/* Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ #include "paddle/pten/kernels/cuda/math.h" #include "paddle/pten/kernels/functions/cuda/elementwise/elementwise.h" #include "paddle/pten/kernels/functions/eigen/mean.h" #include "paddle/pten/kernels/functions/eigen/scale.h" #include "paddle/pten/kernels/functions/eigen/sign.h" #include "paddle/pten/kernels/functions/general/elementwise_functor.h" #ifdef __NVCC__ #include "cub/cub.cuh" #endif #ifdef __HIPCC__ #include namespace cub = hipcub; #endif #include "paddle/fluid/platform/complex.h" #include "paddle/fluid/platform/enforce.h" #include "paddle/fluid/platform/float16.h" #include "paddle/pten/api/lib/utils/tensor_utils.h" #include "paddle/pten/core/convert_utils.h" #include "paddle/pten/core/kernel_registry.h" namespace pten { /** * Util Functors */ template struct DivideFunctor { HOSTDEVICE explicit inline DivideFunctor(int n) : n_inv(static_cast(1.0 / n)) {} HOSTDEVICE inline T operator()(const T& x) const { return x * n_inv; } private: T n_inv; }; /** * Kernels */ template void Sign(const CUDAContext& dev_ctx, const DenseTensor& x, DenseTensor* out) { eigen::Sign(dev_ctx, x, out); } template void Mean(const CUDAContext& dev_ctx, const DenseTensor& x, DenseTensor* out) { auto size_prob = x.numel(); const T* x_data = x.data(); T* out_data = out->mutable_data(); auto stream = dev_ctx.stream(); DivideFunctor transformer(size_prob); cub::TransformInputIterator, const T*> trans_x( x_data, transformer); size_t temp_storage_bytes = 0; auto err = cub::DeviceReduce::Sum( nullptr, temp_storage_bytes, trans_x, out_data, size_prob, stream); PADDLE_ENFORCE_CUDA_SUCCESS(err); const auto alloc = std::make_shared( dev_ctx.GetPlace()); pten::DenseTensor tmp( alloc, DenseTensorMeta(x.dtype(), paddle::framework::make_ddim( {static_cast(temp_storage_bytes)}), x.layout())); void* temp_storage = tmp.mutable_data(); err = cub::DeviceReduce::Sum(static_cast(temp_storage), temp_storage_bytes, trans_x, out_data, size_prob, stream); PADDLE_ENFORCE_CUDA_SUCCESS(err); } template void Scale(const CUDAContext& dev_ctx, const DenseTensor& x, float scale, float bias, bool bias_after_scale, DenseTensor* out) { eigen::Scale(dev_ctx, x, scale, bias, bias_after_scale, out); } template void ScaleHost(const CUDAContext& dev_ctx, const DenseTensor& x, const DenseTensor& scale, float bias, bool bias_after_scale, DenseTensor* out) { PADDLE_ENFORCE_EQ(paddle::platform::is_gpu_place(scale.place()), false, paddle::platform::errors::InvalidArgument( "Scale argument isn't a host tensor.")); eigen::Scale(dev_ctx, x, static_cast(*scale.data()), bias, bias_after_scale, out); } template void ElementwiseAdd(const CUDAContext& dev_ctx, const DenseTensor& x, const DenseTensor& y, int axis, DenseTensor* out) { std::vector inputs; std::vector outputs; inputs.emplace_back(&x); inputs.emplace_back(&y); outputs.emplace_back(out); LaunchElementwiseCudaKernel( dev_ctx, inputs, &outputs, axis, general::AddFunctor()); } template void ElementwiseSub(const CUDAContext& dev_ctx, const DenseTensor& x, const DenseTensor& y, int axis, DenseTensor* out) { std::vector inputs; std::vector outputs; inputs.emplace_back(&x); inputs.emplace_back(&y); outputs.emplace_back(out); LaunchElementwiseCudaKernel( dev_ctx, inputs, &outputs, axis, general::SubFunctor()); } } // namespace pten // TODO(chenweihang): replace by better impl PT_REGISTER_MODULE(MathCUDA); using float16 = paddle::platform::float16; using complex64 = ::paddle::platform::complex; using complex128 = ::paddle::platform::complex; PT_REGISTER_KERNEL("sign", CUDA, ANY, pten::Sign, float, double, float16) {} PT_REGISTER_KERNEL("mean", CUDA, ANY, pten::Mean, float, double, float16) {} PT_REGISTER_KERNEL("scale", CUDA, ANY, pten::Scale, float, double, float16, uint8_t, int8_t, int16_t, int, int64_t) {} PT_REGISTER_KERNEL("scale.host", CUDA, ANY, pten::ScaleHost, float, double, float16, uint8_t, int8_t, int16_t, int, int64_t) { kernel->InputAt(1).SetBackend(pten::Backend::CPU); } PT_REGISTER_KERNEL("elementwise_add", CUDA, ANY, pten::ElementwiseAdd, float, double, int, int64_t, float16, complex64, complex128) {} PT_REGISTER_KERNEL("elementwise_sub", CUDA, ANY, pten::ElementwiseSub, float, double, int, int64_t, float16, complex64, complex128) {}