* Copyright (c) 2025 Huawei Technologies Co., Ltd.
* This program is free software, you can redistribute it and/or modify it under the terms and conditions of
* CANN Open Software License Agreement Version 2.0 (the "License").
* Please refer to the License for details. You may not use this file except in compliance with the License.
* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, EITHER EXPRESS OR IMPLIED,
* INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, MERCHANTABILITY, OR FITNESS FOR A PARTICULAR PURPOSE.
* See LICENSE in the root of the software repository for the full text of the License.
*/
* \file conv3d_bp_input_tiling.h
* \brief
*/
#ifndef CONV3D_BP_INPUT_TILING_H
#define CONV3D_BP_INPUT_TILING_H
#include "conv3d_bp_input_tiling_base.h"
#include "conv3d_bp_input_tilingdata.h"
namespace ConvBackpropApi {
class Conv3DBpInputTiling : public Conv3DBpInputTilingBase {
public:
Conv3DBpInputTiling() {};
explicit Conv3DBpInputTiling(const platform_ascendc::PlatformAscendC &ascendcPlatform)
: Conv3DBpInputTilingBase(ascendcPlatform) {};
explicit Conv3DBpInputTiling(const PlatformInfo& platform) : Conv3DBpInputTilingBase(platform) {};
~Conv3DBpInputTiling() override = default;
int64_t GetTiling(optiling::Conv3DBackpropInputTilingData &tiling) override;
int64_t GetTiling(AscendC::tiling::Conv3DBackpropInputTilingData &tiling) override;
protected:
int64_t Compute() override;
bool CheckInputParam() override;
void SetFinalTiling(optiling::Conv3DBackpropInputTilingData& tiling) override;
void SetFinalTiling(AscendC::tiling::Conv3DBackpropInputTilingData& tiling) override;
void PrintTilingData() const override;
void SetBasicBlockAttrsTiling();
int32_t CalFmapH(const uint32_t& mL1Size) const;
void AlignCout1(uint32_t &cout1A, uint32_t &cout1B, bool adaptFP32) const;
bool CalModifyBackpropPadHW();
bool CalModifyBackpropPadD();
void SetBackpropPadInfo();
void SetInitOutput();
void CalStepMNK();
void LadderMatchStepKWithFullLoad(uint32_t& stepKa, const uint32_t& stepKb);
void LadderMatchStepMNK(uint32_t& stepKa, uint32_t& stepKb);
void EqualL1MatchStepMNK(uint32_t& stepKa, uint32_t& stepKb);
bool MultiCoreSplitMN();
bool IsStepL1Valid(const uint32_t& stepKa, const uint32_t& stepKb);
void InitBaseMNK();
void AdjustBaseMNK(const uint32_t l0abPingPong, const uint32_t l0cPingPong, uint32_t& baseM, uint32_t& baseN, uint32_t& baseK);
void SetSingleCoreInfo();
void LegalProtection();
bool IsL2Efficient(const uint64_t singleCoreM, const uint64_t singleCoreN, const uint64_t singleCoreK, const uint64_t transdataWorkSpace);
void ShrinkBasicBlock();
MatMulDxInfo mmInfo_;
uint64_t lenHkWkC0_ = 1;
BasicBlockDxTilingParams tilingParams;
uint8_t loadB2Condition_ = 0;
bool enableKernelSplit_ = false;
int32_t initOutputFlag = 0;
int32_t dtypeByte_ = 2;
int32_t blockSize_ = 16;
private:
bool CheckCalPads();
bool CheckAttrs();
bool CheckPadRange();
bool CheckOutputHeight();
bool CheckTransposeOutputtingRange();
bool InferShape();
};
}
#endif
