv77lidudpkbc25roxspb5ckt4s.py # Topologically Sorted Source Nodes: [thought_1], Original ATen: [aten.relu] # Source node to ATen node mapping: # thought_1 => relu_2 # Graph fragment: # %relu_2 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_2,), kwargs = {}) triton_poi_fused_relu_2 = async_compile.triton('triton_poi_fused_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: '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_2', '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_relu_2(in_out_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) x0 = xindex tmp0 = tl.load(in_out_ptr0 + (x0), None) tmp1 = tl.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(in_out_ptr0 + (x0), tmp2, None) ''', 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, (256, 12, 3, 3), (108, 9, 3, 1)) assert_size_stride(primals_2, (4, 12, 64, 64), (49152, 4096, 64, 1)) assert_size_stride(primals_3, (32, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_4, (8, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_5, (2, 8, 3, 3), (72, 9, 3, 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_2, 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, 256, 64, 64), (1048576, 4096, 64, 1)) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [out], Original ATen: [aten.relu] stream0 = get_raw_stream(0) triton_poi_fused_relu_0.run(buf1, 4194304, grid=grid(4194304), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf2 = extern_kernels.convolution(buf1, primals_3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 32, 64, 64), (131072, 4096, 64, 1)) buf3 = buf2; del buf2 # reuse # Topologically Sorted Source Nodes: [thought], Original ATen: [aten.relu] triton_poi_fused_relu_1.run(buf3, 524288, grid=grid(524288), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_2], 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, 8, 64, 64), (32768, 4096, 64, 1)) buf5 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [thought_1], Original ATen: [aten.relu] triton_poi_fused_relu_2.run(buf5, 131072, grid=grid(131072), stream=stream0) # Topologically Sorted Source Nodes: [thought_2], Original ATen: [aten.convolution] buf6 = extern_kernels.convolution(buf5, primals_5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 2, 64, 64), (8192, 4096, 64, 1)) return (buf6, primals_1, primals_2, primals_3, primals_4, primals_5, buf1, 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((256, 12, 3, 3), (108, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_2 = rand_strided((4, 12, 64, 64), (49152, 4096, 64, 1), device='cuda:0', dtype=torch.float32) primals_3 = rand_strided((32, 256, 3, 3), (2304, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_4 = rand_strided((8, 32, 3, 3), (288, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((2, 8, 3, 3), (72, 9, 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 import torch.nn as nn import torch.nn.functional as F class FFChessNet(nn.Module): """Modified ResidualNetworkSegment model class""" def __init__(self, block, num_blocks, width, depth): super(FFChessNet, self).__init__() assert (depth - 4 ) % 4 == 0, 'Depth not compatible with recurrent architectue.' self.iters = (depth - 4) // 4 self.in_planes = int(width * 64) self.conv1 = nn.Conv2d(12, int(width * 64), kernel_size=3, stride=1, padding=1, bias=False) layers = [] for i in range(len(num_blocks)): for _ in range(self.iters): layers.append(self._make_layer(block, int(width * 64), num_blocks[i], stride=1)) self.recur_block = nn.Sequential(layers) self.conv2 = nn.Conv2d(int(width 64), 32, kernel_size=3, stride=1, padding=1, bias=False) self.conv3 = nn.Conv2d(32, 8, kernel_size=3, stride=1, padding=1, bias=False) self.conv4 = nn.Conv2d(8, 2, kernel_size=3, stride=1, padding=1, bias=False) def _make_layer(self, block, planes, num_blocks, stride): strides = [stride] + [1] * (num_blocks - 1) layers = [] for strd in strides: layers.append(block(self.in_planes, planes, strd)) self.in_planes = planes * block.expansion return nn.Sequential(*layers) def forward(self, x): out = F.relu(self.conv1(x)) out = self.recur_block(out) thought = F.relu(self.conv2(out)) thought = F.relu(self.conv3(thought)) thought = self.conv4(thought) return thought def get_inputs(): return [torch.rand([4, 12, 64, 64])] def get_init_inputs(): return [[], {'block': 4, 'num_blocks': [4, 4], 'width': 4, 'depth': 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 @triton.jit def triton_poi_fused_relu_0(in_out_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.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(in_out_ptr0 + x0, tmp2, None) @triton.jit def triton_poi_fused_relu_1(in_out_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.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(in_out_ptr0 + x0, tmp2, None) @triton.jit def triton_poi_fused_relu_2(in_out_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.full([1], 0, tl.int32) tmp2 = triton_helpers.maximum(tmp1, tmp0) tl.store(in_out_ptr0 + x0, tmp2, None) def call(args): primals_1, primals_2, primals_3, primals_4, primals_5 = args args.clear() assert_size_stride(primals_1, (256, 12, 3, 3), (108, 9, 3, 1)) assert_size_stride(primals_2, (4, 12, 64, 64), (49152, 4096, 64, 1)) assert_size_stride(primals_3, (32, 256, 3, 3), (2304, 9, 3, 1)) assert_size_stride(primals_4, (8, 32, 3, 3), (288, 9, 3, 1)) assert_size_stride(primals_5, (2, 8, 3, 3), (72, 9, 3, 1)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = extern_kernels.convolution(primals_2, 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, 256, 64, 64), (1048576, 4096, 64, 1)) buf1 = buf0 del buf0 get_raw_stream(0) triton_poi_fused_relu_0[grid(4194304)](buf1, 4194304, XBLOCK=1024, num_warps=4, num_stages=1) buf2 = extern_kernels.convolution(buf1, primals_3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf2, (4, 32, 64, 64), (131072, 4096, 64, 1)) buf3 = buf2 del buf2 triton_poi_fused_relu_1[grid(524288)](buf3, 524288, XBLOCK=512, num_warps=8, num_stages=1) 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, 8, 64, 64), (32768, 4096, 64, 1)) buf5 = buf4 del buf4 triton_poi_fused_relu_2[grid(131072)](buf5, 131072, XBLOCK=512, num_warps=8, num_stages=1) buf6 = extern_kernels.convolution(buf5, primals_5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf6, (4, 2, 64, 64), (8192, 4096, 64, 1)) return (buf6, primals_1, primals_2, primals_3, primals_4, primals_5, buf1, buf3, buf5) class FFChessNetNew(nn.Module): """Modified ResidualNetworkSegment model class""" def __init__(self, block, num_blocks, width, depth): super(FFChessNetNew, self).__init__() assert (depth - 4 ) % 4 == 0, 'Depth not compatible with recurrent architectue.' self.iters = (depth - 4) // 4 self.in_planes = int(width * 64) self.conv1 = nn.Conv2d(12, int(width * 64), kernel_size=3, stride=1, padding=1, bias=False) layers = [] for i in range(len(num_blocks)): for _ in range(self.iters): layers.append(self._make_layer(block, int(width * 64), num_blocks[i], stride=1)) self.recur_block = nn.Sequential(layers) self.conv2 = nn.Conv2d(int(width 64), 32, kernel_size=3, stride=1, padding=1, bias=False) self.conv3 = nn.Conv2d(32, 8, kernel_size=3, stride=1, padding=1, bias=False) self.conv4 = nn.Conv2d(8, 2, kernel_size=3, stride=1, padding=1, bias=False) def _make_layer(self, block, planes, num_blocks, stride): strides = [stride] + [1] * (num_blocks - 1) layers = [] for strd in strides: layers.append(block(self.in_planes, planes, strd)) self.in_planes = planes * block.expansion return nn.Sequential(*layers) def forward(self, input_0): primals_1 = self.conv1.weight primals_3 = self.conv2.weight primals_4 = self.conv3.weight primals_5 = self.conv4.weight primals_2 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	Maosef/easy-to-hard	FFChessNet	false	8,542	[ "MIT" ]	44	711ec0965229444a6c51b1b06a4e2cad3e32d02e	https://github.com/Maosef/easy-to-hard/tree/711ec0965229444a6c51b1b06a4e2cad3e32d02e
RelPositionMultiHeadedAttention	# 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/24/c24qsgijonbiqjcskkesmr6djddhrqjlc6pskdyvv3cj26t4733k.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_1, [2]), 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_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=[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_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 = 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_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-05 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/wk/cwkmrcckbwmqrnn75bcrj6x53nm4p3l2vitrgxgtbfaftyuxfsme.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_1, [2]), 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 = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%primals_1, %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_2), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%mul_1, %primals_3), 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=[64], 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 = 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 + (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/ak/cakmcqmxmvmqriimlufiwtusjgx6pzmxots2v42hcnwcsw4ahikt.py # Topologically Sorted Source Nodes: [matrix_ac, matrix_bd], Original ATen: [aten.clone] # Source node to ATen node mapping: # matrix_ac => clone # matrix_bd => clone_2 # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand,), kwargs = {memory_format: torch.contiguous_format}) # %clone_2 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand_2,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_2 = async_compile.triton('triton_poi_fused_clone_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, 4], tile_hint=TileHint.DEFAULT, 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': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4, 5), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_2', '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_clone_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, 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 + (12x2) + (48y1)), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (y0), ymask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + (y0), ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp0 + tmp3 tl.store(out_ptr0 + (x2 + (4y3)), tmp2, xmask & ymask) tl.store(out_ptr1 + (x2 + (4y3)), tmp4, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/zl/czlqk3zraa2s6rxtxkrdczoils3dsupq3gczxyfy2d7gczk7zfe3.py # Topologically Sorted Source Nodes: [matrix_ac], Original ATen: [aten.clone] # Source node to ATen node mapping: # matrix_ac => 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_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=[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_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, 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 + (4 + y0 + (12x2) + (48y1)), 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/5k/c5kufnc7mciff7by75wm2btl7xamphqljghinmvgmksxfleox4tp.py # Topologically Sorted Source Nodes: [matrix_bd], Original ATen: [aten.clone] # Source node to ATen node mapping: # matrix_bd => 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=[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/h3/ch3owjetq6j5ay5araoj7umpw4mtpxen6g2arwd2gp5dlslk62c5.py # Topologically Sorted Source Nodes: [add_2, softmax], Original ATen: [aten.add, aten._softmax] # Source node to ATen node mapping: # add_2 => add_4 # softmax => exp, sum_1 # Graph fragment: # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_10, %slice_3), kwargs = {}) # %mul_tensor : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_4, 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, 1.0), 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_5 = async_compile.triton('triton_poi_fused__softmax_add_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=[64], 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__softmax_add_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__softmax_add_5(in_ptr0, in_ptr1, 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 x0 = xindex % 4 x1 = (xindex // 4) % 4 x2 = (xindex // 16) tmp0 = tl.load(in_ptr0 + (4x3), xmask, eviction_policy='evict_last') tmp17 = tl.load(in_ptr0 + (1 + (4x3)), xmask, eviction_policy='evict_last') tmp29 = tl.load(in_ptr0 + (2 + (4x3)), xmask, eviction_policy='evict_last') tmp41 = tl.load(in_ptr0 + (3 + (4x3)), xmask, eviction_policy='evict_last') tmp1 = (4 + (4x0)) % 5 tmp2 = tl.full([1], 0, tl.int64) tmp3 = tmp1 >= tmp2 tmp4 = tl.full([1], 1, tl.int64) tmp5 = tmp1 < tmp4 tmp6 = 0.0 tmp7 = tl.full(tmp6.shape, 0.0, tmp6.dtype) tmp8 = tl.where(tmp5, tmp6, tmp7) tmp9 = tmp1 >= tmp4 tmp10 = tl.full([1], 5, tl.int64) tmp11 = tmp1 < tmp10 tmp12 = tl.load(in_ptr1 + ((4((4 + (4x0)) // 5)) + (16x1) + (16((1 + x0) // 5)) + (64x2) + (64((1 + x0 + (5x1)) // 20)) + ((-1) + ((4 + (4x0)) % 5))), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp13 = tl.where(tmp5, tmp8, tmp12) tmp14 = tmp0 + tmp13 tmp15 = 1.0 tmp16 = tmp14 tmp15 tmp18 = (4x0) % 5 tmp19 = tmp18 >= tmp2 tmp20 = tmp18 < tmp4 tmp21 = tl.where(tmp20, tmp6, tmp7) tmp22 = tmp18 >= tmp4 tmp23 = tmp18 < tmp10 tmp24 = tl.load(in_ptr1 + (4 + (4((4x0) // 5)) + (16x1) + (16((5 + (4x0)) // 20)) + (64x2) + (64((5 + (4x0) + (20x1)) // 80)) + ((-1) + ((4x0) % 5))), tmp22 & xmask, eviction_policy='evict_last', other=0.0) tmp25 = tl.where(tmp20, tmp21, tmp24) tmp26 = tmp17 + tmp25 tmp27 = tmp26 tmp15 tmp28 = triton_helpers.maximum(tmp16, tmp27) tmp30 = (6 + (4x0)) % 5 tmp31 = tmp30 >= tmp2 tmp32 = tmp30 < tmp4 tmp33 = tl.where(tmp32, tmp6, tmp7) tmp34 = tmp30 >= tmp4 tmp35 = tmp30 < tmp10 tmp36 = tl.load(in_ptr1 + ((4((6 + (4x0)) // 5)) + (16x1) + (16((3 + (2x0)) // 10)) + (64x2) + (64((3 + (2x0) + (10x1)) // 40)) + ((-1) + ((6 + (4x0)) % 5))), tmp34 & xmask, eviction_policy='evict_last', other=0.0) tmp37 = tl.where(tmp32, tmp33, tmp36) tmp38 = tmp29 + tmp37 tmp39 = tmp38 tmp15 tmp40 = triton_helpers.maximum(tmp28, tmp39) tmp42 = (7 + (4x0)) % 5 tmp43 = tmp42 >= tmp2 tmp44 = tmp42 < tmp4 tmp45 = tl.where(tmp44, tmp6, tmp7) tmp46 = tmp42 >= tmp4 tmp47 = tmp42 < tmp10 tmp48 = tl.load(in_ptr1 + ((4((7 + (4x0)) // 5)) + (16x1) + (16((7 + (4x0)) // 20)) + (64x2) + (64((7 + (4x0) + (20x1)) // 80)) + ((-1) + ((7 + (4x0)) % 5))), tmp46 & xmask, eviction_policy='evict_last', other=0.0) tmp49 = tl.where(tmp44, tmp45, tmp48) tmp50 = tmp41 + tmp49 tmp51 = tmp50 tmp15 tmp52 = triton_helpers.maximum(tmp40, tmp51) tmp53 = tmp16 - tmp52 tmp54 = tmp53 * tmp15 tmp55 = tl_math.exp(tmp54) tmp56 = tmp27 - tmp52 tmp57 = tmp56 * tmp15 tmp58 = tl_math.exp(tmp57) tmp59 = tmp55 + tmp58 tmp60 = tmp39 - tmp52 tmp61 = tmp60 * tmp15 tmp62 = tl_math.exp(tmp61) tmp63 = tmp59 + tmp62 tmp64 = tmp51 - tmp52 tmp65 = tmp64 * tmp15 tmp66 = tl_math.exp(tmp65) tmp67 = tmp63 + tmp66 tl.store(out_ptr0 + (x3), tmp52, xmask) tl.store(out_ptr1 + (x3), tmp67, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/nn/cnnfrdmy5uqtwn3rwghw747mkf342o7eblmivmxi3rpzk2o26pjt.py # Topologically Sorted Source Nodes: [add_2, softmax], Original ATen: [aten.add, aten._softmax] # Source node to ATen node mapping: # add_2 => add_4 # softmax => div_1, exp # Graph fragment: # %add_4 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_10, %slice_3), kwargs = {}) # %mul_tensor : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%add_4, 1), 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, 1.0), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%div_tensor,), kwargs = {}) # %div_1 : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) triton_poi_fused__softmax_add_6 = async_compile.triton('triton_poi_fused__softmax_add_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=[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__softmax_add_6', '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__softmax_add_6(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 x4 = xindex x0 = xindex % 4 x1 = (xindex // 4) % 4 x2 = (xindex // 16) % 4 x3 = (xindex // 64) x6 = (xindex // 4) tmp0 = tl.load(in_out_ptr0 + (x4), xmask) tmp17 = tl.load(in_ptr1 + (x6), xmask, eviction_policy='evict_last') tmp21 = tl.load(in_ptr2 + (x6), xmask, eviction_policy='evict_last') tmp1 = (4 + x0 + (4x1)) % 5 tmp2 = tl.full([1], 0, tl.int64) tmp3 = tmp1 >= tmp2 tmp4 = tl.full([1], 1, tl.int64) tmp5 = tmp1 < tmp4 tmp6 = 0.0 tmp7 = tl.full(tmp6.shape, 0.0, tmp6.dtype) tmp8 = tl.where(tmp5, tmp6, tmp7) tmp9 = tmp1 >= tmp4 tmp10 = tl.full([1], 5, tl.int64) tmp11 = tmp1 < tmp10 tmp12 = tl.load(in_ptr0 + ((4((4 + x0 + (4x1)) // 5)) + (16x2) + (16((4 + x0 + (4x1)) // 20)) + (64x3) + (64((4 + x0 + (4x1) + (20x2)) // 80)) + ((-1) + ((4 + x0 + (4x1)) % 5))), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp13 = tl.where(tmp5, tmp8, tmp12) tmp14 = tmp0 + tmp13 tmp15 = 1.0 tmp16 = tmp14 tmp15 tmp18 = tmp16 - tmp17 tmp19 = tmp18 * tmp15 tmp20 = tl_math.exp(tmp19) tmp22 = tmp20 / tmp21 tl.store(in_out_ptr0 + (x4), tmp22, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/tb/ctblka4j3omsfjq4sj2e5iciiwhvgyaatfwatihtk2xwv56bovnz.py # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.clone] # Source node to ATen node mapping: # x_1 => clone_5 # Graph fragment: # %clone_5 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand_5,), kwargs = {memory_format: torch.contiguous_format}) triton_poi_fused_clone_7 = async_compile.triton('triton_poi_fused_clone_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, 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_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_clone_7(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 + (8 + y0 + (12x2) + (48y1)), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + (4*y3)), tmp0, 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, primals_8, primals_9, primals_10 = 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, ), (1, )) assert_size_stride(primals_4, (12, 4), (4, 1)) assert_size_stride(primals_5, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, 1), (1, 1)) assert_size_stride(primals_8, (4, 1), (1, 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((4, 4, 1), (4, 1, 16), torch.float32) buf1 = empty_strided_cuda((4, 4, 1), (4, 1, 16), 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_1, buf0, buf1, 16, grid=grid(16), stream=stream0) buf2 = empty_strided_cuda((4, 4, 4), (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_1, buf0, buf1, primals_2, primals_3, buf2, 64, grid=grid(64), stream=stream0) del buf0 del buf1 del primals_2 del primals_3 buf3 = empty_strided_cuda((16, 12), (12, 1), torch.float32) # Topologically Sorted Source Nodes: [w_heads], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf2, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 12), (1, 4), 0), out=buf3) buf4 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_5, (16, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf4) del primals_6 buf5 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) buf8 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [matrix_ac, matrix_bd], Original ATen: [aten.clone] triton_poi_fused_clone_2.run(buf3, primals_7, primals_8, buf5, buf8, 16, 4, grid=grid(16, 4), stream=stream0) del primals_7 del primals_8 buf6 = empty_strided_cuda((4, 4, 1, 4), (16, 4, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matrix_ac], Original ATen: [aten.clone] triton_poi_fused_clone_3.run(buf3, buf6, 16, 4, grid=grid(16, 4), stream=stream0) buf7 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matrix_ac], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf5, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf6, (16, 1, 4), (4, 0, 1), 0), out=buf7) buf9 = empty_strided_cuda((4, 4, 1, 4), (16, 4, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matrix_bd], Original ATen: [aten.clone] triton_poi_fused_clone_4.run(buf4, buf9, 16, 4, grid=grid(16, 4), stream=stream0) buf10 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matrix_bd], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf8, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf9, (16, 1, 4), (4, 0, 1), 0), out=buf10) buf11 = reinterpret_tensor(buf4, (4, 4, 4, 1), (16, 4, 1, 64), 0); del buf4 # reuse buf12 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) # Topologically Sorted Source Nodes: [add_2, softmax], Original ATen: [aten.add, aten._softmax] triton_poi_fused__softmax_add_5.run(buf7, buf10, buf11, buf12, 64, grid=grid(64), stream=stream0) buf13 = reinterpret_tensor(buf7, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf7 # reuse # Topologically Sorted Source Nodes: [add_2, softmax], Original ATen: [aten.add, aten._softmax] triton_poi_fused__softmax_add_6.run(buf13, buf10, buf11, buf12, 256, grid=grid(256), stream=stream0) del buf10 buf14 = reinterpret_tensor(buf12, (4, 4, 4, 1), (16, 4, 1, 1), 0); del buf12 # reuse # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.clone] triton_poi_fused_clone_7.run(buf3, buf14, 16, 4, grid=grid(16, 4), stream=stream0) del buf3 buf15 = reinterpret_tensor(buf11, (16, 4, 1), (4, 1, 1), 0); del buf11 # reuse # Topologically Sorted Source Nodes: [x_1], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf13, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf14, (16, 4, 1), (4, 1, 0), 0), out=buf15) buf16 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [contiguous], Original ATen: [aten.clone] triton_poi_fused_clone_4.run(buf15, buf16, 16, 4, grid=grid(16, 4), stream=stream0) buf17 = reinterpret_tensor(buf15, (16, 4), (4, 1), 0); del buf15 # reuse # Topologically Sorted Source Nodes: [linear_2], Original ATen: [aten.addmm] extern_kernels.addmm(primals_10, reinterpret_tensor(buf16, (16, 4), (4, 1), 0), reinterpret_tensor(primals_9, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf17) del primals_10 return (reinterpret_tensor(buf17, (4, 4, 4), (16, 4, 1), 0), buf13, primals_1, reinterpret_tensor(buf2, (16, 4), (4, 1), 0), reinterpret_tensor(primals_5, (16, 4), (4, 1), 0), buf13, reinterpret_tensor(buf16, (16, 4), (4, 1), 0), primals_9, reinterpret_tensor(buf14, (16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf8, (16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf9, (16, 4, 1), (4, 1, 4), 0), reinterpret_tensor(buf5, (16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf6, (16, 4, 1), (4, 1, 4), 0), 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), (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((12, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, 4, 4), (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), (1, 1), device='cuda:0', dtype=torch.float32) primals_8 = rand_strided((4, 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((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 math import numpy import torch import torch.nn as nn class RelPositionMultiHeadedAttention(nn.Module): """Multi-Head Attention layer with relative position encoding. This class is aquired from https://github.com/espnet/espnet/blob/master/espnet/nets/pytorch_backend/transformer/attention.py (Apache2.0 Licence) and modified a little by Masao-Someki Paper: https://arxiv.org/abs/1901.02860 :param int n_head: the number of head s :param int n_feat: the number of features :param float dropout_rate: dropout rate """ def __init__(self, d_model, n_head=4, dropout=0.2): """Construct an RelPositionMultiHeadedAttention object.""" super(RelPositionMultiHeadedAttention, self).__init__() self.linear_pos = nn.Linear(d_model, d_model, bias=False) self.layer_norm = nn.LayerNorm(d_model) assert d_model % n_head == 0 self.d_k = d_model // n_head self.n_head = n_head self.qkv_net = nn.Linear(d_model, d_model * 3, bias=False) self.linear_out = nn.Linear(d_model, d_model) self.dropout = nn.Dropout(p=dropout) self.pos_bias_u = nn.Parameter(torch.Tensor(self.n_head, self.d_k)) self.pos_bias_v = nn.Parameter(torch.Tensor(self.n_head, self.d_k)) torch.nn.init.xavier_uniform_(self.pos_bias_u) torch.nn.init.xavier_uniform_(self.pos_bias_v) def rel_shift(self, x, zero_triu=False): """Compute relative positinal encoding. :param torch.Tensor x: (batch, time, size) :param bool zero_triu: return the lower triangular part of the matrix """ zero_pad = torch.zeros((x.size()[:3], 1), device=x.device, dtype=x .dtype) x_padded = torch.cat([zero_pad, x], dim=-1) x_padded = x_padded.view(x.size()[:2], x.size(3) + 1, x.size(2)) x = x_padded[:, :, 1:].view_as(x) if zero_triu: ones = torch.ones((x.size(2), x.size(3))) x = x * torch.tril(ones, x.size(3) - x.size(2))[None, None, :, :] return x def forward_qkv(self, w, mem): """Transform query, key and value. :param torch.Tensor query: (batch, time1, size) :param torch.Tensor key: (batch, time2, size) :param torch.Tensor value: (batch, time2, size) :return torch.Tensor transformed query, key and value """ bsz = w.size(0) if mem is not None: cat = torch.cat([mem, w], 0) w_heads = self.qkv_net(self.layer_norm(cat)) w_head_q, w_head_k, w_head_v = torch.chunk(w_heads, 3, dim=-1) w_head_q = w_head_q[-qlen:] else: w_heads = self.qkv_net(self.layer_norm(w)) w_head_q, w_head_k, w_head_v = torch.chunk(w_heads, 3, dim=-1) qlen = w.size(1) klen = w_head_k.size(1) w_head_q = w_head_q.view(bsz, qlen, self.n_head, self.d_k) w_head_k = w_head_k.view(bsz, klen, self.n_head, self.d_k) w_head_v = w_head_v.view(bsz, klen, self.n_head, self.d_k) return w_head_q, w_head_k.transpose(1, 2), w_head_v.transpose(1, 2) def forward_attention(self, value, scores, mask): """Compute attention context vector. :param torch.Tensor value: (batch, time2, size) :param torch.Tensor scores: (batch, time1, time2) :param torch.Tensor mask: (batch, time1, time2) :return torch.Tensor transformed `value` (batch, time2, d_model) weighted by the attention score (batch, time1, time2) """ n_batch = value.size(0) if mask is not None: mask = mask.unsqueeze(1).eq(0) min_value = float(numpy.finfo(torch.tensor(0, dtype=scores. dtype).numpy().dtype).min) scores = scores.masked_fill(mask, min_value) self.attn = torch.softmax(scores, dim=-1).masked_fill(mask, 0.0) else: self.attn = torch.softmax(scores, dim=-1) p_attn = self.dropout(self.attn) x = torch.matmul(p_attn, value) x = x.transpose(1, 2).contiguous().view(n_batch, -1, self.n_head * self.d_k) return self.linear_out(x) def forward(self, query, pos_emb, mem=None, mask=None): """Compute 'Scaled Dot Product Attention' with rel. positional encoding. :param torch.Tensor query: (batch, time1, size) :param torch.Tensor key: (batch, time2, size) :param torch.Tensor value: (batch, time2, size) :param torch.Tensor pos_emb: (batch, time1, size) :param torch.Tensor mask: (batch, time1, time2) :param torch.nn.Dropout dropout: :return torch.Tensor: attentined and transformed `value` (batch, time1, d_model) weighted by the query dot key attention (batch, head, time1, time2) """ q, k, v = self.forward_qkv(query, mem) n_batch_pos = pos_emb.size(0) p = self.linear_pos(pos_emb).view(n_batch_pos, -1, self.n_head, self.d_k) p = p.transpose(1, 2) q_with_bias_u = (q + self.pos_bias_u).transpose(1, 2) q_with_bias_v = (q + self.pos_bias_v).transpose(1, 2) matrix_ac = torch.matmul(q_with_bias_u, k.transpose(-2, -1)) matrix_bd = torch.matmul(q_with_bias_v, p.transpose(-2, -1)) matrix_bd = self.rel_shift(matrix_bd) scores = (matrix_ac + matrix_bd) / math.sqrt(self.d_k) return self.forward_attention(v, scores, mask) def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'d_model': 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 numpy 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 = 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_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-05 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 = 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 + 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_clone_2(in_ptr0, in_ptr1, in_ptr2, out_ptr0, out_ptr1, 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 + 12 * x2 + 48 * y1), xmask & ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + y0, ymask, eviction_policy='evict_last') tmp3 = tl.load(in_ptr2 + y0, ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp0 + tmp3 tl.store(out_ptr0 + (x2 + 4 * y3), tmp2, xmask & ymask) tl.store(out_ptr1 + (x2 + 4 * y3), tmp4, xmask & ymask) @triton.jit def triton_poi_fused_clone_3(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 + (4 + y0 + 12 * x2 + 48 * y1), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + 4 * y3), tmp0, 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__softmax_add_5(in_ptr0, in_ptr1, 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 x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 tmp0 = tl.load(in_ptr0 + 4 * x3, xmask, eviction_policy='evict_last') tmp17 = tl.load(in_ptr0 + (1 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp29 = tl.load(in_ptr0 + (2 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp41 = tl.load(in_ptr0 + (3 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp1 = (4 + 4 * x0) % 5 tl.full([1], 0, tl.int64) tmp4 = tl.full([1], 1, tl.int64) tmp5 = tmp1 < tmp4 tmp6 = 0.0 tmp7 = tl.full(tmp6.shape, 0.0, tmp6.dtype) tmp8 = tl.where(tmp5, tmp6, tmp7) tmp9 = tmp1 >= tmp4 tl.full([1], 5, tl.int64) tmp12 = tl.load(in_ptr1 + (4 * ((4 + 4 * x0) // 5) + 16 * x1 + 16 * ((1 + x0) // 5) + 64 * x2 + 64 * ((1 + x0 + 5 * x1) // 20) + (-1 + (4 + 4 * x0) % 5)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp13 = tl.where(tmp5, tmp8, tmp12) tmp14 = tmp0 + tmp13 tmp15 = 1.0 tmp16 = tmp14 * tmp15 tmp18 = 4 * x0 % 5 tmp20 = tmp18 < tmp4 tmp21 = tl.where(tmp20, tmp6, tmp7) tmp22 = tmp18 >= tmp4 tmp24 = tl.load(in_ptr1 + (4 + 4 * (4 * x0 // 5) + 16 * x1 + 16 * ((5 + 4 * x0) // 20) + 64 * x2 + 64 * ((5 + 4 * x0 + 20 * x1) // 80) + (- 1 + 4 * x0 % 5)), tmp22 & xmask, eviction_policy='evict_last', other=0.0) tmp25 = tl.where(tmp20, tmp21, tmp24) tmp26 = tmp17 + tmp25 tmp27 = tmp26 * tmp15 tmp28 = triton_helpers.maximum(tmp16, tmp27) tmp30 = (6 + 4 * x0) % 5 tmp32 = tmp30 < tmp4 tmp33 = tl.where(tmp32, tmp6, tmp7) tmp34 = tmp30 >= tmp4 tmp36 = tl.load(in_ptr1 + (4 * ((6 + 4 * x0) // 5) + 16 * x1 + 16 * ((3 + 2 * x0) // 10) + 64 * x2 + 64 * ((3 + 2 * x0 + 10 * x1) // 40) + (- 1 + (6 + 4 * x0) % 5)), tmp34 & xmask, eviction_policy='evict_last', other=0.0) tmp37 = tl.where(tmp32, tmp33, tmp36) tmp38 = tmp29 + tmp37 tmp39 = tmp38 * tmp15 tmp40 = triton_helpers.maximum(tmp28, tmp39) tmp42 = (7 + 4 * x0) % 5 tmp44 = tmp42 < tmp4 tmp45 = tl.where(tmp44, tmp6, tmp7) tmp46 = tmp42 >= tmp4 tmp48 = tl.load(in_ptr1 + (4 * ((7 + 4 * x0) // 5) + 16 * x1 + 16 * ((7 + 4 * x0) // 20) + 64 * x2 + 64 * ((7 + 4 * x0 + 20 * x1) // 80) + (- 1 + (7 + 4 * x0) % 5)), tmp46 & xmask, eviction_policy='evict_last', other=0.0) tmp49 = tl.where(tmp44, tmp45, tmp48) tmp50 = tmp41 + tmp49 tmp51 = tmp50 * tmp15 tmp52 = triton_helpers.maximum(tmp40, tmp51) tmp53 = tmp16 - tmp52 tmp54 = tmp53 * tmp15 tmp55 = tl_math.exp(tmp54) tmp56 = tmp27 - tmp52 tmp57 = tmp56 * tmp15 tmp58 = tl_math.exp(tmp57) tmp59 = tmp55 + tmp58 tmp60 = tmp39 - tmp52 tmp61 = tmp60 * tmp15 tmp62 = tl_math.exp(tmp61) tmp63 = tmp59 + tmp62 tmp64 = tmp51 - tmp52 tmp65 = tmp64 * tmp15 tmp66 = tl_math.exp(tmp65) tmp67 = tmp63 + tmp66 tl.store(out_ptr0 + x3, tmp52, xmask) tl.store(out_ptr1 + x3, tmp67, xmask) @triton.jit def triton_poi_fused__softmax_add_6(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 x4 = xindex x0 = xindex % 4 x1 = xindex // 4 % 4 x2 = xindex // 16 % 4 x3 = xindex // 64 x6 = xindex // 4 tmp0 = tl.load(in_out_ptr0 + x4, xmask) tmp17 = tl.load(in_ptr1 + x6, xmask, eviction_policy='evict_last') tmp21 = tl.load(in_ptr2 + x6, xmask, eviction_policy='evict_last') tmp1 = (4 + x0 + 4 * x1) % 5 tl.full([1], 0, tl.int64) tmp4 = tl.full([1], 1, tl.int64) tmp5 = tmp1 < tmp4 tmp6 = 0.0 tmp7 = tl.full(tmp6.shape, 0.0, tmp6.dtype) tmp8 = tl.where(tmp5, tmp6, tmp7) tmp9 = tmp1 >= tmp4 tl.full([1], 5, tl.int64) tmp12 = tl.load(in_ptr0 + (4 * ((4 + x0 + 4 * x1) // 5) + 16 * x2 + 16 * ((4 + x0 + 4 * x1) // 20) + 64 * x3 + 64 * ((4 + x0 + 4 * x1 + 20 * x2) // 80) + (-1 + (4 + x0 + 4 * x1) % 5)), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp13 = tl.where(tmp5, tmp8, tmp12) tmp14 = tmp0 + tmp13 tmp15 = 1.0 tmp16 = tmp14 * tmp15 tmp18 = tmp16 - tmp17 tmp19 = tmp18 * tmp15 tmp20 = tl_math.exp(tmp19) tmp22 = tmp20 / tmp21 tl.store(in_out_ptr0 + x4, tmp22, xmask) @triton.jit def triton_poi_fused_clone_7(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 + (8 + y0 + 12 * x2 + 48 * y1), xmask & ymask, eviction_policy='evict_last') tl.store(out_ptr0 + (x2 + 4 * y3), tmp0, xmask & ymask) 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), (16, 4, 1)) assert_size_stride(primals_2, (4,), (1,)) assert_size_stride(primals_3, (4,), (1,)) assert_size_stride(primals_4, (12, 4), (4, 1)) assert_size_stride(primals_5, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, 1), (1, 1)) assert_size_stride(primals_8, (4, 1), (1, 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((4, 4, 1), (4, 1, 16), torch.float32) buf1 = empty_strided_cuda((4, 4, 1), (4, 1, 16), torch.float32) get_raw_stream(0) triton_poi_fused_native_layer_norm_0[grid(16)](primals_1, buf0, buf1, 16, XBLOCK=16, num_warps=1, num_stages=1) buf2 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused_native_layer_norm_1[grid(64)](primals_1, buf0, buf1, primals_2, primals_3, buf2, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf0 del buf1 del primals_2 del primals_3 buf3 = empty_strided_cuda((16, 12), (12, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf2, (16, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 12), (1, 4), 0), out=buf3) buf4 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_5, (16, 4), (4, 1), 0), reinterpret_tensor(primals_6, (4, 4), (1, 4), 0), out=buf4) del primals_6 buf5 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) buf8 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) triton_poi_fused_clone_2[grid(16, 4)](buf3, primals_7, primals_8, buf5, buf8, 16, 4, XBLOCK=4, YBLOCK=8, num_warps=1, num_stages=1) del primals_7 del primals_8 buf6 = empty_strided_cuda((4, 4, 1, 4), (16, 4, 4, 1), torch.float32) triton_poi_fused_clone_3[grid(16, 4)](buf3, buf6, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) buf7 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf5, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf6, (16, 1, 4), (4, 0, 1), 0), out=buf7) buf9 = empty_strided_cuda((4, 4, 1, 4), (16, 4, 4, 1), torch.float32) triton_poi_fused_clone_4[grid(16, 4)](buf4, buf9, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) buf10 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf8, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf9, (16, 1, 4), (4, 0, 1), 0), out=buf10) buf11 = reinterpret_tensor(buf4, (4, 4, 4, 1), (16, 4, 1, 64), 0) del buf4 buf12 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) triton_poi_fused__softmax_add_5[grid(64)](buf7, buf10, buf11, buf12, 64, XBLOCK=64, num_warps=1, num_stages=1) buf13 = reinterpret_tensor(buf7, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf7 triton_poi_fused__softmax_add_6[grid(256)](buf13, buf10, buf11, buf12, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf10 buf14 = reinterpret_tensor(buf12, (4, 4, 4, 1), (16, 4, 1, 1), 0) del buf12 triton_poi_fused_clone_7[grid(16, 4)](buf3, buf14, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) del buf3 buf15 = reinterpret_tensor(buf11, (16, 4, 1), (4, 1, 1), 0) del buf11 extern_kernels.bmm(reinterpret_tensor(buf13, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf14, (16, 4, 1), (4, 1, 0), 0), out=buf15) buf16 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) triton_poi_fused_clone_4[grid(16, 4)](buf15, buf16, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) buf17 = reinterpret_tensor(buf15, (16, 4), (4, 1), 0) del buf15 extern_kernels.addmm(primals_10, reinterpret_tensor(buf16, (16, 4), (4, 1), 0), reinterpret_tensor(primals_9, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf17) del primals_10 return reinterpret_tensor(buf17, (4, 4, 4), (16, 4, 1), 0 ), buf13, primals_1, reinterpret_tensor(buf2, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_5, (16, 4), (4, 1), 0 ), buf13, reinterpret_tensor(buf16, (16, 4), (4, 1), 0 ), primals_9, reinterpret_tensor(buf14, (16, 1, 4), (4, 1, 1), 0 ), reinterpret_tensor(buf8, (16, 1, 4), (4, 1, 1), 0 ), reinterpret_tensor(buf9, (16, 4, 1), (4, 1, 4), 0 ), reinterpret_tensor(buf5, (16, 1, 4), (4, 1, 1), 0 ), reinterpret_tensor(buf6, (16, 4, 1), (4, 1, 4), 0), primals_4 class RelPositionMultiHeadedAttentionNew(nn.Module): """Multi-Head Attention layer with relative position encoding. This class is aquired from https://github.com/espnet/espnet/blob/master/espnet/nets/pytorch_backend/transformer/attention.py (Apache2.0 Licence) and modified a little by Masao-Someki Paper: https://arxiv.org/abs/1901.02860 :param int n_head: the number of head s :param int n_feat: the number of features :param float dropout_rate: dropout rate """ def __init__(self, d_model, n_head=4, dropout=0.2): """Construct an RelPositionMultiHeadedAttention object.""" super(RelPositionMultiHeadedAttentionNew, self).__init__() self.linear_pos = nn.Linear(d_model, d_model, bias=False) self.layer_norm = nn.LayerNorm(d_model) assert d_model % n_head == 0 self.d_k = d_model // n_head self.n_head = n_head self.qkv_net = nn.Linear(d_model, d_model * 3, bias=False) self.linear_out = nn.Linear(d_model, d_model) self.dropout = nn.Dropout(p=dropout) self.pos_bias_u = nn.Parameter(torch.Tensor(self.n_head, self.d_k)) self.pos_bias_v = nn.Parameter(torch.Tensor(self.n_head, self.d_k)) torch.nn.init.xavier_uniform_(self.pos_bias_u) torch.nn.init.xavier_uniform_(self.pos_bias_v) def rel_shift(self, x, zero_triu=False): """Compute relative positinal encoding. :param torch.Tensor x: (batch, time, size) :param bool zero_triu: return the lower triangular part of the matrix """ zero_pad = torch.zeros((x.size()[:3], 1), device=x.device, dtype=x .dtype) x_padded = torch.cat([zero_pad, x], dim=-1) x_padded = x_padded.view(x.size()[:2], x.size(3) + 1, x.size(2)) x = x_padded[:, :, 1:].view_as(x) if zero_triu: ones = torch.ones((x.size(2), x.size(3))) x = x * torch.tril(ones, x.size(3) - x.size(2))[None, None, :, :] return x def forward_qkv(self, w, mem): """Transform query, key and value. :param torch.Tensor query: (batch, time1, size) :param torch.Tensor key: (batch, time2, size) :param torch.Tensor value: (batch, time2, size) :return torch.Tensor transformed query, key and value """ bsz = w.size(0) if mem is not None: cat = torch.cat([mem, w], 0) w_heads = self.qkv_net(self.layer_norm(cat)) w_head_q, w_head_k, w_head_v = torch.chunk(w_heads, 3, dim=-1) w_head_q = w_head_q[-qlen:] else: w_heads = self.qkv_net(self.layer_norm(w)) w_head_q, w_head_k, w_head_v = torch.chunk(w_heads, 3, dim=-1) qlen = w.size(1) klen = w_head_k.size(1) w_head_q = w_head_q.view(bsz, qlen, self.n_head, self.d_k) w_head_k = w_head_k.view(bsz, klen, self.n_head, self.d_k) w_head_v = w_head_v.view(bsz, klen, self.n_head, self.d_k) return w_head_q, w_head_k.transpose(1, 2), w_head_v.transpose(1, 2) def forward_attention(self, value, scores, mask): """Compute attention context vector. :param torch.Tensor value: (batch, time2, size) :param torch.Tensor scores: (batch, time1, time2) :param torch.Tensor mask: (batch, time1, time2) :return torch.Tensor transformed `value` (batch, time2, d_model) weighted by the attention score (batch, time1, time2) """ n_batch = value.size(0) if mask is not None: mask = mask.unsqueeze(1).eq(0) min_value = float(numpy.finfo(torch.tensor(0, dtype=scores. dtype).numpy().dtype).min) scores = scores.masked_fill(mask, min_value) self.attn = torch.softmax(scores, dim=-1).masked_fill(mask, 0.0) else: self.attn = torch.softmax(scores, dim=-1) p_attn = self.dropout(self.attn) x = torch.matmul(p_attn, value) x = x.transpose(1, 2).contiguous().view(n_batch, -1, self.n_head * self.d_k) return self.linear_out(x) def forward(self, input_0, input_1): primals_7 = self.pos_bias_u primals_8 = self.pos_bias_v primals_6 = self.linear_pos.weight primals_2 = self.layer_norm.weight primals_3 = self.layer_norm.bias primals_4 = self.qkv_net.weight primals_9 = self.linear_out.weight primals_10 = self.linear_out.bias primals_1 = 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, primals_10]) return output[0]	Masao-Someki/Conformer	RelPositionMultiHeadedAttention	false	8,543	[ "MIT" ]	18	866da9ae05a6d07304775c592caac8d516f67c92	https://github.com/Masao-Someki/Conformer/tree/866da9ae05a6d07304775c592caac8d516f67c92
SuperPointNet	# 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/3a/c3aad74wwkdt54mhwcyll3u2dle3jijm4qtxxvm6plfvvommj26q.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=[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_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 = 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/g3/cg3ybm4wothoy6zlpsk6yulij45c2p3c322hxkxrfsyb2t7p3n4s.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=[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_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 = 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/np/cnpahasgytceiqarrct24x5bigxpwuv6ez6cdmlecv3kx5sypzsb.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=[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_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 = 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/eg/cegkhpirbdizrfwpxf7z5iyj5fnizpk2ywd44ximmmde2qo6slhl.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=[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_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 = 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/gp/cgphucawlhjwsrmzxyc3vzvqshza6gn2y4yaxcgye666elojocdd.py # Topologically Sorted Source Nodes: [conv2d, x], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d => convolution # x => 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_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=[256, 4096], 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, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_relu_4', '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_4(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 256 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 % 64 y1 = (yindex // 64) tmp0 = tl.load(in_ptr0 + (x2 + (4096y3)), ymask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (y0), ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1, 1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(out_ptr0 + (y0 + (64x2) + (262144y1)), tmp4, ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/jd/cjdhcr4xqvho6zll3axlpxye7ulwjdabdgc5wmhhw5b7wigkjwh4.py # Topologically Sorted Source Nodes: [conv2d_1, x_1], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_1 => convolution_1 # x_1 => relu_1 # Graph fragment: # %convolution_1 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu, %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_5 = async_compile.triton('triton_poi_fused_convolution_relu_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=[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_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_relu_5(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/zv/czvqge5ahupojnvz2v7h44ldtkuavcrkodam2sukxqiix3phrxgp.py # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x_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_6 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_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=[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_6', '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_6(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/zr/czryzypdmvserig6gxi7gt4p46sryd4mc3lqnxzfrehh6yzgziyy.py # Topologically Sorted Source Nodes: [conv2d_2, x_3], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_2 => convolution_2 # x_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_7 = async_compile.triton('triton_poi_fused_convolution_relu_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=[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_7', '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_7(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 % 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/ca/ccaqb2uziovfbf2zle3urkaq3zcclrzddjxkwuvwb3xsglwvqa4c.py # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x_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_8 = async_compile.triton('triton_poi_fused_max_pool2d_with_indices_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=[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_8', '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_8(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 % 64 x1 = (xindex // 64) % 16 x2 = (xindex // 1024) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (128x1) + (4096x2)), None) tmp1 = tl.load(in_ptr0 + (64 + x0 + (128x1) + (4096x2)), None) tmp3 = tl.load(in_ptr0 + (2048 + x0 + (128x1) + (4096x2)), None) tmp5 = tl.load(in_ptr0 + (2112 + x0 + (128x1) + (4096x2)), 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/o6/co6y4jllk5gvxarndglja3fo64jex4ofgkoi7uz6ulvgejcrekir.py # Topologically Sorted Source Nodes: [conv2d_4, x_6], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_4 => convolution_4 # x_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_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=[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_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 = 131072 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/xt/cxt2uwubkihlqyvnxw2vpdgzwte5z4i6rv4svcgth6urh4y5v7ww.py # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.max_pool2d_with_indices] # Source node to ATen node mapping: # x_8 => 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_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=[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_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 = 32768 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) % 8 x2 = (xindex // 1024) x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + (256x1) + (4096x2)), None) tmp1 = tl.load(in_ptr0 + (128 + x0 + (256x1) + (4096x2)), None) tmp3 = tl.load(in_ptr0 + (2048 + x0 + (256x1) + (4096x2)), None) tmp5 = tl.load(in_ptr0 + (2176 + x0 + (256x1) + (4096x2)), 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/hv/chvrpuscht3ew5huphzpvx4k4mjjebddshmvrmrmsuwizuminzib.py # Topologically Sorted Source Nodes: [conv2d_6, x_9], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # conv2d_6 => convolution_6 # x_9 => relu_6 # Graph fragment: # %convolution_6 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%getitem_4, %primals_14, %primals_15, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_6 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_6,), 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=[32768], 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 = 32768 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/wf/cwft6s4ebszk2nvzmcitru2giazmju6q2wjzvcgwf522f3bfp4fr.py # Topologically Sorted Source Nodes: [conv2d_8, cPa], Original ATen: [aten.convolution, aten.relu] # Source node to ATen node mapping: # cPa => relu_8 # conv2d_8 => convolution_8 # Graph fragment: # %convolution_8 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_7, %primals_18, %primals_19, [1, 1], [1, 1], [1, 1], False, [0, 0], 1), kwargs = {}) # %relu_8 : [num_users=2] = call_function[target=torch.ops.aten.relu.default](args = (%convolution_8,), kwargs = {}) triton_poi_fused_convolution_relu_12 = async_compile.triton('triton_poi_fused_convolution_relu_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=[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_12', '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_12(in_out_ptr0, in_ptr0, 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) 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/3z/c3zosj3ca22w2t2o2govf4kqvmulzz5pbjwn2xlxhcpuhz6sdfgk.py # Topologically Sorted Source Nodes: [semi], Original ATen: [aten.convolution] # Source node to ATen node mapping: # semi => convolution_9 # Graph fragment: # %convolution_9 : [num_users=1] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_8, %primals_20, %primals_21, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) triton_poi_fused_convolution_13 = async_compile.triton('triton_poi_fused_convolution_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=[512, 64], 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, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_convolution_13', '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_13(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 260 xnumel = 64 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 % 65 y1 = (yindex // 65) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (65x2) + (4160y1)), 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 + (64y3)), tmp2, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/kw/ckwbdc6mpm4w3e5dvdufcdqzqlfmrg7ywg7xhvf7ehg5aujccezf.py # Topologically Sorted Source Nodes: [desc, dn], Original ATen: [aten.convolution, aten.linalg_vector_norm] # Source node to ATen node mapping: # desc => convolution_11 # dn => pow_1, pow_2, sum_1 # Graph fragment: # %convolution_11 : [num_users=3] = call_function[target=torch.ops.aten.convolution.default](args = (%relu_9, %primals_24, %primals_25, [1, 1], [0, 0], [1, 1], False, [0, 0], 1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%convolution_11, 2), kwargs = {}) # %sum_1 : [num_users=1] = call_function[target=torch.ops.aten.sum.dim_IntList](args = (%pow_1, [1]), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sum_1, 0.5), kwargs = {}) triton_per_fused_convolution_linalg_vector_norm_14 = async_compile.triton('triton_per_fused_convolution_linalg_vector_norm_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.persistent_reduction( size_hints=[256, 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': {}, 'configs': [AttrsDescriptor(divisible_by_16=(0, 1, 2, 3, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_per_fused_convolution_linalg_vector_norm_14', 'mutated_arg_names': ['in_out_ptr0', 'in_out_ptr1'], '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_convolution_linalg_vector_norm_14(in_out_ptr0, in_out_ptr1, in_ptr0, xnumel, rnumel): xnumel = 256 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) r1 = rindex x0 = xindex tmp0 = tl.load(in_out_ptr0 + (r1 + (256x0)), None) tmp1 = tl.load(in_ptr0 + (r1), None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tmp2 tmp2 tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp7 = libdevice.sqrt(tmp6) tl.store(in_out_ptr0 + (r1 + (256x0)), tmp2, None) tl.debug_barrier() tl.store(in_out_ptr1 + (x0), tmp7, None) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/ao/caoynrmj6gu3cps5v4rosvzjj4ghex624ebqdppg75jlzpuf5dq6.py # Topologically Sorted Source Nodes: [desc_1], Original ATen: [aten.div] # Source node to ATen node mapping: # desc_1 => div # Graph fragment: # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%convolution_11, %unsqueeze), kwargs = {}) triton_poi_fused_div_15 = async_compile.triton('triton_poi_fused_div_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=[1024, 64], 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, 4), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_div_15', '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_div_15(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK : tl.constexpr, XBLOCK : tl.constexpr): ynumel = 1024 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 % 256 y1 = (yindex // 256) y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + (256x2) + (16384y1)), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x2 + (64y1)), xmask, eviction_policy='evict_last') tmp2 = tmp0 / tmp1 tl.store(out_ptr0 + (x2 + (64y3)), 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, 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 = 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, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64, ), (1, )) assert_size_stride(primals_6, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_7, (64, ), (1, )) assert_size_stride(primals_8, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_9, (64, ), (1, )) assert_size_stride(primals_10, (128, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_11, (128, ), (1, )) assert_size_stride(primals_12, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_13, (128, ), (1, )) assert_size_stride(primals_14, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_15, (128, ), (1, )) assert_size_stride(primals_16, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_17, (128, ), (1, )) assert_size_stride(primals_18, (256, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_19, (256, ), (1, )) assert_size_stride(primals_20, (65, 256, 1, 1), (256, 1, 1, 1)) assert_size_stride(primals_21, (65, ), (1, )) assert_size_stride(primals_22, (256, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_23, (256, ), (1, )) assert_size_stride(primals_24, (256, 256, 1, 1), (256, 1, 1, 1)) assert_size_stride(primals_25, (256, ), (1, )) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 64, 3, 3), (576, 1, 192, 64), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] stream0 = get_raw_stream(0) triton_poi_fused_0.run(primals_4, buf0, 4096, 9, grid=grid(4096, 9), stream=stream0) del primals_4 buf1 = empty_strided_cuda((64, 64, 3, 3), (576, 1, 192, 64), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_0.run(primals_6, buf1, 4096, 9, grid=grid(4096, 9), stream=stream0) del primals_6 buf2 = empty_strided_cuda((64, 64, 3, 3), (576, 1, 192, 64), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_0.run(primals_8, buf2, 4096, 9, grid=grid(4096, 9), stream=stream0) del primals_8 buf3 = empty_strided_cuda((128, 64, 3, 3), (576, 1, 192, 64), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_1.run(primals_10, buf3, 8192, 9, grid=grid(8192, 9), stream=stream0) del primals_10 buf4 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(primals_12, buf4, 16384, 9, grid=grid(16384, 9), stream=stream0) del primals_12 buf5 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(primals_14, buf5, 16384, 9, grid=grid(16384, 9), stream=stream0) del primals_14 buf6 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_2.run(primals_16, buf6, 16384, 9, grid=grid(16384, 9), stream=stream0) del primals_16 buf7 = empty_strided_cuda((256, 128, 3, 3), (1152, 1, 384, 128), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_3.run(primals_18, buf7, 32768, 9, grid=grid(32768, 9), stream=stream0) del primals_18 buf8 = empty_strided_cuda((256, 128, 3, 3), (1152, 1, 384, 128), torch.float32) # Unsorted Source Nodes: [], Original ATen: [] triton_poi_fused_3.run(primals_22, buf8, 32768, 9, grid=grid(32768, 9), stream=stream0) del primals_22 # Topologically Sorted Source Nodes: [conv2d], Original ATen: [aten.convolution] buf9 = 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(buf9, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf10 = empty_strided_cuda((4, 64, 64, 64), (262144, 1, 4096, 64), torch.float32) # Topologically Sorted Source Nodes: [conv2d, x], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_4.run(buf9, primals_2, buf10, 256, 4096, grid=grid(256, 4096), stream=stream0) del buf9 del primals_2 # Topologically Sorted Source Nodes: [conv2d_1], Original ATen: [aten.convolution] buf11 = extern_kernels.convolution(buf10, buf0, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf11, (4, 64, 64, 64), (262144, 1, 4096, 64)) buf12 = buf11; del buf11 # reuse # Topologically Sorted Source Nodes: [conv2d_1, x_1], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_5.run(buf12, primals_5, 1048576, grid=grid(1048576), stream=stream0) del primals_5 buf13 = empty_strided_cuda((4, 64, 32, 32), (65536, 1, 2048, 64), torch.float32) buf14 = empty_strided_cuda((4, 64, 32, 32), (65536, 1, 2048, 64), torch.int8) # Topologically Sorted Source Nodes: [x_2], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_6.run(buf12, buf13, buf14, 262144, grid=grid(262144), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_2], Original ATen: [aten.convolution] buf15 = extern_kernels.convolution(buf13, buf1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf15, (4, 64, 32, 32), (65536, 1, 2048, 64)) buf16 = buf15; del buf15 # reuse # Topologically Sorted Source Nodes: [conv2d_2, x_3], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_7.run(buf16, primals_7, 262144, grid=grid(262144), stream=stream0) del primals_7 # Topologically Sorted Source Nodes: [conv2d_3], Original ATen: [aten.convolution] buf17 = extern_kernels.convolution(buf16, buf2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf17, (4, 64, 32, 32), (65536, 1, 2048, 64)) buf18 = buf17; del buf17 # reuse # Topologically Sorted Source Nodes: [conv2d_3, x_4], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_7.run(buf18, primals_9, 262144, grid=grid(262144), stream=stream0) del primals_9 buf19 = empty_strided_cuda((4, 64, 16, 16), (16384, 1, 1024, 64), torch.float32) buf20 = empty_strided_cuda((4, 64, 16, 16), (16384, 1, 1024, 64), torch.int8) # Topologically Sorted Source Nodes: [x_5], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_8.run(buf18, buf19, buf20, 65536, grid=grid(65536), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_4], Original ATen: [aten.convolution] buf21 = extern_kernels.convolution(buf19, buf3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf21, (4, 128, 16, 16), (32768, 1, 2048, 128)) buf22 = buf21; del buf21 # reuse # Topologically Sorted Source Nodes: [conv2d_4, x_6], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_9.run(buf22, primals_11, 131072, grid=grid(131072), stream=stream0) del primals_11 # Topologically Sorted Source Nodes: [conv2d_5], Original ATen: [aten.convolution] buf23 = extern_kernels.convolution(buf22, buf4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf23, (4, 128, 16, 16), (32768, 1, 2048, 128)) buf24 = buf23; del buf23 # reuse # Topologically Sorted Source Nodes: [conv2d_5, x_7], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_9.run(buf24, primals_13, 131072, grid=grid(131072), stream=stream0) del primals_13 buf25 = empty_strided_cuda((4, 128, 8, 8), (8192, 1, 1024, 128), torch.float32) buf26 = empty_strided_cuda((4, 128, 8, 8), (8192, 1, 1024, 128), torch.int8) # Topologically Sorted Source Nodes: [x_8], Original ATen: [aten.max_pool2d_with_indices] triton_poi_fused_max_pool2d_with_indices_10.run(buf24, buf25, buf26, 32768, grid=grid(32768), stream=stream0) # Topologically Sorted Source Nodes: [conv2d_6], Original ATen: [aten.convolution] buf27 = extern_kernels.convolution(buf25, buf5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf27, (4, 128, 8, 8), (8192, 1, 1024, 128)) buf28 = buf27; del buf27 # reuse # Topologically Sorted Source Nodes: [conv2d_6, x_9], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_11.run(buf28, primals_15, 32768, grid=grid(32768), stream=stream0) del primals_15 # Topologically Sorted Source Nodes: [conv2d_7], Original ATen: [aten.convolution] buf29 = extern_kernels.convolution(buf28, buf6, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf29, (4, 128, 8, 8), (8192, 1, 1024, 128)) buf30 = buf29; del buf29 # reuse # Topologically Sorted Source Nodes: [conv2d_7, x_10], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_11.run(buf30, primals_17, 32768, grid=grid(32768), stream=stream0) del primals_17 # Topologically Sorted Source Nodes: [conv2d_8], Original ATen: [aten.convolution] buf31 = extern_kernels.convolution(buf30, buf7, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf31, (4, 256, 8, 8), (16384, 1, 2048, 256)) buf32 = buf31; del buf31 # reuse # Topologically Sorted Source Nodes: [conv2d_8, cPa], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_12.run(buf32, primals_19, 65536, grid=grid(65536), stream=stream0) del primals_19 # Topologically Sorted Source Nodes: [semi], Original ATen: [aten.convolution] buf33 = extern_kernels.convolution(buf32, primals_20, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf33, (4, 65, 8, 8), (4160, 1, 520, 65)) buf34 = empty_strided_cuda((4, 65, 8, 8), (4160, 64, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [semi], Original ATen: [aten.convolution] triton_poi_fused_convolution_13.run(buf33, primals_21, buf34, 260, 64, grid=grid(260, 64), stream=stream0) del buf33 del primals_21 # Topologically Sorted Source Nodes: [conv2d_10], Original ATen: [aten.convolution] buf35 = extern_kernels.convolution(buf30, buf8, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf35, (4, 256, 8, 8), (16384, 1, 2048, 256)) buf36 = buf35; del buf35 # reuse # Topologically Sorted Source Nodes: [conv2d_10, cDa], Original ATen: [aten.convolution, aten.relu] triton_poi_fused_convolution_relu_12.run(buf36, primals_23, 65536, grid=grid(65536), stream=stream0) del primals_23 # Topologically Sorted Source Nodes: [desc], Original ATen: [aten.convolution] buf37 = extern_kernels.convolution(buf36, primals_24, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf37, (4, 256, 8, 8), (16384, 1, 2048, 256)) buf38 = buf37; del buf37 # reuse buf39 = empty_strided_cuda((4, 8, 8), (64, 8, 1), torch.float32) buf40 = buf39; del buf39 # reuse # Topologically Sorted Source Nodes: [desc, dn], Original ATen: [aten.convolution, aten.linalg_vector_norm] triton_per_fused_convolution_linalg_vector_norm_14.run(buf38, buf40, primals_25, 256, 256, grid=grid(256), stream=stream0) del primals_25 buf41 = empty_strided_cuda((4, 256, 8, 8), (16384, 64, 8, 1), torch.float32) # Topologically Sorted Source Nodes: [desc_1], Original ATen: [aten.div] triton_poi_fused_div_15.run(buf38, buf40, buf41, 1024, 64, grid=grid(1024, 64), stream=stream0) return (buf34, buf41, primals_1, primals_3, buf0, buf1, buf2, buf3, buf4, buf5, buf6, buf7, primals_20, buf8, primals_24, buf10, buf12, buf13, buf14, buf16, buf18, buf19, buf20, buf22, buf24, buf25, buf26, buf28, buf30, buf32, buf36, buf38, reinterpret_tensor(buf40, (4, 1, 8, 8), (64, 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 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((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((64, 64, 3, 3), (576, 9, 3, 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, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_9 = rand_strided((64, ), (1, ), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((128, 64, 3, 3), (576, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((128, 128, 3, 3), (1152, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_14 = rand_strided((128, 128, 3, 3), (1152, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_15 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_16 = rand_strided((128, 128, 3, 3), (1152, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_17 = rand_strided((128, ), (1, ), device='cuda:0', dtype=torch.float32) primals_18 = rand_strided((256, 128, 3, 3), (1152, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_19 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_20 = rand_strided((65, 256, 1, 1), (256, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_21 = rand_strided((65, ), (1, ), device='cuda:0', dtype=torch.float32) primals_22 = rand_strided((256, 128, 3, 3), (1152, 9, 3, 1), device='cuda:0', dtype=torch.float32) primals_23 = rand_strided((256, ), (1, ), device='cuda:0', dtype=torch.float32) primals_24 = rand_strided((256, 256, 1, 1), (256, 1, 1, 1), device='cuda:0', dtype=torch.float32) primals_25 = rand_strided((256, ), (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]) 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 SuperPointNet(torch.nn.Module): """ Pytorch definition of SuperPoint Network. """ def __init__(self): super(SuperPointNet, self).__init__() self.relu = torch.nn.ReLU(inplace=True) self.pool = torch.nn.MaxPool2d(kernel_size=2, stride=2) self.numberOfClasses = 1 c1, c2, c3, c4, c5, d1 = 64, 64, 128, 128, 256, 256 self.conv1a = torch.nn.Conv2d(1, c1, kernel_size=3, stride=1, padding=1 ) self.conv1b = torch.nn.Conv2d(c1, c1, kernel_size=3, stride=1, padding=1) self.conv2a = torch.nn.Conv2d(c1, c2, kernel_size=3, stride=1, padding=1) self.conv2b = torch.nn.Conv2d(c2, c2, kernel_size=3, stride=1, padding=1) self.conv3a = torch.nn.Conv2d(c2, c3, kernel_size=3, stride=1, padding=1) self.conv3b = torch.nn.Conv2d(c3, c3, kernel_size=3, stride=1, padding=1) self.conv4a = torch.nn.Conv2d(c3, c4, kernel_size=3, stride=1, padding=1) self.conv4b = torch.nn.Conv2d(c4, c4, kernel_size=3, stride=1, padding=1) self.convPa = torch.nn.Conv2d(c4, c5, kernel_size=3, stride=1, padding=1) self.convPb = torch.nn.Conv2d(c5, 65, kernel_size=1, stride=1, padding=0) self.convDa = torch.nn.Conv2d(c4, c5, kernel_size=3, stride=1, padding=1) self.convDb = torch.nn.Conv2d(c5, d1, kernel_size=1, stride=1, padding=0) def forward(self, x): """ Forward pass that jointly computes unprocessed point and descriptor tensors. Input x: Image pytorch tensor shaped N x 1 x H x W. Output semi: Output point pytorch tensor shaped N x 65 x H/8 x W/8.git c desc: Output descriptor pytorch tensor shaped N x 256 x H/8 x W/8. """ x = self.relu(self.conv1a(x)) x = self.relu(self.conv1b(x)) x = self.pool(x) x = self.relu(self.conv2a(x)) x = self.relu(self.conv2b(x)) x = self.pool(x) x = self.relu(self.conv3a(x)) x = self.relu(self.conv3b(x)) x = self.pool(x) x = self.relu(self.conv4a(x)) x = self.relu(self.conv4b(x)) cPa = self.relu(self.convPa(x)) semi = self.convPb(cPa) cDa = self.relu(self.convDa(x)) desc = self.convDb(cDa) dn = torch.norm(desc, p=2, dim=1) desc = desc.div(torch.unsqueeze(dn, 1)) return semi, desc 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 from torch._inductor.runtime.triton_helpers import libdevice 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, 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_1(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_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 % 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_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 % 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_convolution_relu_4(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 256 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 % 64 y1 = yindex // 64 tmp0 = tl.load(in_ptr0 + (x2 + 4096 * y3), ymask, eviction_policy= 'evict_last') tmp1 = tl.load(in_ptr1 + y0, ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tl.full([1, 1], 0, tl.int32) tmp4 = triton_helpers.maximum(tmp3, tmp2) tl.store(out_ptr0 + (y0 + 64 * x2 + 262144 * y1), tmp4, ymask) @triton.jit def triton_poi_fused_convolution_relu_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) 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_6(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_7(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_8(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 % 16 x2 = xindex // 1024 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 128 * x1 + 4096 * x2), None) tmp1 = tl.load(in_ptr0 + (64 + x0 + 128 * x1 + 4096 * x2), None) tmp3 = tl.load(in_ptr0 + (2048 + x0 + 128 * x1 + 4096 * x2), None) tmp5 = tl.load(in_ptr0 + (2112 + x0 + 128 * x1 + 4096 * 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_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 % 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_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 % 128 x1 = xindex // 128 % 8 x2 = xindex // 1024 x3 = xindex tmp0 = tl.load(in_ptr0 + (x0 + 256 * x1 + 4096 * x2), None) tmp1 = tl.load(in_ptr0 + (128 + x0 + 256 * x1 + 4096 * x2), None) tmp3 = tl.load(in_ptr0 + (2048 + x0 + 256 * x1 + 4096 * x2), None) tmp5 = tl.load(in_ptr0 + (2176 + x0 + 256 * x1 + 4096 * 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_convolution_relu_12(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_convolution_13(in_ptr0, in_ptr1, out_ptr0, ynumel, xnumel, YBLOCK: tl.constexpr, XBLOCK: tl.constexpr): ynumel = 260 xnumel = 64 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 % 65 y1 = yindex // 65 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 65 * x2 + 4160 * 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 + 64 * y3), tmp2, xmask & ymask) @triton.jit def triton_per_fused_convolution_linalg_vector_norm_14(in_out_ptr0, in_out_ptr1, in_ptr0, xnumel, rnumel): XBLOCK: tl.constexpr = 1 RBLOCK: tl.constexpr = 256 xoffset = tl.program_id(0) * XBLOCK xindex = tl.full([1], xoffset, tl.int32) tl.full([RBLOCK], True, tl.int1) rindex = tl.arange(0, RBLOCK)[:] tl.full([RBLOCK], True, tl.int1) r1 = rindex x0 = xindex tmp0 = tl.load(in_out_ptr0 + (r1 + 256 * x0), None) tmp1 = tl.load(in_ptr0 + r1, None, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp3 = tmp2 * tmp2 tmp4 = tl.broadcast_to(tmp3, [RBLOCK]) tmp6 = triton_helpers.promote_to_tensor(tl.sum(tmp4, 0)) tmp7 = libdevice.sqrt(tmp6) tl.store(in_out_ptr0 + (r1 + 256 * x0), tmp2, None) tl.debug_barrier() tl.store(in_out_ptr1 + x0, tmp7, None) @triton.jit def triton_poi_fused_div_15(in_ptr0, in_ptr1, out_ptr0, 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 % 256 y1 = yindex // 256 y3 = yindex tmp0 = tl.load(in_ptr0 + (y0 + 256 * x2 + 16384 * y1), xmask, eviction_policy='evict_last') tmp1 = tl.load(in_ptr1 + (x2 + 64 * y1), xmask, eviction_policy= 'evict_last') tmp2 = tmp0 / tmp1 tl.store(out_ptr0 + (x2 + 64 * y3), tmp2, 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) = 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, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_5, (64,), (1,)) assert_size_stride(primals_6, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_7, (64,), (1,)) assert_size_stride(primals_8, (64, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_9, (64,), (1,)) assert_size_stride(primals_10, (128, 64, 3, 3), (576, 9, 3, 1)) assert_size_stride(primals_11, (128,), (1,)) assert_size_stride(primals_12, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_13, (128,), (1,)) assert_size_stride(primals_14, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_15, (128,), (1,)) assert_size_stride(primals_16, (128, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_17, (128,), (1,)) assert_size_stride(primals_18, (256, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_19, (256,), (1,)) assert_size_stride(primals_20, (65, 256, 1, 1), (256, 1, 1, 1)) assert_size_stride(primals_21, (65,), (1,)) assert_size_stride(primals_22, (256, 128, 3, 3), (1152, 9, 3, 1)) assert_size_stride(primals_23, (256,), (1,)) assert_size_stride(primals_24, (256, 256, 1, 1), (256, 1, 1, 1)) assert_size_stride(primals_25, (256,), (1,)) with torch.cuda._DeviceGuard(0): torch.cuda.set_device(0) buf0 = empty_strided_cuda((64, 64, 3, 3), (576, 1, 192, 64), torch. float32) get_raw_stream(0) triton_poi_fused_0[grid(4096, 9)](primals_4, buf0, 4096, 9, XBLOCK= 16, YBLOCK=64, num_warps=4, num_stages=1) del primals_4 buf1 = empty_strided_cuda((64, 64, 3, 3), (576, 1, 192, 64), torch. float32) triton_poi_fused_0[grid(4096, 9)](primals_6, buf1, 4096, 9, XBLOCK= 16, YBLOCK=64, num_warps=4, num_stages=1) del primals_6 buf2 = empty_strided_cuda((64, 64, 3, 3), (576, 1, 192, 64), torch. float32) triton_poi_fused_0[grid(4096, 9)](primals_8, buf2, 4096, 9, XBLOCK= 16, YBLOCK=64, num_warps=4, num_stages=1) del primals_8 buf3 = empty_strided_cuda((128, 64, 3, 3), (576, 1, 192, 64), torch .float32) triton_poi_fused_1[grid(8192, 9)](primals_10, buf3, 8192, 9, XBLOCK =16, YBLOCK=64, num_warps=4, num_stages=1) del primals_10 buf4 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) triton_poi_fused_2[grid(16384, 9)](primals_12, buf4, 16384, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_12 buf5 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) triton_poi_fused_2[grid(16384, 9)](primals_14, buf5, 16384, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_14 buf6 = empty_strided_cuda((128, 128, 3, 3), (1152, 1, 384, 128), torch.float32) triton_poi_fused_2[grid(16384, 9)](primals_16, buf6, 16384, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_16 buf7 = empty_strided_cuda((256, 128, 3, 3), (1152, 1, 384, 128), torch.float32) triton_poi_fused_3[grid(32768, 9)](primals_18, buf7, 32768, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_18 buf8 = empty_strided_cuda((256, 128, 3, 3), (1152, 1, 384, 128), torch.float32) triton_poi_fused_3[grid(32768, 9)](primals_22, buf8, 32768, 9, XBLOCK=16, YBLOCK=64, num_warps=4, num_stages=1) del primals_22 buf9 = 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(buf9, (4, 64, 64, 64), (262144, 4096, 64, 1)) buf10 = empty_strided_cuda((4, 64, 64, 64), (262144, 1, 4096, 64), torch.float32) triton_poi_fused_convolution_relu_4[grid(256, 4096)](buf9, primals_2, buf10, 256, 4096, XBLOCK=16, YBLOCK=256, num_warps=8, num_stages=1) del buf9 del primals_2 buf11 = extern_kernels.convolution(buf10, buf0, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf11, (4, 64, 64, 64), (262144, 1, 4096, 64)) buf12 = buf11 del buf11 triton_poi_fused_convolution_relu_5[grid(1048576)](buf12, primals_5, 1048576, XBLOCK=1024, num_warps=4, num_stages=1) del primals_5 buf13 = empty_strided_cuda((4, 64, 32, 32), (65536, 1, 2048, 64), torch.float32) buf14 = empty_strided_cuda((4, 64, 32, 32), (65536, 1, 2048, 64), torch.int8) triton_poi_fused_max_pool2d_with_indices_6[grid(262144)](buf12, buf13, buf14, 262144, XBLOCK=512, num_warps=8, num_stages=1) buf15 = extern_kernels.convolution(buf13, buf1, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf15, (4, 64, 32, 32), (65536, 1, 2048, 64)) buf16 = buf15 del buf15 triton_poi_fused_convolution_relu_7[grid(262144)](buf16, primals_7, 262144, XBLOCK=1024, num_warps=4, num_stages=1) del primals_7 buf17 = extern_kernels.convolution(buf16, buf2, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf17, (4, 64, 32, 32), (65536, 1, 2048, 64)) buf18 = buf17 del buf17 triton_poi_fused_convolution_relu_7[grid(262144)](buf18, primals_9, 262144, XBLOCK=1024, num_warps=4, num_stages=1) del primals_9 buf19 = empty_strided_cuda((4, 64, 16, 16), (16384, 1, 1024, 64), torch.float32) buf20 = empty_strided_cuda((4, 64, 16, 16), (16384, 1, 1024, 64), torch.int8) triton_poi_fused_max_pool2d_with_indices_8[grid(65536)](buf18, buf19, buf20, 65536, XBLOCK=512, num_warps=4, num_stages=1) buf21 = extern_kernels.convolution(buf19, buf3, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf21, (4, 128, 16, 16), (32768, 1, 2048, 128)) buf22 = buf21 del buf21 triton_poi_fused_convolution_relu_9[grid(131072)](buf22, primals_11, 131072, XBLOCK=1024, num_warps=4, num_stages=1) del primals_11 buf23 = extern_kernels.convolution(buf22, buf4, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf23, (4, 128, 16, 16), (32768, 1, 2048, 128)) buf24 = buf23 del buf23 triton_poi_fused_convolution_relu_9[grid(131072)](buf24, primals_13, 131072, XBLOCK=1024, num_warps=4, num_stages=1) del primals_13 buf25 = empty_strided_cuda((4, 128, 8, 8), (8192, 1, 1024, 128), torch.float32) buf26 = empty_strided_cuda((4, 128, 8, 8), (8192, 1, 1024, 128), torch.int8) triton_poi_fused_max_pool2d_with_indices_10[grid(32768)](buf24, buf25, buf26, 32768, XBLOCK=256, num_warps=4, num_stages=1) buf27 = extern_kernels.convolution(buf25, buf5, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf27, (4, 128, 8, 8), (8192, 1, 1024, 128)) buf28 = buf27 del buf27 triton_poi_fused_convolution_relu_11[grid(32768)](buf28, primals_15, 32768, XBLOCK=128, num_warps=4, num_stages=1) del primals_15 buf29 = extern_kernels.convolution(buf28, buf6, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf29, (4, 128, 8, 8), (8192, 1, 1024, 128)) buf30 = buf29 del buf29 triton_poi_fused_convolution_relu_11[grid(32768)](buf30, primals_17, 32768, XBLOCK=128, num_warps=4, num_stages=1) del primals_17 buf31 = extern_kernels.convolution(buf30, buf7, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf31, (4, 256, 8, 8), (16384, 1, 2048, 256)) buf32 = buf31 del buf31 triton_poi_fused_convolution_relu_12[grid(65536)](buf32, primals_19, 65536, XBLOCK=512, num_warps=4, num_stages=1) del primals_19 buf33 = extern_kernels.convolution(buf32, primals_20, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf33, (4, 65, 8, 8), (4160, 1, 520, 65)) buf34 = empty_strided_cuda((4, 65, 8, 8), (4160, 64, 8, 1), torch. float32) triton_poi_fused_convolution_13[grid(260, 64)](buf33, primals_21, buf34, 260, 64, XBLOCK=64, YBLOCK=4, num_warps=4, num_stages=1) del buf33 del primals_21 buf35 = extern_kernels.convolution(buf30, buf8, stride=(1, 1), padding=(1, 1), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf35, (4, 256, 8, 8), (16384, 1, 2048, 256)) buf36 = buf35 del buf35 triton_poi_fused_convolution_relu_12[grid(65536)](buf36, primals_23, 65536, XBLOCK=512, num_warps=4, num_stages=1) del primals_23 buf37 = extern_kernels.convolution(buf36, primals_24, stride=(1, 1), padding=(0, 0), dilation=(1, 1), transposed=False, output_padding=(0, 0), groups=1, bias=None) assert_size_stride(buf37, (4, 256, 8, 8), (16384, 1, 2048, 256)) buf38 = buf37 del buf37 buf39 = empty_strided_cuda((4, 8, 8), (64, 8, 1), torch.float32) buf40 = buf39 del buf39 triton_per_fused_convolution_linalg_vector_norm_14[grid(256)](buf38, buf40, primals_25, 256, 256, num_warps=2, num_stages=1) del primals_25 buf41 = empty_strided_cuda((4, 256, 8, 8), (16384, 64, 8, 1), torch .float32) triton_poi_fused_div_15[grid(1024, 64)](buf38, buf40, buf41, 1024, 64, XBLOCK=64, YBLOCK=8, num_warps=4, num_stages=1) return (buf34, buf41, primals_1, primals_3, buf0, buf1, buf2, buf3, buf4, buf5, buf6, buf7, primals_20, buf8, primals_24, buf10, buf12, buf13, buf14, buf16, buf18, buf19, buf20, buf22, buf24, buf25, buf26, buf28, buf30, buf32, buf36, buf38, reinterpret_tensor(buf40, (4, 1, 8, 8), (64, 64, 8, 1), 0)) class SuperPointNetNew(torch.nn.Module): """ Pytorch definition of SuperPoint Network. """ def __init__(self): super(SuperPointNetNew, self).__init__() self.relu = torch.nn.ReLU(inplace=True) self.pool = torch.nn.MaxPool2d(kernel_size=2, stride=2) self.numberOfClasses = 1 c1, c2, c3, c4, c5, d1 = 64, 64, 128, 128, 256, 256 self.conv1a = torch.nn.Conv2d(1, c1, kernel_size=3, stride=1, padding=1 ) self.conv1b = torch.nn.Conv2d(c1, c1, kernel_size=3, stride=1, padding=1) self.conv2a = torch.nn.Conv2d(c1, c2, kernel_size=3, stride=1, padding=1) self.conv2b = torch.nn.Conv2d(c2, c2, kernel_size=3, stride=1, padding=1) self.conv3a = torch.nn.Conv2d(c2, c3, kernel_size=3, stride=1, padding=1) self.conv3b = torch.nn.Conv2d(c3, c3, kernel_size=3, stride=1, padding=1) self.conv4a = torch.nn.Conv2d(c3, c4, kernel_size=3, stride=1, padding=1) self.conv4b = torch.nn.Conv2d(c4, c4, kernel_size=3, stride=1, padding=1) self.convPa = torch.nn.Conv2d(c4, c5, kernel_size=3, stride=1, padding=1) self.convPb = torch.nn.Conv2d(c5, 65, kernel_size=1, stride=1, padding=0) self.convDa = torch.nn.Conv2d(c4, c5, kernel_size=3, stride=1, padding=1) self.convDb = torch.nn.Conv2d(c5, d1, kernel_size=1, stride=1, padding=0) def forward(self, input_0): primals_1 = self.conv1a.weight primals_2 = self.conv1a.bias primals_4 = self.conv1b.weight primals_5 = self.conv1b.bias primals_6 = self.conv2a.weight primals_7 = self.conv2a.bias primals_8 = self.conv2b.weight primals_9 = self.conv2b.bias primals_10 = self.conv3a.weight primals_11 = self.conv3a.bias primals_12 = self.conv3b.weight primals_13 = self.conv3b.bias primals_14 = self.conv4a.weight primals_15 = self.conv4a.bias primals_16 = self.conv4b.weight primals_17 = self.conv4b.bias primals_18 = self.convPa.weight primals_19 = self.convPa.bias primals_20 = self.convPb.weight primals_21 = self.convPb.bias primals_22 = self.convDa.weight primals_23 = self.convDa.bias primals_24 = self.convDb.weight primals_25 = self.convDb.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]) return output[0], output[1]	MamonaAwan/UnsupervisedLandmarks	SuperPointNet	false	8,544	[ "MIT" ]	26	89180755b891fd28e0199560d628dc8b0d2b3e68	https://github.com/MamonaAwan/UnsupervisedLandmarks/tree/89180755b891fd28e0199560d628dc8b0d2b3e68
TonemappedRelativeMSE	# 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/cyks3lowbkwrxouio3qhyguiujt2olprwxmb2lbwcdvmul2fbndq.py # Topologically Sorted Source Nodes: [im, add, im_1, im_2, add_1, ref, sub, mse, pow_2, add_2, loss, mean, loss_1], Original ATen: [aten.clamp, aten.add, aten.div, aten.sub, aten.pow, aten.mean, aten.mul] # Source node to ATen node mapping: # add => add # add_1 => add_1 # add_2 => add_2 # im => clamp_min # im_1 => div # im_2 => clamp_min_1 # loss => div_2 # loss_1 => mul # mean => mean # mse => pow_1 # pow_2 => pow_2 # ref => div_1 # sub => sub # Graph fragment: # %clamp_min : [num_users=2] = call_function[target=torch.ops.aten.clamp_min.default](args = (%arg0_1, 0), kwargs = {}) # %add : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%clamp_min, 1), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%clamp_min, %add), kwargs = {}) # %clamp_min_1 : [num_users=2] = call_function[target=torch.ops.aten.clamp_min.default](args = (%arg1_1, 0), kwargs = {}) # %add_1 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%clamp_min_1, 1), kwargs = {}) # %div_1 : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%clamp_min_1, %add_1), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%div, %div_1), kwargs = {}) # %pow_1 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%sub, 2), kwargs = {}) # %pow_2 : [num_users=1] = call_function[target=torch.ops.aten.pow.Tensor_Scalar](args = (%div_1, 2), kwargs = {}) # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%pow_2, 0.01), kwargs = {}) # %div_2 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%pow_1, %add_2), kwargs = {}) # %mean : [num_users=1] = call_function[target=torch.ops.aten.mean.default](args = (%div_2,), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%mean, 0.5), kwargs = {}) triton_per_fused_add_clamp_div_mean_mul_pow_sub_0 = async_compile.triton('triton_per_fused_add_clamp_div_mean_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.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_clamp_div_mean_mul_pow_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_clamp_div_mean_mul_pow_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) tmp6 = tl.load(in_ptr1 + (r0), None) tmp1 = 0.0 tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp3 = 1.0 tmp4 = tmp2 + tmp3 tmp5 = tmp2 / tmp4 tmp7 = triton_helpers.maximum(tmp6, tmp1) tmp8 = tmp7 + tmp3 tmp9 = tmp7 / tmp8 tmp10 = tmp5 - tmp9 tmp11 = tmp10 * tmp10 tmp12 = tmp9 * tmp9 tmp13 = 0.01 tmp14 = tmp12 + tmp13 tmp15 = tmp11 / tmp14 tmp16 = tl.broadcast_to(tmp15, [RBLOCK]) tmp18 = triton_helpers.promote_to_tensor(tl.sum(tmp16, 0)) tmp19 = 256.0 tmp20 = tmp18 / tmp19 tmp21 = 0.5 tmp22 = tmp20 * tmp21 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp22, 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: [im, add, im_1, im_2, add_1, ref, sub, mse, pow_2, add_2, loss, mean, loss_1], Original ATen: [aten.clamp, aten.add, aten.div, aten.sub, aten.pow, aten.mean, aten.mul] stream0 = get_raw_stream(0) triton_per_fused_add_clamp_div_mean_mul_pow_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 def _tonemap(im): """Helper Reinhards tonemapper. Args: im(torch.Tensor): image to tonemap. Returns: (torch.Tensor) tonemaped image. """ im = torch.clamp(im, min=0) return im / (1 + im) class TonemappedRelativeMSE(torch.nn.Module): """Relative mean-squared error on tonemaped images. Args: eps(float): small number to avoid division by 0. """ def __init__(self, eps=0.01): super(TonemappedRelativeMSE, self).__init__() self.eps = eps def forward(self, im, ref): im = _tonemap(im) ref = _tonemap(ref) mse = torch.pow(im - ref, 2) loss = mse / (torch.pow(ref, 2) + self.eps) loss = 0.5 * torch.mean(loss) 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 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_div_mean_mul_pow_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) tmp6 = tl.load(in_ptr1 + r0, None) tmp1 = 0.0 tmp2 = triton_helpers.maximum(tmp0, tmp1) tmp3 = 1.0 tmp4 = tmp2 + tmp3 tmp5 = tmp2 / tmp4 tmp7 = triton_helpers.maximum(tmp6, tmp1) tmp8 = tmp7 + tmp3 tmp9 = tmp7 / tmp8 tmp10 = tmp5 - tmp9 tmp11 = tmp10 * tmp10 tmp12 = tmp9 * tmp9 tmp13 = 0.01 tmp14 = tmp12 + tmp13 tmp15 = tmp11 / tmp14 tmp16 = tl.broadcast_to(tmp15, [RBLOCK]) tmp18 = triton_helpers.promote_to_tensor(tl.sum(tmp16, 0)) tmp19 = 256.0 tmp20 = tmp18 / tmp19 tmp21 = 0.5 tmp22 = tmp20 * tmp21 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp22, 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_clamp_div_mean_mul_pow_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, def _tonemap(im): """Helper Reinhards tonemapper. Args: im(torch.Tensor): image to tonemap. Returns: (torch.Tensor) tonemaped image. """ im = torch.clamp(im, min=0) return im / (1 + im) class TonemappedRelativeMSENew(torch.nn.Module): """Relative mean-squared error on tonemaped images. Args: eps(float): small number to avoid division by 0. """ def __init__(self, eps=0.01): super(TonemappedRelativeMSENew, 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]	Mephisto405/WCMC-Public	TonemappedRelativeMSE	false	8,545	[ "BSD-2-Clause" ]	19	bd54f218d5239db84f404fbe1b465f9497bcf9e4	https://github.com/Mephisto405/WCMC-Public/tree/bd54f218d5239db84f404fbe1b465f9497bcf9e4
RelPositionMultiHeadedAttention	# 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/yt/cytvu27ym6ghtnsvm4lszirp53ckfubnscpjkxen4eunnaaro5za.py # Topologically Sorted Source Nodes: [matrix_ac, matrix_bd], Original ATen: [aten.clone] # Source node to ATen node mapping: # matrix_ac => clone # matrix_bd => clone_2 # Graph fragment: # %clone : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand,), kwargs = {memory_format: torch.contiguous_format}) # %clone_2 : [num_users=1] = call_function[target=torch.ops.aten.clone.default](args = (%expand_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, 4], tile_hint=TileHint.DEFAULT, 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), equal_to_1=())]}, inductor_meta={'autotune_hints': set(), 'kernel_name': 'triton_poi_fused_clone_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_0(in_ptr0, in_ptr1, in_ptr2, in_ptr3, out_ptr0, out_ptr1, 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') tmp3 = tl.load(in_ptr2 + (y0), ymask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + (y0), ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp2 + tmp5 tl.store(out_ptr0 + (x2 + (4y3)), tmp4, xmask & ymask) tl.store(out_ptr1 + (x2 + (4y3)), tmp6, xmask & ymask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/eg/ceg7kyuq33wggndf6pr3tkpmtjy4bsacoa2z3paagswr3wsvq4lr.py # Topologically Sorted Source Nodes: [matrix_ac], Original ATen: [aten.clone] # Source node to ATen node mapping: # matrix_ac => 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=[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_clone_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_clone_1(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/3a/c3aaucsolrfdjphevn4qawbbrmr3jqka2dfrruxbjgx42g3fnwu6.py # Topologically Sorted Source Nodes: [matrix_bd], Original ATen: [aten.clone] # Source node to ATen node mapping: # matrix_bd => 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_2 = async_compile.triton('triton_poi_fused_clone_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, 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_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_clone_2(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/w7/cw7wrkbhfge674rv66w7saobsj5mtz374hydqj2zpynzj7gsji4q.py # Topologically Sorted Source Nodes: [mask], Original ATen: [aten.eq] # Source node to ATen node mapping: # mask => eq # Graph fragment: # %eq : [num_users=3] = call_function[target=torch.ops.aten.eq.Scalar](args = (%unsqueeze, 0), kwargs = {}) triton_poi_fused_eq_3 = async_compile.triton('triton_poi_fused_eq_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: '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_eq_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_eq_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 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/ns/cnsgd65xcenlzwn4p32niwcozvmm3gttcpyyciquvsfwrmzvpm73.py # Topologically Sorted Source Nodes: [add_2, scores, scores_1, softmax], Original ATen: [aten.add, aten.div, aten.masked_fill, aten._softmax] # Source node to ATen node mapping: # add_2 => add_2 # scores => div # scores_1 => full_default, where # softmax => amax, exp, sub, sum_1 # Graph fragment: # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_14, %view_17), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%add_2, 1.0), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], -inf), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default, %div), kwargs = {}) # %amax : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%where, [-1], True), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where, %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 = {}) triton_poi_fused__softmax_add_div_masked_fill_4 = async_compile.triton('triton_poi_fused__softmax_add_div_masked_fill_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: 'i1', 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__softmax_add_div_masked_fill_4', '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_add_div_masked_fill_4(in_ptr0, in_ptr1, in_ptr2, 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 x2 = (xindex // 16) x3 = xindex tmp0 = tl.load(in_ptr0 + ((4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + (4x3), xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + (4x3), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (1 + (4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp9 = tl.load(in_ptr1 + (1 + (4x3)), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr2 + (1 + (4x3)), xmask, eviction_policy='evict_last') tmp15 = tl.load(in_ptr0 + (2 + (4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp16 = tl.load(in_ptr1 + (2 + (4x3)), xmask, eviction_policy='evict_last') tmp17 = tl.load(in_ptr2 + (2 + (4x3)), xmask, eviction_policy='evict_last') tmp22 = tl.load(in_ptr0 + (3 + (4x0) + (16x2)), xmask, eviction_policy='evict_last').to(tl.int1) tmp23 = tl.load(in_ptr1 + (3 + (4x3)), xmask, eviction_policy='evict_last') tmp24 = tl.load(in_ptr2 + (3 + (4x3)), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = 1.0 tmp5 = tmp3 * tmp4 tmp6 = float("-inf") tmp7 = tl.where(tmp0, tmp6, tmp5) tmp11 = tmp9 + tmp10 tmp12 = tmp11 * tmp4 tmp13 = tl.where(tmp8, tmp6, tmp12) tmp14 = triton_helpers.maximum(tmp7, tmp13) tmp18 = tmp16 + tmp17 tmp19 = tmp18 * tmp4 tmp20 = tl.where(tmp15, tmp6, tmp19) tmp21 = triton_helpers.maximum(tmp14, tmp20) tmp25 = tmp23 + tmp24 tmp26 = tmp25 * tmp4 tmp27 = tl.where(tmp22, tmp6, tmp26) 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 + (x3), tmp28, xmask) tl.store(out_ptr1 + (x3), tmp39, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/av/cavvcytmdzbpkcqcyzxg3p3oe2fagjxppc25pfzn3xmbyhydguph.py # Topologically Sorted Source Nodes: [add_2, scores, scores_1, softmax, attn], Original ATen: [aten.add, aten.div, aten.masked_fill, aten._softmax] # Source node to ATen node mapping: # add_2 => add_2 # attn => full_default_1, where_1 # scores => div # scores_1 => full_default, where # softmax => div_1, exp, sub # Graph fragment: # %add_2 : [num_users=1] = call_function[target=torch.ops.aten.add.Tensor](args = (%view_14, %view_17), kwargs = {}) # %div : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%add_2, 1.0), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], -inf), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default, %div), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%where, %amax), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%sub,), kwargs = {}) # %div_1 : [num_users=2] = call_function[target=torch.ops.aten.div.Tensor](args = (%exp, %sum_1), kwargs = {}) # %full_default_1 : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where_1 : [num_users=1] = call_function[target=torch.ops.aten.where.self](args = (%eq, %full_default_1, %div_1), kwargs = {}) triton_poi_fused__softmax_add_div_masked_fill_5 = async_compile.triton('triton_poi_fused__softmax_add_div_masked_fill_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=[256], filename=__file__, triton_meta={'signature': {0: 'fp32', 1: 'i1', 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__softmax_add_div_masked_fill_5', '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_div_masked_fill_5(in_out_ptr0, 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 x3 = (xindex // 64) x4 = xindex % 16 x5 = xindex x6 = (xindex // 4) tmp0 = tl.load(in_ptr0 + (x4 + (16x3)), xmask, eviction_policy='evict_last').to(tl.int1) tmp1 = tl.load(in_out_ptr0 + (x5), xmask) tmp2 = tl.load(in_ptr1 + (x5), xmask) tmp8 = tl.load(in_ptr2 + (x6), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr3 + (x6), xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = 1.0 tmp5 = tmp3 tmp4 tmp6 = float("-inf") tmp7 = tl.where(tmp0, tmp6, tmp5) tmp9 = tmp7 - tmp8 tmp10 = tl_math.exp(tmp9) tmp12 = tmp10 / tmp11 tmp13 = 0.0 tmp14 = tl.where(tmp0, tmp13, tmp12) tl.store(in_out_ptr0 + (x5), tmp12, xmask) tl.store(out_ptr0 + (x5), tmp14, 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 = 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, ), (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), (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), (16, 4, 1)) assert_size_stride(primals_10, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_11, (4, 4), (4, 1)) assert_size_stride(primals_12, (4, 1), (1, 1)) assert_size_stride(primals_13, (4, 1), (1, 1)) assert_size_stride(primals_14, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_15, (4, 4), (4, 1)) assert_size_stride(primals_16, (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_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_6, (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_9, (16, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf2) del primals_7 buf3 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_3], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_10, (16, 4), (4, 1), 0), reinterpret_tensor(primals_11, (4, 4), (1, 4), 0), out=buf3) del primals_11 buf4 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) buf7 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [matrix_ac, matrix_bd], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_0.run(buf0, primals_3, primals_12, primals_13, buf4, buf7, 16, 4, grid=grid(16, 4), stream=stream0) del primals_12 del primals_13 del primals_3 buf5 = reinterpret_tensor(buf0, (4, 4, 1, 4), (16, 4, 4, 1), 0); del buf0 # reuse # Topologically Sorted Source Nodes: [matrix_ac], Original ATen: [aten.clone] triton_poi_fused_clone_1.run(buf1, primals_5, buf5, 16, 4, grid=grid(16, 4), stream=stream0) del primals_5 buf6 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matrix_ac], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf4, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf5, (16, 1, 4), (4, 0, 1), 0), out=buf6) buf8 = reinterpret_tensor(buf1, (4, 4, 1, 4), (16, 4, 4, 1), 0); del buf1 # reuse # Topologically Sorted Source Nodes: [matrix_bd], Original ATen: [aten.clone] triton_poi_fused_clone_2.run(buf3, buf8, 16, 4, grid=grid(16, 4), stream=stream0) buf9 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [matrix_bd], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf7, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf8, (16, 1, 4), (4, 0, 1), 0), out=buf9) buf10 = empty_strided_cuda((4, 1, 4, 4), (16, 16, 4, 1), torch.bool) # Topologically Sorted Source Nodes: [mask], Original ATen: [aten.eq] triton_poi_fused_eq_3.run(primals_14, buf10, 64, grid=grid(64), stream=stream0) del primals_14 buf11 = reinterpret_tensor(buf3, (4, 4, 4, 1), (16, 4, 1, 64), 0); del buf3 # reuse buf12 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) # Topologically Sorted Source Nodes: [add_2, scores, scores_1, softmax], Original ATen: [aten.add, aten.div, aten.masked_fill, aten._softmax] triton_poi_fused__softmax_add_div_masked_fill_4.run(buf10, buf6, buf9, buf11, buf12, 64, grid=grid(64), stream=stream0) buf13 = reinterpret_tensor(buf6, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf6 # reuse buf14 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [add_2, scores, scores_1, softmax, attn], Original ATen: [aten.add, aten.div, aten.masked_fill, aten._softmax] triton_poi_fused__softmax_add_div_masked_fill_5.run(buf13, buf10, buf9, buf11, buf12, buf14, 256, grid=grid(256), stream=stream0) del buf9 buf15 = reinterpret_tensor(buf12, (4, 4, 4, 1), (16, 4, 1, 1), 0); del buf12 # reuse # Topologically Sorted Source Nodes: [x], Original ATen: [aten.clone] triton_poi_fused_clone_1.run(buf2, primals_8, buf15, 16, 4, grid=grid(16, 4), stream=stream0) del primals_8 buf16 = reinterpret_tensor(buf2, (16, 4, 1), (4, 1, 1), 0); del buf2 # reuse # Topologically Sorted Source Nodes: [x], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf14, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf15, (16, 4, 1), (4, 1, 0), 0), out=buf16) buf17 = reinterpret_tensor(buf11, (4, 4, 4, 1), (16, 4, 1, 1), 0); del buf11 # reuse # Topologically Sorted Source Nodes: [contiguous], Original ATen: [aten.clone] triton_poi_fused_clone_2.run(buf16, buf17, 16, 4, grid=grid(16, 4), stream=stream0) buf18 = reinterpret_tensor(buf16, (16, 4), (4, 1), 0); del buf16 # reuse # Topologically Sorted Source Nodes: [linear_4], Original ATen: [aten.addmm] extern_kernels.addmm(primals_16, reinterpret_tensor(buf17, (16, 4), (4, 1), 0), reinterpret_tensor(primals_15, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf18) del primals_16 return (reinterpret_tensor(buf18, (4, 4, 4), (16, 4, 1), 0), reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_6, (16, 4), (4, 1), 0), reinterpret_tensor(primals_9, (16, 4), (4, 1), 0), reinterpret_tensor(primals_10, (16, 4), (4, 1), 0), buf10, buf13, reinterpret_tensor(buf17, (16, 4), (4, 1), 0), primals_15, reinterpret_tensor(buf14, (16, 4, 4), (16, 1, 4), 0), reinterpret_tensor(buf15, (16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf7, (16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf8, (16, 4, 1), (4, 1, 4), 0), reinterpret_tensor(buf4, (16, 1, 4), (4, 1, 1), 0), reinterpret_tensor(buf5, (16, 4, 1), (4, 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, 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) primals_6 = rand_strided((4, 4, 4), (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), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_10 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_11 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_12 = rand_strided((4, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_13 = rand_strided((4, 1), (1, 1), device='cuda:0', dtype=torch.float32) primals_14 = rand_strided((4, 4, 4), (16, 4, 1), device='cuda:0', dtype=torch.float32) primals_15 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_16 = 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, primals_14, primals_15, primals_16]) 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 typing import Optional from typing import Tuple from torch import nn class MultiHeadedAttention(nn.Module): """Multi-Head Attention layer. Args: n_head (int): The number of heads. n_feat (int): The number of features. dropout_rate (float): Dropout rate. """ def __init__(self, n_head: 'int', n_feat: 'int', dropout_rate: 'float'): """Construct an MultiHeadedAttention object.""" super().__init__() assert n_feat % n_head == 0 self.d_k = n_feat // n_head self.h = n_head self.linear_q = nn.Linear(n_feat, n_feat) self.linear_k = nn.Linear(n_feat, n_feat) self.linear_v = nn.Linear(n_feat, n_feat) self.linear_out = nn.Linear(n_feat, n_feat) self.dropout = nn.Dropout(p=dropout_rate) def forward_qkv(self, query: 'torch.Tensor', key: 'torch.Tensor', value: 'torch.Tensor') ->Tuple[torch.Tensor, torch.Tensor, torch.Tensor]: """Transform query, key and value. Args: query (torch.Tensor): Query tensor (#batch, time1, size). key (torch.Tensor): Key tensor (#batch, time2, size). value (torch.Tensor): Value tensor (#batch, time2, size). Returns: torch.Tensor: Transformed query tensor, size (#batch, n_head, time1, d_k). torch.Tensor: Transformed key tensor, size (#batch, n_head, time2, d_k). torch.Tensor: Transformed value tensor, size (#batch, n_head, time2, d_k). """ n_batch = query.size(0) q = self.linear_q(query).view(n_batch, -1, self.h, self.d_k) k = self.linear_k(key).view(n_batch, -1, self.h, self.d_k) v = self.linear_v(value).view(n_batch, -1, self.h, self.d_k) q = q.transpose(1, 2) k = k.transpose(1, 2) v = v.transpose(1, 2) return q, k, v def forward_attention(self, value: 'torch.Tensor', scores: 'torch.Tensor', mask: 'Optional[torch.Tensor]') ->torch.Tensor: """Compute attention context vector. Args: value (torch.Tensor): Transformed value, size (#batch, n_head, time2, d_k). scores (torch.Tensor): Attention score, size (#batch, n_head, time1, time2). mask (torch.Tensor): Mask, size (#batch, 1, time2) or (#batch, time1, time2). Returns: torch.Tensor: Transformed value (#batch, time1, d_model) weighted by the attention score (#batch, time1, time2). """ n_batch = value.size(0) if mask is not None: mask = mask.unsqueeze(1).eq(0) scores = scores.masked_fill(mask, -float('inf')) attn = torch.softmax(scores, dim=-1).masked_fill(mask, 0.0) else: attn = torch.softmax(scores, dim=-1) p_attn = self.dropout(attn) x = torch.matmul(p_attn, value) x = x.transpose(1, 2).contiguous().view(n_batch, -1, self.h * self.d_k) return self.linear_out(x) def forward(self, query: 'torch.Tensor', key: 'torch.Tensor', value: 'torch.Tensor', mask: 'Optional[torch.Tensor]', pos_emb: 'torch.Tensor'=torch.empty(0)) ->torch.Tensor: """Compute scaled dot product attention. Args: query (torch.Tensor): Query tensor (#batch, time1, size). key (torch.Tensor): Key tensor (#batch, time2, size). value (torch.Tensor): Value tensor (#batch, time2, size). mask (torch.Tensor): Mask tensor (#batch, 1, time2) or (#batch, time1, time2). 1.When applying cross attention between decoder and encoder, the batch padding mask for input is in (#batch, 1, T) shape. 2.When applying self attention of encoder, the mask is in (#batch, T, T) shape. 3.When applying self attention of decoder, the mask is in (#batch, L, L) shape. 4.If the different position in decoder see different block of the encoder, such as Mocha, the passed in mask could be in (#batch, L, T) shape. But there is no such case in current Wenet. Returns: torch.Tensor: Output tensor (#batch, time1, d_model). """ q, k, v = self.forward_qkv(query, key, value) scores = torch.matmul(q, k.transpose(-2, -1)) / math.sqrt(self.d_k) return self.forward_attention(v, scores, mask) class RelPositionMultiHeadedAttention(MultiHeadedAttention): """Multi-Head Attention layer with relative position encoding. Paper: https://arxiv.org/abs/1901.02860 Args: n_head (int): The number of heads. n_feat (int): The number of features. dropout_rate (float): Dropout rate. """ def __init__(self, n_head, n_feat, dropout_rate): """Construct an RelPositionMultiHeadedAttention object.""" super().__init__(n_head, n_feat, dropout_rate) self.linear_pos = nn.Linear(n_feat, n_feat, bias=False) self.pos_bias_u = nn.Parameter(torch.Tensor(self.h, self.d_k)) self.pos_bias_v = nn.Parameter(torch.Tensor(self.h, self.d_k)) torch.nn.init.xavier_uniform_(self.pos_bias_u) torch.nn.init.xavier_uniform_(self.pos_bias_v) def rel_shift(self, x, zero_triu: 'bool'=False): """Compute relative positinal encoding. Args: x (torch.Tensor): Input tensor (batch, time, size). zero_triu (bool): If true, return the lower triangular part of the matrix. Returns: torch.Tensor: Output tensor. """ zero_pad = torch.zeros((x.size()[0], x.size()[1], x.size()[2], 1), device=x.device, dtype=x.dtype) x_padded = torch.cat([zero_pad, x], dim=-1) x_padded = x_padded.view(x.size()[0], x.size()[1], x.size(3) + 1, x .size(2)) x = x_padded[:, :, 1:].view_as(x) if zero_triu: ones = torch.ones((x.size(2), x.size(3))) x = x * torch.tril(ones, x.size(3) - x.size(2))[None, None, :, :] return x def forward(self, query: 'torch.Tensor', key: 'torch.Tensor', value: 'torch.Tensor', mask: 'Optional[torch.Tensor]', pos_emb: 'torch.Tensor' ): """Compute 'Scaled Dot Product Attention' with rel. positional encoding. Args: query (torch.Tensor): Query tensor (#batch, time1, size). key (torch.Tensor): Key tensor (#batch, time2, size). value (torch.Tensor): Value tensor (#batch, time2, size). mask (torch.Tensor): Mask tensor (#batch, 1, time2) or (#batch, time1, time2). pos_emb (torch.Tensor): Positional embedding tensor (#batch, time2, size). Returns: torch.Tensor: Output tensor (#batch, time1, d_model). """ q, k, v = self.forward_qkv(query, key, value) q = q.transpose(1, 2) n_batch_pos = pos_emb.size(0) p = self.linear_pos(pos_emb).view(n_batch_pos, -1, self.h, self.d_k) p = p.transpose(1, 2) q_with_bias_u = (q + self.pos_bias_u).transpose(1, 2) q_with_bias_v = (q + self.pos_bias_v).transpose(1, 2) matrix_ac = torch.matmul(q_with_bias_u, k.transpose(-2, -1)) matrix_bd = torch.matmul(q_with_bias_v, p.transpose(-2, -1)) scores = (matrix_ac + matrix_bd) / math.sqrt(self.d_k) return self.forward_attention(v, scores, mask) def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4])] def get_init_inputs(): return [[], {'n_head': 4, 'n_feat': 4, 'dropout_rate': 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._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import math from typing import Optional from typing import Tuple 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, in_ptr1, in_ptr2, in_ptr3, out_ptr0, out_ptr1, 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') tmp3 = tl.load(in_ptr2 + y0, ymask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr3 + y0, ymask, eviction_policy='evict_last') tmp2 = tmp0 + tmp1 tmp4 = tmp2 + tmp3 tmp6 = tmp2 + tmp5 tl.store(out_ptr0 + (x2 + 4 * y3), tmp4, xmask & ymask) tl.store(out_ptr1 + (x2 + 4 * y3), tmp6, xmask & ymask) @triton.jit def triton_poi_fused_clone_1(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_2(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_eq_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 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_add_div_masked_fill_4(in_ptr0, in_ptr1, in_ptr2, 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 x2 = xindex // 16 x3 = xindex tmp0 = tl.load(in_ptr0 + (4 * x0 + 16 * x2), xmask, eviction_policy= 'evict_last').to(tl.int1) tmp1 = tl.load(in_ptr1 + 4 * x3, xmask, eviction_policy='evict_last') tmp2 = tl.load(in_ptr2 + 4 * x3, xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (1 + 4 * x0 + 16 * x2), xmask, eviction_policy ='evict_last').to(tl.int1) tmp9 = tl.load(in_ptr1 + (1 + 4 * x3), xmask, eviction_policy='evict_last') tmp10 = tl.load(in_ptr2 + (1 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp15 = tl.load(in_ptr0 + (2 + 4 * x0 + 16 * x2), xmask, eviction_policy='evict_last').to(tl.int1) tmp16 = tl.load(in_ptr1 + (2 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp17 = tl.load(in_ptr2 + (2 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp22 = tl.load(in_ptr0 + (3 + 4 * x0 + 16 * x2), xmask, eviction_policy='evict_last').to(tl.int1) tmp23 = tl.load(in_ptr1 + (3 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp24 = tl.load(in_ptr2 + (3 + 4 * x3), xmask, eviction_policy='evict_last' ) tmp3 = tmp1 + tmp2 tmp4 = 1.0 tmp5 = tmp3 * tmp4 tmp6 = float('-inf') tmp7 = tl.where(tmp0, tmp6, tmp5) tmp11 = tmp9 + tmp10 tmp12 = tmp11 * tmp4 tmp13 = tl.where(tmp8, tmp6, tmp12) tmp14 = triton_helpers.maximum(tmp7, tmp13) tmp18 = tmp16 + tmp17 tmp19 = tmp18 * tmp4 tmp20 = tl.where(tmp15, tmp6, tmp19) tmp21 = triton_helpers.maximum(tmp14, tmp20) tmp25 = tmp23 + tmp24 tmp26 = tmp25 * tmp4 tmp27 = tl.where(tmp22, tmp6, tmp26) 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 + x3, tmp28, xmask) tl.store(out_ptr1 + x3, tmp39, xmask) @triton.jit def triton_poi_fused__softmax_add_div_masked_fill_5(in_out_ptr0, 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 x3 = xindex // 64 x4 = xindex % 16 x5 = xindex x6 = xindex // 4 tmp0 = tl.load(in_ptr0 + (x4 + 16 * x3), xmask, eviction_policy= 'evict_last').to(tl.int1) tmp1 = tl.load(in_out_ptr0 + x5, xmask) tmp2 = tl.load(in_ptr1 + x5, xmask) tmp8 = tl.load(in_ptr2 + x6, xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr3 + x6, xmask, eviction_policy='evict_last') tmp3 = tmp1 + tmp2 tmp4 = 1.0 tmp5 = tmp3 * tmp4 tmp6 = float('-inf') tmp7 = tl.where(tmp0, tmp6, tmp5) tmp9 = tmp7 - tmp8 tmp10 = tl_math.exp(tmp9) tmp12 = tmp10 / tmp11 tmp13 = 0.0 tmp14 = tl.where(tmp0, tmp13, tmp12) tl.store(in_out_ptr0 + x5, tmp12, xmask) tl.store(out_ptr0 + x5, tmp14, 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) = 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,), (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), (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), (16, 4, 1)) assert_size_stride(primals_10, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_11, (4, 4), (4, 1)) assert_size_stride(primals_12, (4, 1), (1, 1)) assert_size_stride(primals_13, (4, 1), (1, 1)) assert_size_stride(primals_14, (4, 4, 4), (16, 4, 1)) assert_size_stride(primals_15, (4, 4), (4, 1)) assert_size_stride(primals_16, (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_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_6, (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_9, (16, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf2) del primals_7 buf3 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_10, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_11, (4, 4), (1, 4), 0), out=buf3) del primals_11 buf4 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) buf7 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 1), torch.float32) get_raw_stream(0) triton_poi_fused_clone_0[grid(16, 4)](buf0, primals_3, primals_12, primals_13, buf4, buf7, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) del primals_12 del primals_13 del primals_3 buf5 = reinterpret_tensor(buf0, (4, 4, 1, 4), (16, 4, 4, 1), 0) del buf0 triton_poi_fused_clone_1[grid(16, 4)](buf1, primals_5, buf5, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) del primals_5 buf6 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf4, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf5, (16, 1, 4), (4, 0, 1), 0), out=buf6) buf8 = reinterpret_tensor(buf1, (4, 4, 1, 4), (16, 4, 4, 1), 0) del buf1 triton_poi_fused_clone_2[grid(16, 4)](buf3, buf8, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) buf9 = empty_strided_cuda((16, 4, 4), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf7, (16, 4, 1), (4, 1, 0), 0), reinterpret_tensor(buf8, (16, 1, 4), (4, 0, 1), 0), out=buf9) buf10 = empty_strided_cuda((4, 1, 4, 4), (16, 16, 4, 1), torch.bool) triton_poi_fused_eq_3[grid(64)](primals_14, buf10, 64, XBLOCK=64, num_warps=1, num_stages=1) del primals_14 buf11 = reinterpret_tensor(buf3, (4, 4, 4, 1), (16, 4, 1, 64), 0) del buf3 buf12 = empty_strided_cuda((4, 4, 4, 1), (16, 4, 1, 64), torch.float32) triton_poi_fused__softmax_add_div_masked_fill_4[grid(64)](buf10, buf6, buf9, buf11, buf12, 64, XBLOCK=64, num_warps=1, num_stages=1) buf13 = reinterpret_tensor(buf6, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf6 buf14 = empty_strided_cuda((4, 4, 4, 4), (64, 16, 4, 1), torch.float32) triton_poi_fused__softmax_add_div_masked_fill_5[grid(256)](buf13, buf10, buf9, buf11, buf12, buf14, 256, XBLOCK=256, num_warps=4, num_stages=1) del buf9 buf15 = reinterpret_tensor(buf12, (4, 4, 4, 1), (16, 4, 1, 1), 0) del buf12 triton_poi_fused_clone_1[grid(16, 4)](buf2, primals_8, buf15, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) del primals_8 buf16 = reinterpret_tensor(buf2, (16, 4, 1), (4, 1, 1), 0) del buf2 extern_kernels.bmm(reinterpret_tensor(buf14, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf15, (16, 4, 1), (4, 1, 0), 0), out=buf16) buf17 = reinterpret_tensor(buf11, (4, 4, 4, 1), (16, 4, 1, 1), 0) del buf11 triton_poi_fused_clone_2[grid(16, 4)](buf16, buf17, 16, 4, XBLOCK=4, YBLOCK=16, num_warps=1, num_stages=1) buf18 = reinterpret_tensor(buf16, (16, 4), (4, 1), 0) del buf16 extern_kernels.addmm(primals_16, reinterpret_tensor(buf17, (16, 4), (4, 1), 0), reinterpret_tensor(primals_15, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf18) del primals_16 return reinterpret_tensor(buf18, (4, 4, 4), (16, 4, 1), 0 ), reinterpret_tensor(primals_1, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_6, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_9, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_10, (16, 4), (4, 1), 0 ), buf10, buf13, reinterpret_tensor(buf17, (16, 4), (4, 1), 0 ), primals_15, reinterpret_tensor(buf14, (16, 4, 4), (16, 1, 4), 0 ), reinterpret_tensor(buf15, (16, 1, 4), (4, 1, 1), 0 ), reinterpret_tensor(buf7, (16, 1, 4), (4, 1, 1), 0 ), reinterpret_tensor(buf8, (16, 4, 1), (4, 1, 4), 0 ), reinterpret_tensor(buf4, (16, 1, 4), (4, 1, 1), 0 ), reinterpret_tensor(buf5, (16, 4, 1), (4, 1, 4), 0) class MultiHeadedAttention(nn.Module): """Multi-Head Attention layer. Args: n_head (int): The number of heads. n_feat (int): The number of features. dropout_rate (float): Dropout rate. """ def __init__(self, n_head: 'int', n_feat: 'int', dropout_rate: 'float'): """Construct an MultiHeadedAttention object.""" super().__init__() assert n_feat % n_head == 0 self.d_k = n_feat // n_head self.h = n_head self.linear_q = nn.Linear(n_feat, n_feat) self.linear_k = nn.Linear(n_feat, n_feat) self.linear_v = nn.Linear(n_feat, n_feat) self.linear_out = nn.Linear(n_feat, n_feat) self.dropout = nn.Dropout(p=dropout_rate) def forward_qkv(self, query: 'torch.Tensor', key: 'torch.Tensor', value: 'torch.Tensor') ->Tuple[torch.Tensor, torch.Tensor, torch.Tensor]: """Transform query, key and value. Args: query (torch.Tensor): Query tensor (#batch, time1, size). key (torch.Tensor): Key tensor (#batch, time2, size). value (torch.Tensor): Value tensor (#batch, time2, size). Returns: torch.Tensor: Transformed query tensor, size (#batch, n_head, time1, d_k). torch.Tensor: Transformed key tensor, size (#batch, n_head, time2, d_k). torch.Tensor: Transformed value tensor, size (#batch, n_head, time2, d_k). """ n_batch = query.size(0) q = self.linear_q(query).view(n_batch, -1, self.h, self.d_k) k = self.linear_k(key).view(n_batch, -1, self.h, self.d_k) v = self.linear_v(value).view(n_batch, -1, self.h, self.d_k) q = q.transpose(1, 2) k = k.transpose(1, 2) v = v.transpose(1, 2) return q, k, v def forward_attention(self, value: 'torch.Tensor', scores: 'torch.Tensor', mask: 'Optional[torch.Tensor]') ->torch.Tensor: """Compute attention context vector. Args: value (torch.Tensor): Transformed value, size (#batch, n_head, time2, d_k). scores (torch.Tensor): Attention score, size (#batch, n_head, time1, time2). mask (torch.Tensor): Mask, size (#batch, 1, time2) or (#batch, time1, time2). Returns: torch.Tensor: Transformed value (#batch, time1, d_model) weighted by the attention score (#batch, time1, time2). """ n_batch = value.size(0) if mask is not None: mask = mask.unsqueeze(1).eq(0) scores = scores.masked_fill(mask, -float('inf')) attn = torch.softmax(scores, dim=-1).masked_fill(mask, 0.0) else: attn = torch.softmax(scores, dim=-1) p_attn = self.dropout(attn) x = torch.matmul(p_attn, value) x = x.transpose(1, 2).contiguous().view(n_batch, -1, self.h * self.d_k) return self.linear_out(x) def forward(self, query: 'torch.Tensor', key: 'torch.Tensor', value: 'torch.Tensor', mask: 'Optional[torch.Tensor]', pos_emb: 'torch.Tensor'=torch.empty(0)) ->torch.Tensor: """Compute scaled dot product attention. Args: query (torch.Tensor): Query tensor (#batch, time1, size). key (torch.Tensor): Key tensor (#batch, time2, size). value (torch.Tensor): Value tensor (#batch, time2, size). mask (torch.Tensor): Mask tensor (#batch, 1, time2) or (#batch, time1, time2). 1.When applying cross attention between decoder and encoder, the batch padding mask for input is in (#batch, 1, T) shape. 2.When applying self attention of encoder, the mask is in (#batch, T, T) shape. 3.When applying self attention of decoder, the mask is in (#batch, L, L) shape. 4.If the different position in decoder see different block of the encoder, such as Mocha, the passed in mask could be in (#batch, L, T) shape. But there is no such case in current Wenet. Returns: torch.Tensor: Output tensor (#batch, time1, d_model). """ q, k, v = self.forward_qkv(query, key, value) scores = torch.matmul(q, k.transpose(-2, -1)) / math.sqrt(self.d_k) return self.forward_attention(v, scores, mask) class RelPositionMultiHeadedAttentionNew(MultiHeadedAttention): """Multi-Head Attention layer with relative position encoding. Paper: https://arxiv.org/abs/1901.02860 Args: n_head (int): The number of heads. n_feat (int): The number of features. dropout_rate (float): Dropout rate. """ def __init__(self, n_head, n_feat, dropout_rate): """Construct an RelPositionMultiHeadedAttention object.""" super().__init__(n_head, n_feat, dropout_rate) self.linear_pos = nn.Linear(n_feat, n_feat, bias=False) self.pos_bias_u = nn.Parameter(torch.Tensor(self.h, self.d_k)) self.pos_bias_v = nn.Parameter(torch.Tensor(self.h, self.d_k)) torch.nn.init.xavier_uniform_(self.pos_bias_u) torch.nn.init.xavier_uniform_(self.pos_bias_v) def rel_shift(self, x, zero_triu: 'bool'=False): """Compute relative positinal encoding. Args: x (torch.Tensor): Input tensor (batch, time, size). zero_triu (bool): If true, return the lower triangular part of the matrix. Returns: torch.Tensor: Output tensor. """ zero_pad = torch.zeros((x.size()[0], x.size()[1], x.size()[2], 1), device=x.device, dtype=x.dtype) x_padded = torch.cat([zero_pad, x], dim=-1) x_padded = x_padded.view(x.size()[0], x.size()[1], x.size(3) + 1, x .size(2)) x = x_padded[:, :, 1:].view_as(x) if zero_triu: ones = torch.ones((x.size(2), x.size(3))) x = x * torch.tril(ones, x.size(3) - x.size(2))[None, None, :, :] return x def forward(self, input_0, input_1, input_2, input_3, input_4): primals_12 = self.pos_bias_u primals_13 = self.pos_bias_v primals_2 = self.linear_q.weight primals_3 = self.linear_q.bias primals_4 = self.linear_k.weight primals_5 = self.linear_k.bias primals_7 = self.linear_v.weight primals_8 = self.linear_v.bias primals_11 = self.linear_out.weight primals_16 = self.linear_out.bias primals_15 = self.linear_pos.weight primals_1 = input_0 primals_6 = input_1 primals_9 = input_2 primals_10 = input_3 primals_14 = input_4 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]) return output[0]	Mashiro083/wenet-onnx	RelPositionMultiHeadedAttention	false	8,546	[ "Apache-2.0" ]	18	ae8f8451d73fa9ceac6f7738194543e83959ca86	https://github.com/Mashiro083/wenet-onnx/tree/ae8f8451d73fa9ceac6f7738194543e83959ca86
IRW_L1_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/g5/cg5yqholrwgnoux55hpuupmg2o4ylum7nzk22m7bljoav3kqvtm4.py # Topologically Sorted Source Nodes: [result, mul, mul_1, sub, abs_1, loss], Original ATen: [aten.threshold, aten.mul, aten.sub, aten.abs, aten.mean] # Source node to ATen node mapping: # abs_1 => abs_1 # loss => mean # mul => mul # mul_1 => mul_1 # result => full_default, le, where # sub => sub # Graph fragment: # %le : [num_users=1] = call_function[target=torch.ops.aten.le.Scalar](args = (%arg0_1, 4), kwargs = {}) # %full_default : [num_users=1] = call_function[target=torch.ops.aten.full.default](args = ([], 0.0), kwargs = {dtype: torch.float32, layout: torch.strided, device: cuda:0, pin_memory: False}) # %where : [num_users=2] = call_function[target=torch.ops.aten.where.self](args = (%le, %full_default, %arg0_1), kwargs = {}) # %mul : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%where, %arg1_1), kwargs = {}) # %mul_1 : [num_users=1] = call_function[target=torch.ops.aten.mul.Tensor](args = (%where, %arg2_1), kwargs = {}) # %sub : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul, %mul_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_mean_mul_sub_threshold_0 = async_compile.triton('triton_per_fused_abs_mean_mul_sub_threshold_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_mean_mul_sub_threshold_0', 'mutated_arg_names': ['in_out_ptr0'], 'no_x_dim': True, 'num_load': 3, '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_mean_mul_sub_threshold_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, 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) r1 = (rindex // 64) r2 = rindex tmp0 = tl.load(in_ptr0 + (r1), None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr1 + (r1), None, eviction_policy='evict_last') tmp7 = tl.load(in_ptr2 + (r2), None) tmp1 = 4.0 tmp2 = tmp0 <= tmp1 tmp3 = 0.0 tmp4 = tl.where(tmp2, tmp3, tmp0) tmp6 = tmp4 * tmp5 tmp8 = tmp4 * tmp7 tmp9 = tmp6 - tmp8 tmp10 = tl_math.abs(tmp9) tmp11 = tl.broadcast_to(tmp10, [RBLOCK]) tmp13 = triton_helpers.promote_to_tensor(tl.sum(tmp11, 0)) tmp14 = 256.0 tmp15 = tmp13 / tmp14 tl.debug_barrier() tl.store(in_out_ptr0 + (tl.full([1], 0, tl.int32)), tmp15, 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, 1, 1, 1), (1, 1, 1, 1)) assert_size_stride(arg1_1, (4, 1, 1, 1), (1, 1, 1, 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((), (), torch.float32) buf1 = buf0; del buf0 # reuse # Topologically Sorted Source Nodes: [result, mul, mul_1, sub, abs_1, loss], Original ATen: [aten.threshold, aten.mul, aten.sub, aten.abs, aten.mean] stream0 = get_raw_stream(0) triton_per_fused_abs_mean_mul_sub_threshold_0.run(buf1, arg0_1, arg1_1, arg2_1, 1, 256, grid=grid(1), stream=stream0) del arg0_1 del arg1_1 del arg2_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, 1, 1, 1), (1, 1, 1, 1), device='cuda:0', dtype=torch.float32) arg1_1 = rand_strided((4, 1, 1, 1), (1, 1, 1, 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.utils.data import torch import torch.nn as nn class IRW_L1_Loss(nn.Module): def __init__(self, threshold): super(IRW_L1_Loss, self).__init__() self.threshold = threshold def forward(self, x, y, beta): beta = beta.view(len(x), 1, 1, 1) beta = torch.nn.functional.threshold(beta, self.threshold, 0.0) assert len(beta) == len(x) loss = torch.mean(torch.abs(beta * x - beta * y)) return loss def get_inputs(): return [torch.rand([4, 1, 1, 1]), torch.rand([4, 4, 4, 4]), torch.rand( [4, 1, 1, 1])] def get_init_inputs(): return [[], {'threshold': 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 from torch._inductor.runtime.triton_helpers import math as tl_math import torch.utils.data 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 @triton.jit def triton_per_fused_abs_mean_mul_sub_threshold_0(in_out_ptr0, in_ptr0, in_ptr1, in_ptr2, 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) r1 = rindex // 64 r2 = rindex tmp0 = tl.load(in_ptr0 + r1, None, eviction_policy='evict_last') tmp5 = tl.load(in_ptr1 + r1, None, eviction_policy='evict_last') tmp7 = tl.load(in_ptr2 + r2, None) tmp1 = 4.0 tmp2 = tmp0 <= tmp1 tmp3 = 0.0 tmp4 = tl.where(tmp2, tmp3, tmp0) tmp6 = tmp4 * tmp5 tmp8 = tmp4 * tmp7 tmp9 = tmp6 - tmp8 tmp10 = tl_math.abs(tmp9) tmp11 = tl.broadcast_to(tmp10, [RBLOCK]) tmp13 = triton_helpers.promote_to_tensor(tl.sum(tmp11, 0)) tmp14 = 256.0 tmp15 = tmp13 / tmp14 tl.debug_barrier() tl.store(in_out_ptr0 + tl.full([1], 0, tl.int32), tmp15, None) def call(args): arg0_1, arg1_1, arg2_1 = args args.clear() assert_size_stride(arg0_1, (4, 1, 1, 1), (1, 1, 1, 1)) assert_size_stride(arg1_1, (4, 1, 1, 1), (1, 1, 1, 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((), (), torch.float32) buf1 = buf0 del buf0 get_raw_stream(0) triton_per_fused_abs_mean_mul_sub_threshold_0[grid(1)](buf1, arg0_1, arg1_1, arg2_1, 1, 256, num_warps=2, num_stages=1) del arg0_1 del arg1_1 del arg2_1 return buf1, class IRW_L1_LossNew(nn.Module): def __init__(self, threshold): super(IRW_L1_LossNew, self).__init__() self.threshold = threshold def forward(self, input_0, input_1, input_2): arg0_1 = input_0 arg2_1 = input_1 arg1_1 = input_2 output = call([arg0_1, arg1_1, arg2_1]) return output[0]	Mid-Push/IrwGAN	IRW_L1_Loss	false	8,547	[ "BSD-3-Clause" ]	31	f56e7274cf7de3362459549dd807b66b93dc5e89	https://github.com/Mid-Push/IrwGAN/tree/f56e7274cf7de3362459549dd807b66b93dc5e89
Attention	# 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/p3/cp3vh5ge4dyj3r4smr5dvjovuocujri2yvhft44mt2rcrwo3tz5y.py # Topologically Sorted Source Nodes: [dot_products], Original ATen: [aten.clone] # Source node to ATen node mapping: # dot_products => 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/ou/couydeiflxt737ajrxkclefserzcrtstm3tsnq6axyb6txwdiyqb.py # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] # Source node to ATen node mapping: # softmax => exp # Graph fragment: # %mul_tensor : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%view_2, 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, 2.0), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%div_tensor,), 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 % 4 x2 = (xindex // 16) tmp0 = tl.load(in_ptr0 + (x3), xmask) tmp3 = tl.load(in_ptr0 + (x0 + (16x2)), xmask, eviction_policy='evict_last') tmp5 = tl.load(in_ptr0 + (4 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp8 = tl.load(in_ptr0 + (8 + x0 + (16x2)), xmask, eviction_policy='evict_last') tmp11 = tl.load(in_ptr0 + (12 + x0 + (16x2)), 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 = 0.5 tmp16 = tmp14 * tmp15 tmp17 = tl_math.exp(tmp16) tl.store(out_ptr0 + (x3), tmp17, xmask) ''', device_str='cuda') # kernel path: runs/run_shard_1/inductor_cache/xc/cxcxqpp3xxvkqv64izmaaqatjjewqewpsdztmtl5hsfdssfcexco.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, [2], True), kwargs = {}) # %div_1 : [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 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): 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: [dot_products], Original ATen: [aten.clone] stream0 = get_raw_stream(0) triton_poi_fused_clone_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: [dot_products], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(arg1_1, (16, 4, 4), (16, 4, 1), 0), reinterpret_tensor(buf0, (16, 4, 4), (16, 4, 1), 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: [matmul_1], 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 del buf3 return (reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 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 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 math import torch import torch.nn as nn import torch.nn.functional as F import torch.utils.data.distributed def matmul(x, y): if x.dim() == y.dim(): return x @ y if x.dim() == y.dim() - 1: return (x.unsqueeze(-2) @ y).squeeze(-2) return (x @ y.unsqueeze(-2)).squeeze(-2) class Attention(nn.Module): def __init__(self, d_key, drop_ratio, causal): super().__init__() self.scale = math.sqrt(d_key) self.dropout = nn.Dropout(drop_ratio) self.causal = causal def forward(self, query, key, value): dot_products = matmul(query, key.transpose(1, 2)) if query.dim() == 3 and (self is None or self.causal): tri = torch.ones(key.size(1), key.size(1)).triu(1) * INF if key.is_cuda: tri = tri dot_products.data.sub_(tri.unsqueeze(0)) return matmul(self.dropout(F.softmax(dot_products / self.scale, dim =2)), value) 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 [[], {'d_key': 4, 'drop_ratio': 0.5, 'causal': 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 math import torch.nn as nn import torch.utils.data.distributed 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 x3 = xindex x0 = xindex % 4 x2 = xindex // 16 tmp0 = tl.load(in_ptr0 + x3, xmask) tmp3 = tl.load(in_ptr0 + (x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp5 = tl.load(in_ptr0 + (4 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp8 = tl.load(in_ptr0 + (8 + x0 + 16 * x2), xmask, eviction_policy= 'evict_last') tmp11 = tl.load(in_ptr0 + (12 + x0 + 16 * x2), 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 = 0.5 tmp16 = tmp14 * tmp15 tmp17 = tl_math.exp(tmp16) tl.store(out_ptr0 + x3, tmp17, 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 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): 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_clone_0[grid(256)](arg0_1, buf0, 256, XBLOCK=128, 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(arg1_1, (16, 4, 4), (16, 4, 1 ), 0), reinterpret_tensor(buf0, (16, 4, 4), (16, 4, 1), 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 del buf3 return reinterpret_tensor(buf4, (4, 4, 4, 4), (64, 16, 4, 1), 0), def matmul(x, y): if x.dim() == y.dim(): return x @ y if x.dim() == y.dim() - 1: return (x.unsqueeze(-2) @ y).squeeze(-2) return (x @ y.unsqueeze(-2)).squeeze(-2) class AttentionNew(nn.Module): def __init__(self, d_key, drop_ratio, causal): super().__init__() self.scale = math.sqrt(d_key) self.dropout = nn.Dropout(drop_ratio) self.causal = causal 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]	MichiganCOG/Video-Grounding	Attention	false	8,548	[ "MIT" ]	41	3e0ec0b69578a59be583911590354fe77d357cab	https://github.com/MichiganCOG/Video-Grounding/tree/3e0ec0b69578a59be583911590354fe77d357cab
MultiHead	# 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/c5/cc5hodm36vyyy6mtrsd3kh6yp3wh2yz4b7xlcd53hs3fb3erko24.py # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] # Source node to ATen node mapping: # softmax => exp # Graph fragment: # %mul_tensor_3 : [num_users=2] = call_function[target=torch.ops.aten.mul.Tensor](args = (%bmm, 1), kwargs = {}) # %amax_default_3 : [num_users=1] = call_function[target=torch.ops.aten.amax.default](args = (%mul_tensor_3, [2], True), kwargs = {}) # %sub_tensor_3 : [num_users=1] = call_function[target=torch.ops.aten.sub.Tensor](args = (%mul_tensor_3, %amax_default_3), kwargs = {}) # %div_tensor_3 : [num_users=1] = call_function[target=torch.ops.aten.div.Tensor](args = (%sub_tensor_3, 2.0), kwargs = {}) # %exp : [num_users=2] = call_function[target=torch.ops.aten.exp.default](args = (%div_tensor_3,), 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 = 0.5 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: [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, [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') # kernel path: runs/run_shard_1/inductor_cache/5y/c5yfezryqwac7kvkq4stjid2yo6etvzbg2h3br4gysvcrnghnjgv.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, %bmm_3, %bmm_5, %bmm_7], -1), 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=[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_2', '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_2(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 % 4 x1 = (xindex // 4) 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 = tmp6 & tmp8 tmp10 = tl.load(in_ptr1 + (x1), tmp9 & xmask, eviction_policy='evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tmp12 = tl.full([1], 3, tl.int64) tmp13 = tmp0 < tmp12 tmp14 = tmp11 & tmp13 tmp15 = tl.load(in_ptr2 + (x1), tmp14 & xmask, eviction_policy='evict_last', other=0.0) tmp16 = tmp0 >= tmp12 tmp17 = tl.full([1], 4, tl.int64) tmp18 = tmp0 < tmp17 tmp19 = tl.load(in_ptr3 + (x1), tmp16 & xmask, eviction_policy='evict_last', other=0.0) tmp20 = tl.where(tmp14, tmp15, tmp19) tmp21 = tl.where(tmp9, tmp10, tmp20) tmp22 = tl.where(tmp4, tmp5, tmp21) tl.store(out_ptr0 + (x2), tmp22, 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), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (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, 4, 4), (16, 4, 1)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, 4), (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: [linear], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.mm] 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: [linear_2], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(primals_5, (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), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [dot_products], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 1), (16, 4, 1), 0), reinterpret_tensor(buf1, (4, 1, 4), (16, 1, 4), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] stream0 = get_raw_stream(0) triton_poi_fused__softmax_0.run(buf3, buf4, 64, grid=grid(64), stream=stream0) buf5 = buf3; del buf3 # reuse # Topologically Sorted Source Nodes: [softmax], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf4, buf5, 64, grid=grid(64), stream=stream0) buf6 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul_1], Original ATen: [aten.bmm] extern_kernels.bmm(buf5, reinterpret_tensor(buf2, (4, 4, 1), (16, 4, 1), 0), out=buf6) buf7 = buf4; del buf4 # reuse # Topologically Sorted Source Nodes: [dot_products_1], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 1), (16, 4, 1), 1), reinterpret_tensor(buf1, (4, 1, 4), (16, 1, 4), 1), out=buf7) buf8 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [softmax_1], Original ATen: [aten._softmax] triton_poi_fused__softmax_0.run(buf7, buf8, 64, grid=grid(64), stream=stream0) buf9 = buf7; del buf7 # reuse # Topologically Sorted Source Nodes: [softmax_1], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf8, buf9, 64, grid=grid(64), stream=stream0) buf10 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul_3], Original ATen: [aten.bmm] extern_kernels.bmm(buf9, reinterpret_tensor(buf2, (4, 4, 1), (16, 4, 1), 1), out=buf10) buf11 = buf8; del buf8 # reuse # Topologically Sorted Source Nodes: [dot_products_2], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 1), (16, 4, 1), 2), reinterpret_tensor(buf1, (4, 1, 4), (16, 1, 4), 2), out=buf11) buf12 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [softmax_2], Original ATen: [aten._softmax] triton_poi_fused__softmax_0.run(buf11, buf12, 64, grid=grid(64), stream=stream0) buf13 = buf11; del buf11 # reuse # Topologically Sorted Source Nodes: [softmax_2], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf12, buf13, 64, grid=grid(64), stream=stream0) buf14 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul_5], Original ATen: [aten.bmm] extern_kernels.bmm(buf13, reinterpret_tensor(buf2, (4, 4, 1), (16, 4, 1), 2), out=buf14) buf15 = buf12; del buf12 # reuse # Topologically Sorted Source Nodes: [dot_products_3], Original ATen: [aten.bmm] extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 1), (16, 4, 1), 3), reinterpret_tensor(buf1, (4, 1, 4), (16, 1, 4), 3), out=buf15) buf16 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) # Topologically Sorted Source Nodes: [softmax_3], Original ATen: [aten._softmax] triton_poi_fused__softmax_0.run(buf15, buf16, 64, grid=grid(64), stream=stream0) buf17 = buf15; del buf15 # reuse # Topologically Sorted Source Nodes: [softmax_3], Original ATen: [aten._softmax] triton_poi_fused__softmax_1.run(buf16, buf17, 64, grid=grid(64), stream=stream0) buf18 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) # Topologically Sorted Source Nodes: [matmul_7], Original ATen: [aten.bmm] extern_kernels.bmm(buf17, reinterpret_tensor(buf2, (4, 4, 1), (16, 4, 1), 3), out=buf18) buf19 = buf16; del buf16 # reuse # Topologically Sorted Source Nodes: [cat], Original ATen: [aten.cat] triton_poi_fused_cat_2.run(buf6, buf10, buf14, buf18, buf19, 64, grid=grid(64), stream=stream0) del buf10 del buf14 del buf18 del buf6 buf20 = empty_strided_cuda((16, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_3], Original ATen: [aten.mm] extern_kernels.mm(reinterpret_tensor(buf19, (16, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf20) return (reinterpret_tensor(buf20, (4, 4, 4), (16, 4, 1), 0), reinterpret_tensor(primals_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_3, (16, 4), (4, 1), 0), reinterpret_tensor(primals_5, (16, 4), (4, 1), 0), buf5, buf9, buf13, buf17, reinterpret_tensor(buf19, (16, 4), (4, 1), 0), primals_7, reinterpret_tensor(buf2, (4, 1, 4), (16, 1, 4), 3), reinterpret_tensor(buf0, (4, 1, 4), (16, 1, 4), 3), reinterpret_tensor(buf1, (4, 4, 1), (16, 4, 1), 3), reinterpret_tensor(buf2, (4, 1, 4), (16, 1, 4), 2), reinterpret_tensor(buf0, (4, 1, 4), (16, 1, 4), 2), reinterpret_tensor(buf1, (4, 4, 1), (16, 4, 1), 2), reinterpret_tensor(buf2, (4, 1, 4), (16, 1, 4), 1), reinterpret_tensor(buf0, (4, 1, 4), (16, 1, 4), 1), reinterpret_tensor(buf1, (4, 4, 1), (16, 4, 1), 1), reinterpret_tensor(buf2, (4, 1, 4), (16, 1, 4), 0), reinterpret_tensor(buf0, (4, 1, 4), (16, 1, 4), 0), reinterpret_tensor(buf1, (4, 4, 1), (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, 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) primals_4 = rand_strided((4, 4), (4, 1), device='cuda:0', dtype=torch.float32) primals_5 = rand_strided((4, 4, 4), (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, 4), (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.nn as nn import torch.nn.functional as F import torch.utils.data.distributed def matmul(x, y): if x.dim() == y.dim(): return x @ y if x.dim() == y.dim() - 1: return (x.unsqueeze(-2) @ y).squeeze(-2) return (x @ y.unsqueeze(-2)).squeeze(-2) class Linear(nn.Linear): def forward(self, x): size = x.size() return super().forward(x.contiguous().view(-1, size[-1])).view(* size[:-1], -1) class Attention(nn.Module): def __init__(self, d_key, drop_ratio, causal): super().__init__() self.scale = math.sqrt(d_key) self.dropout = nn.Dropout(drop_ratio) self.causal = causal def forward(self, query, key, value): dot_products = matmul(query, key.transpose(1, 2)) if query.dim() == 3 and (self is None or self.causal): tri = torch.ones(key.size(1), key.size(1)).triu(1) * INF if key.is_cuda: tri = tri dot_products.data.sub_(tri.unsqueeze(0)) return matmul(self.dropout(F.softmax(dot_products / self.scale, dim =2)), value) class MultiHead(nn.Module): def __init__(self, d_key, d_value, n_heads, drop_ratio, causal=False): super().__init__() self.attention = Attention(d_key, drop_ratio, causal=causal) self.wq = Linear(d_key, d_key, bias=False) self.wk = Linear(d_key, d_key, bias=False) self.wv = Linear(d_value, d_value, bias=False) self.wo = Linear(d_value, d_key, bias=False) self.n_heads = n_heads def forward(self, query, key, value): query, key, value = self.wq(query), self.wk(key), self.wv(value) query, key, value = (x.chunk(self.n_heads, -1) for x in (query, key, value)) return self.wo(torch.cat([self.attention(q, k, v) for q, k, v in zip(query, key, value)], -1)) def get_inputs(): return [torch.rand([4, 4, 4]), torch.rand([4, 4, 4]), torch.rand([4, 4, 4]) ] def get_init_inputs(): return [[], {'d_key': 4, 'd_value': 4, 'n_heads': 4, 'drop_ratio': 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._inductor.runtime import triton_helpers from torch._inductor.runtime.triton_helpers import math as tl_math import math import torch.nn as nn import torch.nn.functional as F import torch.utils.data.distributed 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 = 0.5 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) @triton.jit def triton_poi_fused_cat_2(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 % 4 x1 = xindex // 4 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 tmp7 = tl.full([1], 2, tl.int64) tmp8 = tmp0 < tmp7 tmp9 = tmp6 & tmp8 tmp10 = tl.load(in_ptr1 + x1, tmp9 & xmask, eviction_policy= 'evict_last', other=0.0) tmp11 = tmp0 >= tmp7 tmp12 = tl.full([1], 3, tl.int64) tmp13 = tmp0 < tmp12 tmp14 = tmp11 & tmp13 tmp15 = tl.load(in_ptr2 + x1, tmp14 & xmask, eviction_policy= 'evict_last', other=0.0) tmp16 = tmp0 >= tmp12 tl.full([1], 4, tl.int64) tmp19 = tl.load(in_ptr3 + x1, tmp16 & xmask, eviction_policy= 'evict_last', other=0.0) tmp20 = tl.where(tmp14, tmp15, tmp19) tmp21 = tl.where(tmp9, tmp10, tmp20) tmp22 = tl.where(tmp4, tmp5, tmp21) tl.store(out_ptr0 + x2, tmp22, 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), (16, 4, 1)) assert_size_stride(primals_2, (4, 4), (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, 4, 4), (16, 4, 1)) assert_size_stride(primals_6, (4, 4), (4, 1)) assert_size_stride(primals_7, (4, 4), (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_1, (16, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 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_5, (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), (16, 4, 1), torch.float32) extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 1), (16, 4, 1), 0), reinterpret_tensor(buf1, (4, 1, 4), (16, 1, 4), 0), out=buf3) buf4 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) get_raw_stream(0) triton_poi_fused__softmax_0[grid(64)](buf3, buf4, 64, XBLOCK=64, num_warps=1, num_stages=1) buf5 = buf3 del buf3 triton_poi_fused__softmax_1[grid(64)](buf4, buf5, 64, XBLOCK=64, num_warps=1, num_stages=1) buf6 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) extern_kernels.bmm(buf5, reinterpret_tensor(buf2, (4, 4, 1), (16, 4, 1), 0), out=buf6) buf7 = buf4 del buf4 extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 1), (16, 4, 1), 1), reinterpret_tensor(buf1, (4, 1, 4), (16, 1, 4), 1), out=buf7) buf8 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused__softmax_0[grid(64)](buf7, buf8, 64, XBLOCK=64, num_warps=1, num_stages=1) buf9 = buf7 del buf7 triton_poi_fused__softmax_1[grid(64)](buf8, buf9, 64, XBLOCK=64, num_warps=1, num_stages=1) buf10 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) extern_kernels.bmm(buf9, reinterpret_tensor(buf2, (4, 4, 1), (16, 4, 1), 1), out=buf10) buf11 = buf8 del buf8 extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 1), (16, 4, 1), 2), reinterpret_tensor(buf1, (4, 1, 4), (16, 1, 4), 2), out=buf11) buf12 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused__softmax_0[grid(64)](buf11, buf12, 64, XBLOCK=64, num_warps=1, num_stages=1) buf13 = buf11 del buf11 triton_poi_fused__softmax_1[grid(64)](buf12, buf13, 64, XBLOCK=64, num_warps=1, num_stages=1) buf14 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) extern_kernels.bmm(buf13, reinterpret_tensor(buf2, (4, 4, 1), (16, 4, 1), 2), out=buf14) buf15 = buf12 del buf12 extern_kernels.bmm(reinterpret_tensor(buf0, (4, 4, 1), (16, 4, 1), 3), reinterpret_tensor(buf1, (4, 1, 4), (16, 1, 4), 3), out=buf15) buf16 = empty_strided_cuda((4, 4, 4), (16, 4, 1), torch.float32) triton_poi_fused__softmax_0[grid(64)](buf15, buf16, 64, XBLOCK=64, num_warps=1, num_stages=1) buf17 = buf15 del buf15 triton_poi_fused__softmax_1[grid(64)](buf16, buf17, 64, XBLOCK=64, num_warps=1, num_stages=1) buf18 = empty_strided_cuda((4, 4, 1), (4, 1, 1), torch.float32) extern_kernels.bmm(buf17, reinterpret_tensor(buf2, (4, 4, 1), (16, 4, 1), 3), out=buf18) buf19 = buf16 del buf16 triton_poi_fused_cat_2[grid(64)](buf6, buf10, buf14, buf18, buf19, 64, XBLOCK=64, num_warps=1, num_stages=1) del buf10 del buf14 del buf18 del buf6 buf20 = empty_strided_cuda((16, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(buf19, (16, 4), (4, 1), 0), reinterpret_tensor(primals_7, (4, 4), (1, 4), 0), out=buf20) return reinterpret_tensor(buf20, (4, 4, 4), (16, 4, 1), 0 ), reinterpret_tensor(primals_1, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_3, (16, 4), (4, 1), 0 ), reinterpret_tensor(primals_5, (16, 4), (4, 1), 0 ), buf5, buf9, buf13, buf17, reinterpret_tensor(buf19, (16, 4), (4, 1), 0), primals_7, reinterpret_tensor(buf2, (4, 1, 4), (16, 1, 4), 3 ), reinterpret_tensor(buf0, (4, 1, 4), (16, 1, 4), 3 ), reinterpret_tensor(buf1, (4, 4, 1), (16, 4, 1), 3 ), reinterpret_tensor(buf2, (4, 1, 4), (16, 1, 4), 2 ), reinterpret_tensor(buf0, (4, 1, 4), (16, 1, 4), 2 ), reinterpret_tensor(buf1, (4, 4, 1), (16, 4, 1), 2 ), reinterpret_tensor(buf2, (4, 1, 4), (16, 1, 4), 1 ), reinterpret_tensor(buf0, (4, 1, 4), (16, 1, 4), 1 ), reinterpret_tensor(buf1, (4, 4, 1), (16, 4, 1), 1 ), reinterpret_tensor(buf2, (4, 1, 4), (16, 1, 4), 0 ), reinterpret_tensor(buf0, (4, 1, 4), (16, 1, 4), 0 ), reinterpret_tensor(buf1, (4, 4, 1), (16, 4, 1), 0) def matmul(x, y): if x.dim() == y.dim(): return x @ y if x.dim() == y.dim() - 1: return (x.unsqueeze(-2) @ y).squeeze(-2) return (x @ y.unsqueeze(-2)).squeeze(-2) class Linear(nn.Linear): def forward(self, x): size = x.size() return super().forward(x.contiguous().view(-1, size[-1])).view(* size[:-1], -1) class Attention(nn.Module): def __init__(self, d_key, drop_ratio, causal): super().__init__() self.scale = math.sqrt(d_key) self.dropout = nn.Dropout(drop_ratio) self.causal = causal def forward(self, query, key, value): dot_products = matmul(query, key.transpose(1, 2)) if query.dim() == 3 and (self is None or self.causal): tri = torch.ones(key.size(1), key.size(1)).triu(1) * INF if key.is_cuda: tri = tri dot_products.data.sub_(tri.unsqueeze(0)) return matmul(self.dropout(F.softmax(dot_products / self.scale, dim =2)), value) class MultiHeadNew(nn.Module): def __init__(self, d_key, d_value, n_heads, drop_ratio, causal=False): super().__init__() self.attention = Attention(d_key, drop_ratio, causal=causal) self.wq = Linear(d_key, d_key, bias=False) self.wk = Linear(d_key, d_key, bias=False) self.wv = Linear(d_value, d_value, bias=False) self.wo = Linear(d_value, d_key, bias=False) self.n_heads = n_heads def forward(self, input_0, input_1, input_2): primals_2 = self.wq.weight primals_4 = self.wk.weight primals_6 = self.wv.weight primals_7 = self.wo.weight primals_1 = input_0 primals_3 = input_1 primals_5 = input_2 output = call([primals_1, primals_2, primals_3, primals_4, primals_5, primals_6, primals_7]) return output[0]	MichiganCOG/Video-Grounding	MultiHead	false	8,549	[ "MIT" ]	41	3e0ec0b69578a59be583911590354fe77d357cab	https://github.com/MichiganCOG/Video-Grounding/tree/3e0ec0b69578a59be583911590354fe77d357cab
FeedForward	# 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') 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((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [], Original ATen: [] extern_kernels.mm(reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0); del buf0 # reuse buf3 = 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_3, buf3, 256, grid=grid(256), stream=stream0) del primals_3 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) # Topologically Sorted Source Nodes: [linear_1], Original ATen: [aten.addmm] extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 return (reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0), reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), primals_4, 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, 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 import torch.nn as nn import torch.nn.functional as F import torch.utils.data.distributed class Linear(nn.Linear): def forward(self, x): size = x.size() return super().forward(x.contiguous().view(-1, size[-1])).view(* size[:-1], -1) class FeedForward(nn.Module): def __init__(self, d_model, d_hidden): super().__init__() self.linear1 = Linear(d_model, d_hidden) self.linear2 = Linear(d_hidden, d_model) def forward(self, x): return self.linear2(F.relu(self.linear1(x))) def get_inputs(): return [torch.rand([4, 4, 4, 4])] def get_init_inputs(): return [[], {'d_model': 4, 'd_hidden': 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 import torch.utils.data.distributed 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) 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((64, 4), (4, 1), torch.float32) extern_kernels.mm(reinterpret_tensor(primals_1, (64, 4), (4, 1), 0), reinterpret_tensor(primals_2, (4, 4), (1, 4), 0), out=buf0) del primals_2 buf1 = reinterpret_tensor(buf0, (4, 4, 4, 4), (64, 16, 4, 1), 0) del buf0 buf3 = 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_3, buf3, 256, XBLOCK=128, num_warps=4, num_stages=1) del primals_3 buf2 = empty_strided_cuda((64, 4), (4, 1), torch.float32) extern_kernels.addmm(primals_5, reinterpret_tensor(buf1, (64, 4), ( 4, 1), 0), reinterpret_tensor(primals_4, (4, 4), (1, 4), 0), alpha=1, beta=1, out=buf2) del primals_5 return reinterpret_tensor(buf2, (4, 4, 4, 4), (64, 16, 4, 1), 0 ), reinterpret_tensor(primals_1, (64, 4), (4, 1), 0 ), reinterpret_tensor(buf1, (64, 4), (4, 1), 0), primals_4, buf3 class Linear(nn.Linear): def forward(self, x): size = x.size() return super().forward(x.contiguous().view(-1, size[-1])).view(* size[:-1], -1) class FeedForwardNew(nn.Module): def __init__(self, d_model, d_hidden): super().__init__() self.linear1 = Linear(d_model, d_hidden) self.linear2 = Linear(d_hidden, d_model) def forward(self, input_0): primals_2 = self.linear1.weight primals_3 = self.linear1.bias primals_4 = self.linear2.weight primals_5 = self.linear2.bias primals_1 = input_0 output = call([primals_1, primals_2, primals_3, primals_4, primals_5]) return output[0]	MichiganCOG/Video-Grounding	FeedForward	false	8,550	[ "MIT" ]	41	3e0ec0b69578a59be583911590354fe77d357cab	https://github.com/MichiganCOG/Video-Grounding/tree/3e0ec0b69578a59be583911590354fe77d357cab

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