/* Copyright (c) 2018 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/fluid/operators/jit/gen/blas.h" #include "paddle/fluid/operators/jit/registry.h" #include "paddle/fluid/platform/cpu_info.h" namespace paddle { namespace operators { namespace jit { namespace gen { void VXXJitCode::genCode() { // do not need push stack, and do not need save avx512reg if do not use avx512 int offset = 0; if (with_relu_) { vxorps(ymm_zero, ymm_zero, ymm_zero); } if (scalar_index_ == 1) { vbroadcastss(ymm_src1, ptr[param1]); } else if (scalar_index_ == 2) { vbroadcastss(ymm_src2, ptr[param2]); } for (int i = 0; i < num_ / YMM_FLOAT_BLOCK; ++i) { if (scalar_index_ != 1) { vmovups(ymm_src1, ptr[param1 + offset]); } if (scalar_index_ != 2) { vmovups(ymm_src2, ptr[param2 + offset]); } if (type_ == operand_type::MUL) { vmulps(ymm_dst, ymm_src1, ymm_src2); } else if (type_ == operand_type::ADD) { vaddps(ymm_dst, ymm_src1, ymm_src2); } else if (type_ == operand_type::SUB) { vsubps(ymm_dst, ymm_src1, ymm_src2); } if (with_relu_) { vmaxps(ymm_dst, ymm_zero, ymm_dst); } vmovups(ptr[param3 + offset], ymm_dst); offset += sizeof(float) * YMM_FLOAT_BLOCK; } int rest = num_ % YMM_FLOAT_BLOCK; while (rest > 0) { int block = XMM_FLOAT_BLOCK; if (rest >= 4) { block = 4; if (scalar_index_ != 1) { vmovups(xmm_src1, ptr[param1 + offset]); } if (scalar_index_ != 2) { vmovups(xmm_src2, ptr[param2 + offset]); } } else if (rest >= 2) { block = 2; if (scalar_index_ != 1) { vmovq(xmm_src1, ptr[param1 + offset]); } if (scalar_index_ != 2) { vmovq(xmm_src2, ptr[param2 + offset]); } } else { block = 1; if (scalar_index_ != 1) { vmovss(xmm_src1, ptr[param1 + offset]); } if (scalar_index_ != 2) { vmovss(xmm_src2, ptr[param2 + offset]); } } switch (type_) { case operand_type::MUL: vmulps(xmm_dst, xmm_src1, xmm_src2); break; case operand_type::ADD: vaddps(xmm_dst, xmm_src1, xmm_src2); break; case operand_type::SUB: vsubps(xmm_dst, xmm_src1, xmm_src2); break; default: break; } if (with_relu_) { vmaxps(xmm_dst, xmm_zero, xmm_dst); } if (rest >= 4) { vmovups(ptr[param3 + offset], xmm_dst); } else if (rest >= 2) { vmovq(ptr[param3 + offset], xmm_dst); } else { vmovss(ptr[param3 + offset], xmm_dst); } offset += sizeof(float) * block; rest -= block; } ret(); } void NCHW16CMulNCJitCode::genCode() { // RDI is ptr x_input // RSI is ptr y_input // RDX is ptr output // RCX is height // r8 is width push(rbx); xor_(rax, rax); xor_(r10, r10); vmovups(zmm3, ptr[rsi]); L("h_loop"); xor_(rbx, rbx); L("w_loop"); vmovups(zmm2, ptr[rdi + rax]); vmulps(zmm1, zmm2, zmm3); vmovups(ptr[rdx + rax], zmm1); add(rax, 64); inc(rbx); cmp(r8, rbx); jnz("w_loop"); inc(r10); cmp(r10, rcx); jnz("h_loop"); pop(rbx); ret(); } class NCHW16CMulNCCreator : public JitCodeCreator { public: bool UseMe(const int& attr) const override { return platform::MayIUse(platform::avx512f); } size_t CodeSize(const int& d) const override { return 256 * 1024; } std::unique_ptr CreateJitCode(const int& attr) const override { return make_unique(attr, CodeSize(attr)); } }; #define DECLARE_BLAS_CREATOR(name) \ class name##Creator : public JitCodeCreator { \ public: \ bool UseMe(const int& attr) const override { \ return platform::MayIUse(platform::avx) && attr <= 1024; \ } \ size_t CodeSize(const int& d) const override { \ return 96 + d / YMM_FLOAT_BLOCK * 4 * 8; \ } \ std::unique_ptr CreateJitCode(const int& attr) const override { \ return make_unique(attr, CodeSize(attr)); \ } \ } DECLARE_BLAS_CREATOR(VMul); DECLARE_BLAS_CREATOR(VAdd); DECLARE_BLAS_CREATOR(VSub); DECLARE_BLAS_CREATOR(VAddRelu); DECLARE_BLAS_CREATOR(VScal); DECLARE_BLAS_CREATOR(VAddBias); #undef DECLARE_BLAS_CREATOR } // namespace gen } // namespace jit } // namespace operators } // namespace paddle namespace gen = paddle::operators::jit::gen; REGISTER_JITKERNEL_GEN(kVMul, gen::VMulCreator); REGISTER_JITKERNEL_GEN(kVAdd, gen::VAddCreator); REGISTER_JITKERNEL_GEN(kVSub, gen::VSubCreator); REGISTER_JITKERNEL_GEN(kVAddRelu, gen::VAddReluCreator); REGISTER_JITKERNEL_GEN(kVScal, gen::VScalCreator); REGISTER_JITKERNEL_GEN(kVAddBias, gen::VAddBiasCreator); REGISTER_JITKERNEL_GEN(kNCHW16CMulNC, gen::NCHW16CMulNCCreator);