* Copyright (c) 2026 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 grouped_quant_max_def.cpp
* @brief GroupedQuantMax operator definition: inputs, outputs, attributes, and platform config
*/
#include "register/op_def_registry.h"
namespace ops {
static const std::vector<ge::DataType> INPUT_X_DATA_TYPE = {ge::DT_FLOAT, ge::DT_FLOAT, ge::DT_FLOAT,
ge::DT_FLOAT16, ge::DT_FLOAT16, ge::DT_FLOAT16,
ge::DT_BF16, ge::DT_BF16, ge::DT_BF16};
static const std::vector<ge::DataType> INPUT_SCALE_DATA_TYPE = {ge::DT_FLOAT, ge::DT_FLOAT, ge::DT_FLOAT,
ge::DT_FLOAT, ge::DT_FLOAT, ge::DT_FLOAT,
ge::DT_FLOAT, ge::DT_FLOAT, ge::DT_FLOAT};
static const std::vector<ge::DataType> INPUT_GROUP_LIST_DATA_TYPE = {ge::DT_INT64, ge::DT_INT64, ge::DT_INT64,
ge::DT_INT64, ge::DT_INT64, ge::DT_INT64,
ge::DT_INT64, ge::DT_INT64, ge::DT_INT64};
static const std::vector<ge::DataType> OUTPUT_DATA_TYPE = {ge::DT_HIFLOAT8, ge::DT_FLOAT8_E5M2, ge::DT_FLOAT8_E4M3FN,
ge::DT_HIFLOAT8, ge::DT_FLOAT8_E5M2, ge::DT_FLOAT8_E4M3FN,
ge::DT_HIFLOAT8, ge::DT_FLOAT8_E5M2, ge::DT_FLOAT8_E4M3FN};
static const std::vector<ge::Format> FORMAT = {ge::FORMAT_ND, ge::FORMAT_ND, ge::FORMAT_ND,
ge::FORMAT_ND, ge::FORMAT_ND, ge::FORMAT_ND,
ge::FORMAT_ND, ge::FORMAT_ND, ge::FORMAT_ND};
class GroupedQuantMax : public OpDef {
public:
explicit GroupedQuantMax(const char* name) : OpDef(name)
{
this->Input("x")
.ParamType(REQUIRED)
.DataType(INPUT_X_DATA_TYPE)
.Format(FORMAT)
.UnknownShapeFormat(FORMAT)
.AutoContiguous();
this->Input("scale")
.ParamType(REQUIRED)
.DataType(INPUT_SCALE_DATA_TYPE)
.Format(FORMAT)
.UnknownShapeFormat(FORMAT)
.AutoContiguous();
this->Input("group_list")
.ParamType(REQUIRED)
.DataType(INPUT_GROUP_LIST_DATA_TYPE)
.Format(FORMAT)
.UnknownShapeFormat(FORMAT)
.AutoContiguous();
this->Output("y")
.ParamType(REQUIRED)
.DataType(OUTPUT_DATA_TYPE)
.Format(FORMAT)
.UnknownShapeFormat(FORMAT)
.AutoContiguous();
this->Output("amax")
.ParamType(REQUIRED)
.DataType(INPUT_X_DATA_TYPE)
.Format(FORMAT)
.UnknownShapeFormat(FORMAT)
.AutoContiguous();
this->Attr("round_mode").AttrType(OPTIONAL).String("rint");
this->Attr("dst_type").AttrType(OPTIONAL).Int(ge::DT_FLOAT8_E5M2);
OpAICoreConfig aicoreConfig950;
aicoreConfig950.DynamicCompileStaticFlag(true)
.DynamicFormatFlag(false)
.DynamicRankSupportFlag(true)
.DynamicShapeSupportFlag(true)
.NeedCheckSupportFlag(false)
.PrecisionReduceFlag(false)
.ExtendCfgInfo("opFile.value", "grouped_quant_max");
this->AICore().AddConfig("ascend950", aicoreConfig950);
}
};
OP_ADD(GroupedQuantMax);
}