/** * \file dnn/src/arm_common/conv_bias/fp32/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/arm_common/conv_bias/opr_impl.h" #include "src/fallback/matrix_mul/opr_impl.h" namespace megdnn { namespace arm_common { class ConvBiasImpl::AlgoFP32WinogradF23_4x4 final : public AlgoBase { public: AlgoFP32WinogradF23_4x4(fallback::MatrixMulImpl::AlgoBase* matmul_algo, uint32_t tile_size) : m_matmul_algo{matmul_algo}, m_tile_size{tile_size} {} const char* name() const override { if (m_name.empty()) { m_name = ConvBiasImpl::algo_name( m_matmul_algo->name(), {4, 2, m_tile_size}); } return m_name.c_str(); } MEGDNN_WINOGRAD_ALGO_FUN_DECLARE(); }; class ConvBiasImpl::AlgoFP32WinogradF63 final : public AlgoBase { public: AlgoFP32WinogradF63(fallback::MatrixMulImpl::AlgoBase* matmul_algo, uint32_t tile_size) : m_matmul_algo{matmul_algo}, m_tile_size{tile_size} {} const char* name() const override { if (m_name.empty()) { m_name = ConvBiasImpl::algo_name( m_matmul_algo->name(), {1, 6, m_tile_size}); } return m_name.c_str(); } MEGDNN_WINOGRAD_ALGO_FUN_DECLARE(); }; class ConvBiasImpl::AlgoFP32WinogradF63_4x4 final : public AlgoBase { public: AlgoFP32WinogradF63_4x4(fallback::MatrixMulImpl::AlgoBase* matmul_algo, uint32_t tile_size) : m_matmul_algo{matmul_algo}, m_tile_size{tile_size} {} const char* name() const override { if (m_name.empty()) { m_name = ConvBiasImpl::algo_name( m_matmul_algo->name(), {4, 6, m_tile_size}); } return m_name.c_str(); } MEGDNN_WINOGRAD_ALGO_FUN_DECLARE(); }; class ConvBiasImpl::AlgoFP32WinogradF54 final : public AlgoBase { public: AlgoFP32WinogradF54(fallback::MatrixMulImpl::AlgoBase* matmul_algo, uint32_t tile_size) : m_matmul_algo{matmul_algo}, m_tile_size{tile_size} {} const char* name() const override { if (m_name.empty()) { m_name = ConvBiasImpl::algo_name( m_matmul_algo->name(), {1, 5, m_tile_size}); } return m_name.c_str(); } MEGDNN_WINOGRAD_ALGO_FUN_DECLARE(); }; class ConvBiasImpl::AlgoFP32WinogradF45 final : public AlgoBase { public: AlgoFP32WinogradF45(fallback::MatrixMulImpl::AlgoBase* matmul_algo, uint32_t tile_size) : m_matmul_algo{matmul_algo}, m_tile_size{tile_size} {} const char* name() const override { if (m_name.empty()) { m_name = ConvBiasImpl::algo_name( m_matmul_algo->name(), {1, 4, m_tile_size}); } return m_name.c_str(); } MEGDNN_WINOGRAD_ALGO_FUN_DECLARE(); }; //===================== NCHW44 Winograd Support =====================// class ConvBiasImpl::AlgoFP32WinogradF23_4x4_NCHW44 final : public AlgoBase { public: AlgoFP32WinogradF23_4x4_NCHW44( fallback::MatrixMulImpl::AlgoBase* matmul_algo, uint32_t tile_size) : m_matmul_algo{matmul_algo}, m_tile_size{tile_size} {} const char* name() const override { if (m_name.empty()) { m_name = ConvBiasImpl::algo_name( m_matmul_algo->name(), {4, 2, m_tile_size}, param::ConvBias::Format::NCHW44); } return m_name.c_str(); } MEGDNN_WINOGRAD_ALGO_FUN_DECLARE(); }; class ConvBiasImpl::AlgoFP32WinogradF63_4x4_NCHW44 final : public AlgoBase { public: AlgoFP32WinogradF63_4x4_NCHW44( fallback::MatrixMulImpl::AlgoBase* matmul_algo, uint32_t tile_size) : m_matmul_algo{matmul_algo}, m_tile_size{tile_size} {} const char* name() const override { if (m_name.empty()) { m_name = ConvBiasImpl::algo_name( m_matmul_algo->name(), {4, 6, m_tile_size}, param::ConvBias::Format::NCHW44); } return m_name.c_str(); } MEGDNN_WINOGRAD_ALGO_FUN_DECLARE(); }; // ================================================================= // class ConvBiasImpl::AlgoF32Direct final : public AlgoBase { SmallVector get_kimpls(const NCBKernSizeParam& param) const; bool m_large_group; public: AlgoF32Direct(bool is_large_group) : m_large_group{is_large_group} {} bool is_reproducible() const override { return true; } const char* name() const override { return m_large_group ? "F32DIRECT_LARGE_GROUP" : "F32DIRECT_SMALL_GROUP"; } bool usable(const NCBKernSizeParam& param, AlgoSelectionStrategy algo_selection_strategy) const override; size_t get_workspace(const NCBKernSizeParam& param) const override; virtual SmallVector dispatch_kerns( const NCBKernSizeParam& param) const override; }; class ConvBiasImpl::AlgoF32DirectStride1 final : public AlgoBase { SmallVector get_kimpls(const NCBKernSizeParam& param) const; bool m_large_group; public: AlgoF32DirectStride1(bool is_large_group) : m_large_group{is_large_group} {} bool is_reproducible() const override { return true; } const char* name() const override { return m_large_group ? "F32STRD1_LARGE_GROUP" : "F32STRD1_SMALL_GROUP"; } bool usable(const NCBKernSizeParam& param, AlgoSelectionStrategy algo_selection_strategy) const override; size_t get_workspace(const NCBKernSizeParam& param) const override; virtual SmallVector dispatch_kerns( const NCBKernSizeParam& param) const override; }; class ConvBiasImpl::AlgoF32DirectStride2 final : public AlgoBase { SmallVector get_kimpls(const NCBKernSizeParam& param) const; bool m_large_group; public: AlgoF32DirectStride2(bool is_large_group) : m_large_group{is_large_group} {} bool is_reproducible() const override { return true; } const char* name() const override { return m_large_group ? "F32STRD2_LARGE_GROUP" : "F32STRD2_SMALL_GROUP"; } bool usable(const NCBKernSizeParam& param, AlgoSelectionStrategy algo_selection_strategy) const override; size_t get_workspace(const NCBKernSizeParam& param) const override; virtual SmallVector dispatch_kerns( const NCBKernSizeParam& param) const override; }; class ConvBiasImpl::AlgoF32DirectNCHW44 final : public AlgoBase { SmallVector get_kimpls(const NCBKernSizeParam& param) const; public: AlgoF32DirectNCHW44() {} bool is_reproducible() const override { return true; } const char* name() const override { return "F32_CONV_NCHW44_DIRECT"; } bool usable(const NCBKernSizeParam& param, AlgoSelectionStrategy algo_selection_strategy) const override; size_t get_workspace(const NCBKernSizeParam& param) const override; virtual SmallVector dispatch_kerns( const NCBKernSizeParam& param) const override; }; class ConvBiasImpl::AlgoF32DirectNCHWNCHW44 final : public AlgoBase { SmallVector get_kimpls(const NCBKernSizeParam& param) const; public: AlgoF32DirectNCHWNCHW44() {} bool is_reproducible() const override { return true; } const char* name() const override { return "F32_CONV_NCHW_NCHW44"; } bool usable(const NCBKernSizeParam& param, AlgoSelectionStrategy algo_selection_strategy) const override; size_t get_workspace(const NCBKernSizeParam& param) const override; virtual SmallVector dispatch_kerns( const NCBKernSizeParam& param) const override; }; class ConvBiasImpl::AlgoF32ChannelWiseNCHW44 final : public AlgoBase { SmallVector get_kimpls(const NCBKernSizeParam& param) const; public: bool is_reproducible() const override { return true; } const char* name() const override { return "F32_CHANNEL_WISE_NCHW44"; } bool usable(const NCBKernSizeParam& param, AlgoSelectionStrategy algo_selection_strategy) const override; size_t get_workspace(const NCBKernSizeParam& param) const override; virtual SmallVector dispatch_kerns( const NCBKernSizeParam& param) const override; }; } // namespace arm_common } // namespace megdnn #undef MEGDNN_WINOGRAD_ALGO_FUN_DECLARE // vim: syntax=cpp.doxygen