/** * \file dnn/src/aarch64/matrix_mul/algos.h * MegEngine is Licensed under the Apache License, Version 2.0 (the "License") * * Copyright (c) 2014-2020 Megvii Inc. All rights reserved. * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT ARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. */ #pragma once #include "src/aarch64/matrix_mul/opr_impl.h" #include "src/arm_common/matrix_mul/algos.h" #include "src/fallback/matrix_mul/gemm_common.h" namespace megdnn { namespace aarch64 { class MatrixMulImpl::AlgoF32K8x12x1 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_F32K8X12X1"; } bool usable(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; class MatrixMulImpl::AlgoF32MK4_8x12x1 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_F32_MK4_K8X12X1"; } bool usable(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; class MatrixMulImpl::AlgoF32K4x16x1 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_F32K4X16X1"; } bool usable(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; class MatrixMulImpl::AlgoF32MK4_4x16 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_F32_MK4_4x16"; } bool usable(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } PackMode packmode() const override { return PackMode::NO_PACK; } }; class MatrixMulImpl::AlgoF32Gemv final : public arm_common::MatrixMulImpl::AlgoF32Gemv {}; #if __ARM_FEATURE_FP16_VECTOR_ARITHMETIC class MatrixMulImpl::AlgoF16K8x24x1 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_F16_K8X24X1"; } bool usable(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; class MatrixMulImpl::AlgoF16MK8_8x8 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_F16_MK8_8X8"; } bool usable(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } PackMode packmode() const override { return PackMode::NO_PACK; } }; #endif #if __ARM_FEATURE_DOTPROD class MatrixMulImpl::AlgoInt8x8x32K8x12x4DotProd final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_INT8X8X32_K8X12X4_DOTPROD"; } bool usable(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; class MatrixMulImpl::AlgoInt8x8x32MK4_8x12x4DotProd final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_INT8X8X32_MK4_8X12X4_DOTPROD"; } bool usable(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; #else class MatrixMulImpl::AlgoInt8x8x32MK4_4x4x16 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_INT8X8X32_MK4_4X4X16"; } bool usable(const KernSizeParam&) const override; bool preferred(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } PackMode packmode() const override { return PackMode::DEFAULT; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; class MatrixMulImpl::AlgoInt8x8x32K4x4x16 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_INT8X8X32_K4X4X16"; } bool usable(const KernSizeParam&) const override; bool preferred(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; class MatrixMulImpl::AlgoInt8x8x32K8x8x8 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_INT8X8X32_K8X8X8"; } bool usable(const KernSizeParam&) const override; bool preferred(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; #endif class MatrixMulImpl::AlgoInt8x8x16K8x8x8 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_INT8X8X16_K8X8X8"; } bool usable(const KernSizeParam&) const override; bool preferred(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; class MatrixMulImpl::AlgoInt8x8x16K4x4x16 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_INT8X8X16_K4X4X16"; } bool usable(const KernSizeParam&) const override; bool preferred(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; class MatrixMulImpl::AlgoInt16x16x32K12x8x1 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_INT16X16X32_K12X8X1"; } bool usable(const KernSizeParam&) const override; bool preferred(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; class MatrixMulImpl::AlgoInt16x16x32MK8_8x8 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_INT16X16X32_MK8_8X8"; } bool usable(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } PackMode packmode() const override { return PackMode::NO_PACK; } }; #if __ARM_FEATURE_DOTPROD class MatrixMulImpl::AlgoQuint8K8x8x4DotProd final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_QUINT8_K8X8X4_DOTPROD"; } bool usable(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; class MatrixMulImpl::AlgoQuint8GemvDotProd final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_QUINT8_GEMV_DOTPROD"; } bool usable(const KernSizeParam&) const override; bool preferred(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override { return 0; } kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } AlgoSet algoset() const override { return AlgoSet::ALGO_TYPE_GEMV; } PackMode packmode() const override { return PackMode::NO_PACK; } }; #else class MatrixMulImpl::AlgoQuint8K8x8x8 final : public AlgoBase { public: bool is_reproducible() const override { return true; } const char* name() const override { return "AARCH64_QUINT8_K8X8X8"; } bool usable(const KernSizeParam&) const override; size_t get_workspace(const KernSizeParam&) const override; kern_t get_kern(const KernSizeParam&) const override; void* type() const override { return sm_arm_common_algo_type; } MEGDNN_REG_GEMM_FUNC_FOR_IM2COL(); }; #endif } // namespace aarch64 } // namespace megdnn // vim: syntax=cpp.doxygen