/* Copyright (c) 2022 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 #include "paddle/fluid/platform/device_context.h" #include "paddle/phi/kernels/funcs/blas/blas.h" #include "paddle/phi/kernels/funcs/fc_functor.h" namespace phi { namespace funcs { using float16 = phi::dtype::float16; template struct FcTypeTraits; template <> struct FcTypeTraits { typedef float4 Type; }; template <> struct FcTypeTraits { typedef double4 Type; }; struct float16_4 { float16 x, y, z, w; }; template <> struct FcTypeTraits { typedef float16_4 Type; }; template __global__ void bias_relu_v4(const int num, const T* bias, T* data, int K) { int tid = blockIdx.x * blockDim.x + threadIdx.x; if (tid < num) { int bias_idx = tid % K; const T bias_ptr = bias[bias_idx]; const T in_ptr = data[tid]; T packed_val; packed_val.x = in_ptr.x + bias_ptr.x; packed_val.y = in_ptr.y + bias_ptr.y; packed_val.z = in_ptr.z + bias_ptr.z; packed_val.w = in_ptr.w + bias_ptr.w; if (DoRelu) { packed_val.x = fmaxf(0.f, packed_val.x); packed_val.y = fmaxf(0.f, packed_val.y); packed_val.z = fmaxf(0.f, packed_val.z); packed_val.w = fmaxf(0.f, packed_val.w); } data[tid] = packed_val; } } template __global__ void InplaceAddReluKernel(const int N, const T* bias, T* data) { int offset = blockIdx.x * N; for (int i = threadIdx.x; i < N; i += BlockDim) { T temp; #if defined(__HIPCC__) || __CUDA_ARCH__ >= 350 temp = __ldg(data + offset + i) + __ldg(bias + i); #else temp = data[offset + i] + bias[i]; #endif if (DoRelu) { data[offset + i] = static_cast(temp > 0) * temp; } else { data[offset + i] = temp; } } } template void AddReluKernel( gpuStream_t stream, const int M, const int N, T* Y, const T* B, bool relu) { if (N % 4 == 0) { const int threads = 256; const int num = M * N / 4; const int blocks = (num + threads - 1) / threads; typedef typename FcTypeTraits::Type trans_type; auto* bias_ptr_v4 = reinterpret_cast(B); auto* data_ptr_v4 = reinterpret_cast(Y); if (relu) { bias_relu_v4<<>>( num, bias_ptr_v4, data_ptr_v4, N / 4); } else { bias_relu_v4<<>>( num, bias_ptr_v4, data_ptr_v4, N / 4); } } else { const int threads = 256; const int blocks = M; if (relu) { InplaceAddReluKernel <<>>(N, B, Y); } else { InplaceAddReluKernel <<>>(N, B, Y); } } } template __global__ void InplaceAddReluKernel(const int N, const float16* bias, float16* data) { int offset = blockIdx.x * N; for (int i = threadIdx.x; i < N; i += BlockDim) { float16 temp; temp = data[offset + i] + bias[i]; if (DoRelu) { data[offset + i] = fmaxf(0.f, temp); } else { data[offset + i] = temp; } } } template <> void AddReluKernel(gpuStream_t stream, const int M, const int N, float16* Y, const float16* B, bool relu) { if (N % 4 == 0) { const int threads = 256; const int num = M * N / 4; const int blocks = (num + threads - 1) / threads; typedef typename FcTypeTraits::Type trans_type; auto* bias_ptr_v4 = reinterpret_cast(B); auto* data_ptr_v4 = reinterpret_cast(Y); if (relu) { bias_relu_v4<<>>( num, bias_ptr_v4, data_ptr_v4, N / 4); } else { bias_relu_v4<<>>( num, bias_ptr_v4, data_ptr_v4, N / 4); } } else { const int threads = 256; const int blocks = M; if (relu) { InplaceAddReluKernel <<>>(N, B, Y); } else { InplaceAddReluKernel <<>>(N, B, Y); } } } template void FCFunctor::operator()(const DeviceContext& context, const int M, const int N, const int K, const T* X, const T* W, T* Y, const T* B, bool relu, bool padding_weights) { PADDLE_ENFORCE_EQ(padding_weights, false, errors::PermissionDenied( "Weight padding in fc can not be used in GPU scope.")); auto blas = phi::funcs::GetBlas(context); blas.GEMM(false, false, M, N, K, static_cast(1.0), X, K, W, N, static_cast(0.0), Y, N); if (B == NULL) { return; } // M * N AddReluKernel(context.stream(), M, N, Y, B, relu); } template class FCFunctor; template class FCFunctor; template class FCFunctor; template class FCFunctor; template class FCFunctor; template class FCFunctor; } // namespace funcs } // namespace phi