mlu_baseop.cc 195.4 KB
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/* Copyright (c) 2021 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/mlu/mlu_baseop.h"
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#include "paddle/fluid/framework/convert_utils.h"
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#include "paddle/fluid/framework/data_type.h"
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#include "paddle/fluid/framework/framework.pb.h"
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#include "paddle/fluid/framework/operator.h"
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namespace paddle {
namespace operators {

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cnnlCastDataType_t GetCastDataType(const VT::Type& src_type,
                                   const VT::Type& dst_type) {
  cnnlCastDataType_t cast_type = CNNL_CAST_FLOAT_TO_HALF;
  for (auto it = MLU_SUPPORTED_CAST_TYPE.begin();
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       it != MLU_SUPPORTED_CAST_TYPE.end();
       ++it) {
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    if (it->first.first == src_type && it->first.second == dst_type) {
      cast_type = it->second;
      break;
    }
  }
  return cast_type;
}

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cnnlCastDataType_t GetCastDataType(const DataType& src_type,
                                   const DataType& dst_type) {
  return GetCastDataType(framework::TransToProtoVarType(src_type),
                         framework::TransToProtoVarType(dst_type));
}

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bool MLUSupportsCast(const VT::Type& src_type, const VT::Type& dst_type) {
  for (auto it = MLU_SUPPORTED_CAST_TYPE.begin();
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       it != MLU_SUPPORTED_CAST_TYPE.end();
       ++it) {
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    if (it->first.first == src_type && it->first.second == dst_type) {
      return true;
    }
  }
  return false;
}

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const std::shared_ptr<MLUCnnlRandomGeneratorDesc>& GetMLURandomGenerator(
    const ExecutionContext& ctx, const int64_t device_id, const int seed) {
  static int64_t num_mlu_devices = -1;
  static std::once_flag num_devices_init_flag;
  static std::deque<std::once_flag> mlu_device_flags;
  static std::vector<std::shared_ptr<MLUCnnlRandomGeneratorDesc>>
      mlu_rand_generators;

  std::call_once(num_devices_init_flag, []() {
    num_mlu_devices = paddle::platform::GetMLUDeviceCount();
    mlu_device_flags.resize(num_mlu_devices);
    mlu_rand_generators.resize(num_mlu_devices);
  });
  if (device_id < 0) {
    PADDLE_THROW(platform::errors::InvalidArgument(
        "mlu device id shoule be greater than 0"));
  }

  std::call_once(mlu_device_flags[device_id], [&]() {
    mlu_rand_generators[device_id].reset(
        new MLUCnnlRandomGeneratorDesc(ctx, seed));
    VLOG(4) << "device_id: " << device_id << ", initial seed: " << seed;
  });
  return mlu_rand_generators[device_id];
}

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class MLUCnnlTensorDescPool {
 public:
  cnnlTensorDescriptor_t Pop() {
    cnnlTensorDescriptor_t raw_desc;
    if (q_.try_dequeue(raw_desc)) {
      return raw_desc;
    } else {
      cnnlCreateTensorDescriptor(&raw_desc);
      return raw_desc;
    }
  }

  void Recycle(cnnlTensorDescriptor_t desc) {
    cnnlResetTensorDescriptor(desc);
    q_.enqueue(desc);
  }

  ~MLUCnnlTensorDescPool() {
    auto size = q_.size_approx();
    if (size > 0) {
      std::vector<cnnlTensorDescriptor_t> vec(size);
      q_.try_dequeue_bulk(vec.data(), size);
      for (auto desc : vec) {
        cnnlDestroyTensorDescriptor(desc);
      }
    }
  }

 private:
  moodycamel::ConcurrentQueue<cnnlTensorDescriptor_t> q_;
};

static MLUCnnlTensorDescPool g_cnnl_tensor_desc_pool;

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MLUCnnlTensorDesc& MLUCnnlTensorDesc::operator=(MLUCnnlTensorDesc&& rhs) {
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  if (raw_tensor_desc) {
    g_cnnl_tensor_desc_pool.Recycle(raw_tensor_desc);
  }
  raw_tensor_desc = rhs.raw_tensor_desc;
  rhs.raw_tensor_desc = nullptr;
  return *this;
}

MLUCnnlTensorDesc::MLUCnnlTensorDesc(const int tensor_dim,
                                     const int dim_sizes[],
                                     const cnnlDataType_t tensor_dtype) {
  raw_tensor_desc = g_cnnl_tensor_desc_pool.Pop();
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetTensorDescriptor(
      raw_tensor_desc, CNNL_LAYOUT_ARRAY, tensor_dtype, tensor_dim, dim_sizes));
}

MLUCnnlTensorDesc::MLUCnnlTensorDesc(const int tensor_dim,
                                     const int dim_sizes[],
                                     const cnnlDataType_t tensor_dtype,
                                     const cnnlTensorLayout_t layout) {
  raw_tensor_desc = g_cnnl_tensor_desc_pool.Pop();
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetTensorDescriptor(
      raw_tensor_desc, layout, tensor_dtype, tensor_dim, dim_sizes));
}

MLUCnnlTensorDesc::MLUCnnlTensorDesc(const int tensor_dim,
                                     const int dim_sizes[],
                                     const cnnlDataType_t tensor_dtype,
                                     int position)
    : MLUCnnlTensorDesc(tensor_dim, dim_sizes, tensor_dtype) {
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorPosition(raw_tensor_desc, position));
}

MLUCnnlTensorDesc::MLUCnnlTensorDesc(const int tensor_dim,
                                     const int64_t dim_sizes[],
                                     const cnnlDataType_t tensor_dtype) {
  std::vector<int> dim_sizes_int32(tensor_dim);
  std::vector<int64_t>::const_iterator int64_cbegin(dim_sizes);
  std::vector<int64_t>::const_iterator int64_cend(dim_sizes + tensor_dim);
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  std::transform(int64_cbegin,
                 int64_cend,
                 dim_sizes_int32.begin(),
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                 &CheckedNarrowing<int64_t, int>);
  raw_tensor_desc = g_cnnl_tensor_desc_pool.Pop();
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetTensorDescriptor(raw_tensor_desc,
                                                     CNNL_LAYOUT_ARRAY,
                                                     tensor_dtype,
                                                     tensor_dim,
                                                     dim_sizes_int32.data()));
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}

MLUCnnlTensorDesc::MLUCnnlTensorDesc(const int tensor_dim,
                                     const int64_t dim_sizes[],
                                     const cnnlDataType_t tensor_dtype,
                                     const cnnlTensorLayout_t layout) {
  std::vector<int> dim_sizes_int32(tensor_dim);
  std::vector<int64_t>::const_iterator int64_cbegin(dim_sizes);
  std::vector<int64_t>::const_iterator int64_cend(dim_sizes + tensor_dim);
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  std::transform(int64_cbegin,
                 int64_cend,
                 dim_sizes_int32.begin(),
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                 &CheckedNarrowing<int64_t, int>);
  raw_tensor_desc = g_cnnl_tensor_desc_pool.Pop();
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetTensorDescriptor(raw_tensor_desc,
                                                     layout,
                                                     tensor_dtype,
                                                     tensor_dim,
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                                                     dim_sizes_int32.data()));
}

MLUCnnlTensorDesc::MLUCnnlTensorDesc(const int tensor_dim,
                                     const int64_t dim_sizes[],
                                     const cnnlDataType_t tensor_dtype,
                                     int position) {
  std::vector<int> dim_sizes_int32(tensor_dim);
  std::vector<int64_t>::const_iterator int64_cbegin(dim_sizes);
  std::vector<int64_t>::const_iterator int64_cend(dim_sizes + tensor_dim);
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  std::transform(int64_cbegin,
                 int64_cend,
                 dim_sizes_int32.begin(),
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                 &CheckedNarrowing<int64_t, int>);
  raw_tensor_desc = g_cnnl_tensor_desc_pool.Pop();
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetTensorDescriptor(raw_tensor_desc,
                                                     CNNL_LAYOUT_ARRAY,
                                                     tensor_dtype,
                                                     tensor_dim,
                                                     dim_sizes_int32.data()));
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  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorPosition(raw_tensor_desc, position));
}

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MLUCnnlTensorDesc::MLUCnnlTensorDesc(const Tensor& tensor,
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                                     const cnnlTensorLayout_t layout,
                                     const cnnlDataType_t tensor_dtype) {
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  auto dims = phi::vectorize<int>(tensor.dims());
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  int tensor_dim = dims.size();
  raw_tensor_desc = g_cnnl_tensor_desc_pool.Pop();
  if (tensor_dim == 0) {
    int scalar_dims[1] = {1};
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetTensorDescriptor(
        raw_tensor_desc, layout, tensor_dtype, 1, scalar_dims));
  } else {
    std::vector<int> tensor_dim_sizes_int(dims.begin(), dims.end());
    PADDLE_ENFORCE_MLU_SUCCESS(
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        cnnlSetTensorDescriptor(raw_tensor_desc,
                                layout,
                                tensor_dtype,
                                tensor_dim,
                                tensor_dim_sizes_int.data()));
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  }
}

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MLUCnnlTensorDesc::MLUCnnlTensorDesc(const Tensor& tensor)
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    : MLUCnnlTensorDesc(
          tensor, CNNL_LAYOUT_ARRAY, ToCnnlDataType(tensor.dtype())) {}
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MLUCnnlTensorDesc::MLUCnnlTensorDesc(const Tensor& tensor,
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                                     cnnlTensorLayout_t layout,
                                     const cnnlDataType_t tensor_dtype,
                                     int position)
    : MLUCnnlTensorDesc(tensor, layout, tensor_dtype) {
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorPosition(raw_tensor_desc, position));
}

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MLUCnnlTensorDesc::MLUCnnlTensorDesc(const Tensor& tensor,
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                                     cnnlTensorLayout_t layout,
                                     const cnnlDataType_t tensor_dtype,
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                                     int position,
                                     float scale)
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    : MLUCnnlTensorDesc(tensor, layout, tensor_dtype) {
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetTensorDescriptorPositionAndScale(
      raw_tensor_desc, position, scale));
}

MLUCnnlTensorDesc::~MLUCnnlTensorDesc() {
  if (raw_tensor_desc) {
    g_cnnl_tensor_desc_pool.Recycle(raw_tensor_desc);
  }
}

MLUCnnlActivationDesc::MLUCnnlActivationDesc(
    const cnnlActivationMode_t act_mode, const float ceof) {
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateActivationDescriptor(&active_desc_));
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetActivationDescriptor_v4(
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      active_desc_,
      act_mode,
      CNNL_ACTIVATION_HIGH_PRECISION,
      CNNL_NOT_PROPAGATE_NAN,
      ceof,
      1.0f /*sliced_dim*/,
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      1.67326319217681884765625 /*selu_alpha*/,
      1.05070102214813232421875 /*selu_lambda*/));
}

MLUCnnlActivationDesc::MLUCnnlActivationDesc(
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    const cnnlActivationMode_t act_mode,
    const float ceof,
    const float sliced_dim,
    const float selu_alpha,
    const float selu_lambda) {
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateActivationDescriptor(&active_desc_));
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  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetActivationDescriptor_v4(active_desc_,
                                     act_mode,
                                     CNNL_ACTIVATION_HIGH_PRECISION,
                                     CNNL_NOT_PROPAGATE_NAN,
                                     ceof,
                                     sliced_dim,
                                     selu_alpha,
                                     selu_lambda));
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}

const cnnlActivationDescriptor_t MLUCnnlActivationDesc::get() const {
  return active_desc_;
}

MLUCnnlActivationDesc::~MLUCnnlActivationDesc() {
  if (active_desc_) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyActivationDescriptor(active_desc_));
  }
}

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MLUCnnlPoolingDesc::MLUCnnlPoolingDesc(
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    const cnnlPoolingMode_t mode,
    const cnnlNanPropagation_t maxpooling_nan_opt,
    int window_rows,
    int window_cols,
    int64_t pad_up,
    int64_t pad_down,
    int64_t pad_left,
    int64_t pad_right,
    int row_stride,
    int col_stride,
    int row_dilation,
    int col_dilation,
    bool ceil_mode) {
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreatePoolingDescriptor(&pooling_desc_));
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetPooling2dDescriptor_v2(pooling_desc_,
                                                           mode,
                                                           maxpooling_nan_opt,
                                                           window_rows,
                                                           window_cols,
                                                           pad_up,
                                                           pad_down,
                                                           pad_left,
                                                           pad_right,
                                                           row_stride,
                                                           col_stride,
                                                           row_dilation,
                                                           col_dilation,
                                                           ceil_mode));
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}

MLUCnnlPoolingDesc::MLUCnnlPoolingDesc(
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    const cnnlPoolingMode_t mode,
    const cnnlNanPropagation_t maxpooling_nan_opt,
    const int tensor_rank,
    const std::vector<int>& window,
    const std::vector<int>& padding,
    const std::vector<int>& stride) {
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreatePoolingDescriptor(&pooling_desc_));
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetPoolingNdDescriptor(pooling_desc_,
                                                        mode,
                                                        maxpooling_nan_opt,
                                                        tensor_rank,
                                                        window.data(),
                                                        padding.data(),
                                                        stride.data()));
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}

const cnnlPoolingDescriptor_t MLUCnnlPoolingDesc::get() const {
  return pooling_desc_;
}

MLUCnnlPoolingDesc::~MLUCnnlPoolingDesc() {
  if (pooling_desc_) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyPoolingDescriptor(pooling_desc_));
  }
}

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MLUCnnlRandomGeneratorDesc::MLUCnnlRandomGeneratorDesc(
    const ExecutionContext& ctx, const int seed) {
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlRandCreateGenerator(&mlu_generator, CNNL_RAND_RNG_MTGP32));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlRandSetPseudoRandomGeneratorSeed(mlu_generator, seed));
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlRandGetMTGP32StateSize(mlu_generator, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  mlu_state = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* mlu_state_ptr = mlu_state.mutable_data(ctx.GetPlace());

  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlRandMakeMTGP32KernelState(
      handle, mlu_state_ptr, nullptr, nullptr, seed));
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}

const cnnlRandGenerator_t MLUCnnlRandomGeneratorDesc::get() const {
  return mlu_generator;
}

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Tensor& MLUCnnlRandomGeneratorDesc::get_state() { return mlu_state; }

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MLUCnnlRandomGeneratorDesc::~MLUCnnlRandomGeneratorDesc() {
  if (mlu_generator) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlRandDestroyGenerator(mlu_generator));
  }
}

MLUCnnlNMSDesc::MLUCnnlNMSDesc(const cnnlNmsOutputMode_t mode,
                               const float iou_threshold,
                               const int max_output_size,
                               const float confidence_threshold,
                               const int input_layout) {
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateNmsDescriptor(&nms_desc_));
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetNmsDescriptor_v2(nms_desc_,
                                                     mode,
                                                     iou_threshold,
                                                     max_output_size,
                                                     confidence_threshold,
                                                     input_layout));
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}

const cnnlNmsDescriptor_t MLUCnnlNMSDesc::get() const { return nms_desc_; }

MLUCnnlNMSDesc::~MLUCnnlNMSDesc() {
  if (nms_desc_) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyNmsDescriptor(nms_desc_));
  }
}

MLUCnnlReduceDesc::MLUCnnlReduceDesc(const std::vector<int>& axis_vec,
                                     const cnnlReduceOp_t reduce_op,
                                     const cnnlDataType_t data_type,
                                     const cnnlNanPropagation_t nan_propagation,
                                     const cnnlReduceIndices_t reduce_indices,
                                     const cnnlIndicesType_t indices_type) {
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateReduceDescriptor(&reduction_desc_));
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  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetReduceDescriptor(reduction_desc_,
                              const_cast<int*>(axis_vec.data()),
                              axis_vec.size(),
                              reduce_op,
                              data_type,
                              nan_propagation,
                              reduce_indices,
                              indices_type));
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}

const cnnlReduceDescriptor_t MLUCnnlReduceDesc::get() const {
  return reduction_desc_;
}

MLUCnnlReduceDesc::~MLUCnnlReduceDesc() {
  if (reduction_desc_) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyReduceDescriptor(reduction_desc_));
  }
}

MLUCnnlOpTensorDesc::MLUCnnlOpTensorDesc(
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    cnnlOpTensorDesc_t op_tensor_op,
    cnnlDataType_t op_tensor_comp_type,
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    cnnlNanPropagation_t op_tensor_nan_opt) {
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateOpTensorDescriptor(&op_tensor_desc_));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetOpTensorDescriptor(
      op_tensor_desc_, op_tensor_op, op_tensor_comp_type, op_tensor_nan_opt));
}

const cnnlOpTensorDescriptor_t MLUCnnlOpTensorDesc::get() const {
  return op_tensor_desc_;
}

MLUCnnlOpTensorDesc::~MLUCnnlOpTensorDesc() {
  if (op_tensor_desc_) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyOpTensorDescriptor(op_tensor_desc_));
  }
}

MLUCnnlConvolutionDesc::MLUCnnlConvolutionDesc(
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    const int dims,
    const int pad[],
    const int stride[],
    const int dilation[],
    const int group_count,
    const cnnlDataType_t tensor_dtype) {
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateConvolutionDescriptor(&conv_desc_));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetConvolutionDescriptor(
      conv_desc_, dims, pad, stride, dilation, group_count, tensor_dtype));
}

MLUCnnlConvolutionDesc::MLUCnnlConvolutionDesc(
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    const int dims,
    const int64_t pad[],
    const int64_t stride[],
    const int64_t dilation[],
    const int group_count,
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    const cnnlDataType_t tensor_dtype) {
  const int spatial_dims = dims - 2;
  const int pad_dims = spatial_dims * 2;
  std::vector<int> pad_int32(pad_dims);
  std::vector<int> stride_int32(spatial_dims);
  std::vector<int> dilation_int32(spatial_dims);
  std::vector<int64_t>::const_iterator int64_pad_cbegin(pad);
  std::vector<int64_t>::const_iterator int64_pad_cend(pad + pad_dims);
  std::vector<int64_t>::const_iterator int64_stride_cbegin(stride);
  std::vector<int64_t>::const_iterator int64_stride_cend(stride + spatial_dims);
  std::vector<int64_t>::const_iterator int64_dilation_cbegin(dilation);
  std::vector<int64_t>::const_iterator int64_dilation_cend(dilation +
                                                           spatial_dims);
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  std::transform(int64_pad_cbegin,
                 int64_pad_cend,
                 pad_int32.begin(),
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                 &CheckedNarrowing<int64_t, int>);
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  std::transform(int64_stride_cbegin,
                 int64_stride_cend,
                 stride_int32.begin(),
                 &CheckedNarrowing<int64_t, int>);
  std::transform(int64_dilation_cbegin,
                 int64_dilation_cend,
                 dilation_int32.begin(),
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                 &CheckedNarrowing<int64_t, int>);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateConvolutionDescriptor(&conv_desc_));
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetConvolutionDescriptor(conv_desc_,
                                                          dims,
                                                          pad_int32.data(),
                                                          stride_int32.data(),
                                                          dilation_int32.data(),
                                                          group_count,
                                                          tensor_dtype));
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}

const cnnlConvolutionDescriptor_t MLUCnnlConvolutionDesc::get() const {
  return conv_desc_;
}

MLUCnnlConvolutionDesc::~MLUCnnlConvolutionDesc() {
  if (conv_desc_) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyConvolutionDescriptor(conv_desc_));
  }
}

MLUCnnlBatchSpaceDesc::MLUCnnlBatchSpaceDesc(uint32_t block_shape[],
                                             uint32_t paddings[],
                                             const uint32_t block_shape_size,
                                             const uint32_t paddings_size) {
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateSpaceBatchNdDescriptor(&op_desc_));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetSpaceBatchNdDescriptor(
      op_desc_, block_shape, block_shape_size, paddings, paddings_size));
}

void MLUCnnlBatchSpaceDesc::getSpace2batchNdextraInputSize(
    const ExecutionContext& ctx, const cnnlTensorDescriptor_t input_desc) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetSpace2batchNdExtraInputSize(
      handle, input_desc, op_desc_, &extra_input_size_));
}

void MLUCnnlBatchSpaceDesc::getBatch2spaceNdextraInputSize(
    const ExecutionContext& ctx, const cnnlTensorDescriptor_t input_desc) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetBatch2spaceNdExtraInputSize(
      handle, input_desc, op_desc_, &extra_input_size_));
}

void MLUCnnlBatchSpaceDesc::initSpace2batchNdExtraInput(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t input_desc,
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    void* extra_host_input) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlInitSpace2batchNdExtraInput(
      handle, input_desc, op_desc_, extra_host_input));
}

void MLUCnnlBatchSpaceDesc::initBatch2spaceNdExtraInput(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t input_desc,
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    void* extra_host_input) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlInitBatch2spaceNdExtraInput(
      handle, input_desc, op_desc_, extra_host_input));
}

const cnnlSpaceBatchNdDescriptor_t MLUCnnlBatchSpaceDesc::get() const {
  return op_desc_;
}

size_t MLUCnnlBatchSpaceDesc::getExtraInputSize() const {
  return extra_input_size_;
}

MLUCnnlBatchSpaceDesc::~MLUCnnlBatchSpaceDesc() {
  if (op_desc_) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroySpaceBatchNdDescriptor(op_desc_));
  }
}

MLUCnnlTrigonDesc::MLUCnnlTrigonDesc(
    const cnnlTrigonFunctionMode_t trigon_function_mode) {
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateTrigonDescriptor(&trigon_desc_));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTrigonDescriptor(trigon_desc_, trigon_function_mode));
}

const cnnlTrigonDescriptor_t MLUCnnlTrigonDesc::get() const {
  return trigon_desc_;
}

MLUCnnlTrigonDesc::~MLUCnnlTrigonDesc() {
  if (trigon_desc_) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyTrigonDescriptor(trigon_desc_));
  }
}

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MLUCnnlDCNDesc::MLUCnnlDCNDesc(int dimNb,
                               const int* pad,
                               const int* stride,
                               const int* dilation,
                               int deformable_group,
                               int conv_group,
                               int im2col_step) {
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateDCNDescriptor(&dcn_desc_));
  const cnnlDataType_t compute_type = CNNL_DTYPE_FLOAT;
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetDCNDescriptor(dcn_desc_,
                                                  dimNb,
                                                  pad,
                                                  stride,
                                                  dilation,
                                                  deformable_group,
                                                  conv_group,
                                                  im2col_step,
                                                  compute_type));
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}

const cnnlDCNDescriptor_t MLUCnnlDCNDesc::get() const { return dcn_desc_; }

MLUCnnlDCNDesc::~MLUCnnlDCNDesc() {
  if (dcn_desc_) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyDCNDescriptor(dcn_desc_));
  }
}

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/* static */ void MLUCnnl::Active(const ExecutionContext& ctx,
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                                  cnnlActivationDescriptor_t active_desc,
                                  const cnnlTensorDescriptor_t input_desc,
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                                  const void* input,
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                                  const cnnlTensorDescriptor_t output_desc,
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                                  void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlActivationForward(
      handle, active_desc, NULL, input_desc, input, NULL, output_desc, output));
}

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/* static */ void MLUCnnl::ActiveGrad(const ExecutionContext& ctx,
                                      cnnlActivationDescriptor_t active_desc,
                                      const void* alpha,
                                      const void* beta,
                                      const cnnlTensorDescriptor_t y_desc,
                                      const void* y,
                                      const cnnlTensorDescriptor_t diff_y_desc,
                                      const void* diff_y,
                                      const cnnlTensorDescriptor_t x_desc,
                                      const void* x,
                                      const cnnlTensorDescriptor_t diff_x_desc,
                                      void* diff_x) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlActivationBackward(handle,
                                                    active_desc,
                                                    alpha,
                                                    y_desc,
                                                    y,
                                                    diff_y_desc,
                                                    diff_y,
                                                    x_desc,
                                                    x,
                                                    beta,
                                                    diff_x_desc,
                                                    diff_x));
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}

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/* static */ void MLUCnnl::Concat(const ExecutionContext& ctx,
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                                  const int pack_num,
                                  const int axis,
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                                  const cnnlTensorDescriptor_t inputs_desc[],
                                  const void* const inputs[],
                                  const cnnlTensorDescriptor_t output_desc,
                                  void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size = 0;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConcatWorkspaceSize(handle, pack_num, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlConcat(handle,
                                        pack_num,
                                        axis,
                                        inputs_desc,
                                        inputs,
                                        workspace_ptr,
                                        workspace_size,
                                        output_desc,
                                        output));
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}

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/* static */ void MLUCnnl::Concat(const MLUDeviceContext& dev_ctx,
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                                  const int pack_num,
                                  const int axis,
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                                  const cnnlTensorDescriptor_t inputs_desc[],
                                  const void* const inputs[],
                                  const cnnlTensorDescriptor_t output_desc,
                                  void* output) {
  cnnlHandle_t handle = dev_ctx.cnnl_handle();

  size_t workspace_size = 0;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConcatWorkspaceSize(handle, pack_num, &workspace_size));

  Tensor workspace(paddle::experimental::DataType::INT8);
  workspace.Resize(framework::DDim({static_cast<int64_t>(workspace_size)}));
  void* workspace_ptr = workspace.mutable_data(dev_ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlConcat(handle,
                                        pack_num,
                                        axis,
                                        inputs_desc,
                                        inputs,
                                        workspace_ptr,
                                        workspace_size,
                                        output_desc,
                                        output));
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}

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/* static */ void MLUCnnl::Div(const ExecutionContext& ctx,
                               cnnlComputationPreference_t prefer,
                               const cnnlTensorDescriptor_t in0_desc,
                               const void* in0,
                               const cnnlTensorDescriptor_t in1_desc,
                               const void* in1,
                               const cnnlTensorDescriptor_t output_desc,
                               void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size = 0;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetDivWorkspaceSize(
      handle, in0_desc, in1_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlDiv_v2(handle,
                                        prefer,
                                        in0_desc,
                                        in0,
                                        in1_desc,
                                        in1,
                                        workspace_ptr,
                                        workspace_size,
                                        output_desc,
                                        output));
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}

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/* static */ void MLUCnnl::Fill(const ExecutionContext& ctx,
                                const cnnlPointerMode_t pointer_mode,
                                const void* value_ptr,
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                                const cnnlTensorDescriptor_t output_desc,
                                void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlFill_v3(handle, pointer_mode, value_ptr, output_desc, output));
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}

/* static */ void MLUCnnl::QuantifyOffline(
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    const ExecutionContext& ctx,
    cnnlQuantizeMode_t mode,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlQuantizeV1(handle, mode, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::LRN(const ExecutionContext& ctx,
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                               const int local_size,
                               const double alpha,
                               const double beta,
                               const double k,
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                               const cnnlTensorDescriptor_t input_quant_desc,
                               const void* input_quant,
                               const cnnlTensorDescriptor_t output_desc,
                               void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetLrnWorkspaceSize(
      handle, input_quant_desc, output_desc, local_size, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

  const cnnlLrnMode_t mode = CNNL_LRN_CROSS_CHANNEL;
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlLrn(handle,
                                     mode,
                                     local_size,
                                     alpha,
                                     beta,
                                     k,
                                     workspace_ptr,
                                     workspace_size,
                                     input_quant_desc,
                                     const_cast<void*>(input_quant),
                                     output_desc,
                                     output));
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}

/* static */ void MLUCnnl::QuantifyOnline(
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    const ExecutionContext& ctx,
    const int bitwidth,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const bool compute_scale,
    void* position,
    void* scale,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetQuantizeParamWorkspaceSize(handle, input_desc, &workspace_size));

  // use ctx allocate interface for profiling purpose
  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

  const cnnlQuantizeMode_t mode =
      compute_scale ? CNNL_QUANTIZE_POSITION_SCALE : CNNL_QUANTIZE_POSITION;
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlQuantizeParam(handle,
                                               mode,
                                               input_desc,
                                               input,
                                               bitwidth,
                                               workspace_ptr,
                                               workspace_size,
                                               position,
                                               scale,
                                               nullptr));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlQuantizeV2(handle,
                                            mode,
                                            input_desc,
                                            input,
                                            position,
                                            scale,
                                            nullptr,
                                            output_desc,
                                            output));
}

/* static */ void MLUCnnl::Range(const ExecutionContext& ctx,
                                 const void* start,
                                 const void* end,
                                 const void* step,
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                                 const cnnlDataType_t output_dtype,
                                 void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlArange(handle, start, end, step, output_dtype, output));
}

/* static */ void MLUCnnl::Round(const ExecutionContext& ctx,
                                 const cnnlTensorDescriptor_t input_desc,
                                 const void* input,
                                 const cnnlTensorDescriptor_t output_desc,
                                 void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlRound(handle, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::SparseSoftmaxXentWithLogits(
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    const ExecutionContext& ctx,
    cnnlSoftmaxMode_t mode,
    const cnnlTensorDescriptor_t x_desc,
    const void* input,
    const cnnlTensorDescriptor_t label_desc,
    const void* label,
    const cnnlTensorDescriptor_t y_desc,
    void* output,
    const cnnlTensorDescriptor_t diff_y_desc,
    void* back_out) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  const cnnlComputationPreference_t prefer = CNNL_COMPUTATION_HIGH_PRECISION;
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  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSparseSoftmaxCrossEntropyWithLogits_v2(handle,
                                                 prefer,
                                                 mode,
                                                 x_desc,
                                                 input,
                                                 label_desc,
                                                 label,
                                                 y_desc,
                                                 output,
                                                 diff_y_desc,
                                                 back_out));
}

/* static */ void MLUCnnl::Cumsum(const ExecutionContext& ctx,
                                  const int axis,
                                  const bool exclusive,
                                  const bool reverse,
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                                  const cnnlTensorDescriptor_t input_desc,
                                  const void* input,
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                                  const cnnlTensorDescriptor_t output_desc,
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                                  void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  // NAN propagation mode: Only support CNNL_NOT_PROPAGATE_NAN now.
  cnnlNanPropagation_t mode = CNNL_NOT_PROPAGATE_NAN;
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCumsum(handle,
                                        input_desc,
                                        input,
                                        axis,
                                        exclusive,
                                        reverse,
                                        mode,
                                        output_desc,
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                                        output));
}

/* static */ void MLUCnnl::BroadcastTo(const ExecutionContext& ctx,
                                       const cnnlTensorDescriptor_t input_desc,
                                       const void* input,
                                       const cnnlTensorDescriptor_t output_desc,
                                       void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlExpand(handle, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::AssignAdd(const ExecutionContext& ctx,
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                                     const void* alpha,
                                     const void* beta,
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                                     const cnnlTensorDescriptor_t update_desc,
                                     const void* update,
                                     const cnnlTensorDescriptor_t param_desc,
                                     void* param) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlAssignAdd(
      handle, alpha, update_desc, update, nullptr, 0, beta, param_desc, param));
}

/* static */ void MLUCnnl::AssignSub(const ExecutionContext& ctx,
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                                     const void* alpha,
                                     const void* beta,
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                                     const cnnlTensorDescriptor_t update_desc,
                                     const void* update,
                                     const cnnlTensorDescriptor_t param_desc,
                                     void* param) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlAssignSub(
      handle, alpha, update_desc, update, nullptr, 0, beta, param_desc, param));
}

/* static */ void MLUCnnl::Assign(const ExecutionContext& ctx,
                                  const cnnlTensorDescriptor_t update_desc,
                                  const void* update,
                                  const cnnlTensorDescriptor_t param_desc,
                                  void* param) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlCopy(handle, update_desc, update, param_desc, param));
}

/* static */ void MLUCnnl::SGD(const ExecutionContext& ctx,
                               const cnnlTensorDescriptor_t grad_desc,
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                               const void* grad,
                               const void* lr,
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                               const cnnlTensorDescriptor_t var_desc,
                               void* var) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGradientDescent(handle, grad_desc, grad, lr, var_desc, var));
}

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/* static */ void MLUCnnl::ApplyAdaGrad(const ExecutionContext& ctx,
                                        const cnnlTensorDescriptor_t grad_desc,
                                        const void* grad,
                                        const cnnlTensorDescriptor_t accum_desc,
                                        void* accum,
                                        const cnnlTensorDescriptor_t var_desc,
                                        void* var,
                                        const void* lr,
                                        const bool update_slots) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlApplyAdaGrad(handle,
                                              grad_desc,
                                              grad,
                                              accum_desc,
                                              accum,
                                              var_desc,
                                              var,
                                              lr,
                                              update_slots));
}

/* static */ void MLUCnnl::ApplyRMSProp(const ExecutionContext& ctx,
                                        const cnnlTensorDescriptor_t grad_desc,
                                        const void* grad,
                                        const void* lr,
                                        const void* rho,
                                        const void* momentum,
                                        const void* epsilon,
                                        const cnnlTensorDescriptor_t var_desc,
                                        void* var,
                                        const cnnlTensorDescriptor_t ms_desc,
                                        void* ms,
                                        const cnnlTensorDescriptor_t mom_desc,
                                        void* mom) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlRMSProp(handle,
                                         lr,
                                         rho,
                                         epsilon,
                                         momentum,
                                         grad_desc,
                                         grad,
                                         var_desc,
                                         var,
                                         ms_desc,
                                         ms,
                                         mom_desc,
                                         mom));
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}

/* static */ void MLUCnnl::ApplyCenterRMSProp(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t grad_desc,
    const void* grad,
    const void* lr,
    const void* rho,
    const void* momentum,
    const void* epsilon,
    const cnnlTensorDescriptor_t var_desc,
    void* var,
    const cnnlTensorDescriptor_t mg_desc,
    void* mg,
    const cnnlTensorDescriptor_t ms_desc,
    void* ms,
    const cnnlTensorDescriptor_t mom_desc,
    void* mom) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlApplyCenterRMSProp(handle,
                                                    var_desc,
                                                    var,
                                                    mg_desc,
                                                    mg,
                                                    ms_desc,
                                                    ms,
                                                    mom_desc,
                                                    mom,
                                                    grad_desc,
                                                    grad,
                                                    lr,
                                                    rho,
                                                    momentum,
                                                    epsilon));
}

/* static */ void MLUCnnl::ApplyAdam(const ExecutionContext& ctx,
                                     const cnnlTensorDescriptor_t var_desc,
                                     void* var,
                                     const cnnlTensorDescriptor_t m_desc,
                                     void* m,
                                     const cnnlTensorDescriptor_t v_desc,
                                     void* v,
                                     const cnnlTensorDescriptor_t grad_desc,
                                     const void* grad,
                                     const void* lr,
                                     const void* beta1,
                                     const void* beta2,
                                     const void* beta1_power,
                                     const void* beta2_power,
                                     const void* epsilon,
                                     const bool use_nesterov) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlApplyAdam(handle,
                                           var_desc,
                                           var,
                                           m_desc,
                                           m,
                                           v_desc,
                                           v,
                                           grad_desc,
                                           grad,
                                           lr,
                                           beta1,
                                           beta2,
                                           beta1_power,
                                           beta2_power,
                                           epsilon,
                                           use_nesterov));
}

/* static */ void MLUCnnl::ApplyAdaMax(const ExecutionContext& ctx,
                                       const cnnlTensorDescriptor_t grad_desc,
                                       const cnnlTensorDescriptor_t var_desc,
                                       void* var,
                                       const cnnlTensorDescriptor_t m_desc,
                                       void* m,
                                       const cnnlTensorDescriptor_t v_desc,
                                       void* v,
                                       const void* diff,
                                       const void* lr,
                                       const void* beta1,
                                       const void* beta2,
                                       const void* beta1_power,
                                       const void* epsilon) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlApplyAdaMax(handle,
                                             var_desc,
                                             var,
                                             m_desc,
                                             m,
                                             v_desc,
                                             v,
                                             grad_desc,
                                             diff,
                                             lr,
                                             beta1,
                                             beta2,
                                             beta1_power,
                                             epsilon));
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}

/* static */ void MLUCnnl::ApplyMomentum(const ExecutionContext& ctx,
                                         const cnnlTensorDescriptor_t grad_desc,
                                         const void* grad,
                                         const bool use_nesterov,
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                                         const void* lr,
                                         const void* momentum,
                                         void* var,
                                         void* accum) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlMomentum(handle,
                                          grad_desc,
                                          var,
                                          grad_desc,
                                          accum,
                                          grad_desc,
                                          grad,
                                          lr,
                                          momentum,
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                                          use_nesterov));
}

/* static */ void MLUCnnl::ApplyKerasMomentum(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t grad_desc,
    const void* grad,
    const bool use_nesterov,
    const void* lr,
    const void* momentum,
    void* var,
    void* accum) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlKerasMomentum(handle,
                                               grad_desc,
                                               var,
                                               grad_desc,
                                               accum,
                                               grad_desc,
                                               grad,
                                               lr,
                                               momentum,
                                               use_nesterov));
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}

/* static */ void MLUCnnl::ApplyAdadelta(const ExecutionContext& ctx,
                                         const cnnlTensorDescriptor_t grad_desc,
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                                         const void* diff,
                                         const void* lr,
                                         const void* rho,
                                         const void* epsilon,
                                         void* var,
                                         void* accum,
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                                         void* accum_update) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlApplyAdadelta(handle,
                                               grad_desc,
                                               var,
                                               grad_desc,
                                               accum,
                                               grad_desc,
                                               accum_update,
                                               grad_desc,
                                               diff,
                                               lr,
                                               rho,
                                               epsilon));
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}

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/* static */ void MLUCnnl::Scale(const ExecutionContext& ctx,
                                 const int axis,
                                 const cnnlTensorDescriptor_t input_desc,
                                 const void* input,
                                 const cnnlTensorDescriptor_t alpha_desc,
                                 const void* alpha,
                                 const cnnlTensorDescriptor_t beta_desc,
                                 const void* beta,
                                 const cnnlTensorDescriptor_t output_desc,
                                 void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlScale(handle,
                                       axis,
                                       input_desc,
                                       input,
                                       alpha_desc,
                                       alpha,
                                       beta_desc,
                                       beta,
                                       output_desc,
                                       output));
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}

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/* static */ void MLUCnnl::AddN(const ExecutionContext& ctx,
                                uint32_t input_num,
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                                const cnnlTensorDescriptor_t inputs_desc[],
                                const void* inputs[],
                                const cnnlTensorDescriptor_t output_desc,
                                void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlAddN(handle, inputs_desc, inputs, input_num, output_desc, output));
}

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/* static */ void MLUCnnl::Log(const ExecutionContext& ctx,
                               cnnlComputationPreference_t prefer,
                               cnnlLogBase_t log_base,
                               const cnnlTensorDescriptor_t input_desc,
                               const void* input,
                               const cnnlTensorDescriptor_t output_desc,
                               void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlLog_v2(
      handle, prefer, log_base, input_desc, input, output_desc, output));
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}

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/* static */ void MLUCnnl::Matmul(const ExecutionContext& ctx,
                                  const bool transpose_a,
                                  const bool transpose_b,
                                  const cnnlTensorDescriptor_t in0_desc,
                                  const void* in0,
                                  const cnnlTensorDescriptor_t in1_desc,
                                  const void* in1,
                                  const cnnlTensorDescriptor_t output_desc,
                                  void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  float alpha = 1.0f;
  float beta = 0.0f;

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlMatMul(handle,
                                        transpose_a,
                                        transpose_b,
                                        reinterpret_cast<void*>(&alpha),
                                        in0_desc,
                                        in0,
                                        in1_desc,
                                        in1,
                                        reinterpret_cast<void*>(&beta),
                                        output_desc,
                                        output));
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}

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/* static */ void MLUCnnl::BatchMatmul(const ExecutionContext& ctx,
                                       const bool transpose_a,
                                       const bool transpose_b,
                                       const cnnlTensorDescriptor_t in0_desc,
                                       const void* in0,
                                       const cnnlTensorDescriptor_t in1_desc,
                                       const void* in1,
                                       const cnnlTensorDescriptor_t output_desc,
                                       void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetBatchMatMulBCastWorkspaceSize(
      handle, in0_desc, in1_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatchMatMulBCast(handle,
                                                  transpose_a,
                                                  transpose_b,
                                                  in0_desc,
                                                  in0,
                                                  in1_desc,
                                                  in1,
                                                  workspace_ptr,
                                                  workspace_size,
                                                  output_desc,
                                                  output));
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}

/* static */ void MLUCnnl::OpTensor(
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    const ExecutionContext& ctx,
    const cnnlOpTensorDescriptor_t op_tensor_desc,
    const cnnlTensorDescriptor_t a_desc,
    const void* a,
    const cnnlTensorDescriptor_t b_desc,
    const void* b,
    const cnnlTensorDescriptor_t output_desc,
    void* output,
    const cnnlDataType_t dtype,
    const float alpha1_float,
    const float alpha2_float,
    const float beta_float) {
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  const int alpha1_int = static_cast<const int>(alpha1_float);
  const int alpha2_int = static_cast<const int>(alpha2_float);
  const int beta_int = static_cast<const int>(beta_float);
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  const void* alpha1_ptr = static_cast<const void*>(&alpha1_float);
  const void* alpha2_ptr = static_cast<const void*>(&alpha2_float);
  const void* beta_ptr = static_cast<const void*>(&beta_float);

  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  size_t workspace_size;

  bool is_dt_float = (dtype == CNNL_DTYPE_FLOAT || dtype == CNNL_DTYPE_HALF);

  //  if datatype is not float, we set alpha and beta to be int
  if (!is_dt_float) {
    alpha1_ptr = static_cast<const void*>(&alpha1_int);
    alpha2_ptr = static_cast<const void*>(&alpha2_int);
    beta_ptr = static_cast<const void*>(&beta_int);
  }

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetOpTensorWorkspaceSize(
      handle, a_desc, b_desc, output_desc, &workspace_size));
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  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlOpTensor(handle,
                                          op_tensor_desc,
                                          alpha1_ptr,
                                          a_desc,
                                          a,
                                          alpha2_ptr,
                                          b_desc,
                                          b,
                                          workspace_ptr,
                                          workspace_size,
                                          beta_ptr,
                                          output_desc,
                                          output));
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}

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/* static */ void MLUCnnl::MulAx(const ExecutionContext& ctx,
                                 const cnnlTensorDescriptor_t alpha_desc,
                                 const void* alpha,
                                 const cnnlTensorDescriptor_t output_desc,
                                 void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetAxWorkspaceSize(handle, alpha_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlAx_v2(handle,
                                       alpha_desc,
                                       alpha,
                                       output_desc,
                                       output,
                                       workspace_ptr,
                                       workspace_size));
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}

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/* static */ void MLUCnnl::BiasAddGrad(
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    const ExecutionContext& ctx,
    const int axis,
    const cnnlTensorDescriptor_t out_backprop_desc,
    const void* out_backprop,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBiasAddBackward(
      handle, out_backprop_desc, out_backprop, axis, output_desc, output));
}

/* static */ void MLUCnnl::RandomUniform(
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    const ExecutionContext& ctx,
    const int num,
    const cnnlDataType_t data_type,
    const cnnlRandGenerator_t mlu_generator,
    void* mlu_state,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlRandGenerateUniform(
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      handle, mlu_generator, data_type, mlu_state, num, 0, 1, output));
}

/* static */ void MLUCnnl::FusedDropout(
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    const ExecutionContext& ctx,
    const cnnlRandGenerator_t generator,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const float p,
    void* state,
    const cnnlTensorDescriptor_t mask_desc,
    const void* mask,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlFusedDropout_v2(handle,
                                                 generator,
                                                 input_desc,
                                                 input,
                                                 p,
                                                 state,
                                                 mask_desc,
                                                 mask,
                                                 output_desc,
                                                 output));
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}

/* static */ void MLUCnnl::TopK(
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    const ExecutionContext& ctx,
    const int k,
    const int dim,
    const bool largest,
    const bool sorted,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t values_output_desc,
    void* values_out,
    const cnnlTensorDescriptor_t indices_output_desc,
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    void* indices_out) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlTopKTensor(handle,
                                            input_desc,
                                            input,
                                            k,
                                            dim,
                                            largest,
                                            sorted,
                                            values_output_desc,
                                            values_out,
                                            indices_output_desc,
                                            indices_out));
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}

/* static */ void MLUCnnl::StridedSlice(
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    const ExecutionContext& ctx,
    const int begin[],
    const int end[],
    const int strides[],
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlStridedSlice(
      handle, input_desc, input, begin, end, strides, output_desc, output));
}

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/* static */ void MLUCnnl::Split(const ExecutionContext& ctx,
                                 int split_num,
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                                 int axis,
                                 const cnnlTensorDescriptor_t input_desc,
                                 const void* input_ptr,
                                 const cnnlTensorDescriptor_t output_descs[],
                                 void* output_ptrs[]) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetSplitWorkspaceSize(handle, split_num, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSplit(handle,
                                       split_num,
                                       axis,
                                       input_desc,
                                       input_ptr,
                                       workspace_ptr,
                                       workspace_size,
                                       output_descs,
                                       output_ptrs));
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}

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/* static */ void MLUCnnl::Split(const MLUDeviceContext& dev_ctx,
                                 int split_num,
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                                 int axis,
                                 const cnnlTensorDescriptor_t input_desc,
                                 const void* input_ptr,
                                 const cnnlTensorDescriptor_t output_descs[],
                                 void* output_ptrs[]) {
  cnnlHandle_t handle = dev_ctx.cnnl_handle();

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetSplitWorkspaceSize(handle, split_num, &workspace_size));

  Tensor workspace(paddle::experimental::DataType::INT8);
  workspace.Resize(framework::DDim({static_cast<int64_t>(workspace_size)}));
  void* workspace_ptr = workspace.mutable_data(dev_ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSplit(handle,
                                       split_num,
                                       axis,
                                       input_desc,
                                       input_ptr,
                                       workspace_ptr,
                                       workspace_size,
                                       output_descs,
                                       output_ptrs));
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}

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/* static */ void MLUCnnl::GatherFunctor(
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    const ExecutionContext& ctx,
    const int axis,
    const int batch_dims,
    const cnnlTensorDescriptor_t params_desc,
    const void* params,
    const cnnlTensorDescriptor_t indices_desc,
    const void* indices,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatchGatherV2(handle,
                                               axis,
                                               batch_dims,
                                               params_desc,
                                               params,
                                               indices_desc,
                                               indices,
                                               output_desc,
                                               output));
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}

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/* static */ void MLUCnnl::ScatterRefFunctor(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t params_desc,
    const void* params,
    const cnnlTensorDescriptor_t updates_desc,
    const void* updates,
    const cnnlTensorDescriptor_t indices_desc,
    const void* indices,
    const cnnlScatterRefMode_t mode) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlScatterRef(handle,
                                            params_desc,
                                            params,
                                            indices_desc,
                                            indices,
                                            updates_desc,
                                            updates,
                                            0,
                                            mode));
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}

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/* static */ void MLUCnnl::ScatterFunctor(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t params_desc,
    void* params,
    const cnnlTensorDescriptor_t updates_desc,
    const void* updates,
    const cnnlTensorDescriptor_t indices_desc,
    const void* indices,
    const int dim,
    const cnnlScatterMode_t mode) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlScatter(handle,
                  dim,
                  params_desc,
                  params,
                  indices_desc,
                  indices,
                  updates_desc,
                  updates,
                  params_desc,
                  params, /* output_desc, output, same with params*/
                  mode));
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}

1623
/* static */ void MLUCnnl::StridedSliceGrad(
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    const ExecutionContext& ctx,
    const int begin[],
    const int end[],
    const int strides[],
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlStridedSliceBackward(
      handle, begin, end, strides, input_desc, input, output_desc, output));
}

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/* static */ void MLUCnnl::Logic(const ExecutionContext& ctx,
                                 const cnnlLogicOp_t log_method,
                                 const cnnlTensorDescriptor_t input1_desc,
                                 const void* input1,
                                 const cnnlTensorDescriptor_t input2_desc,
                                 const void* input2,
                                 const cnnlTensorDescriptor_t output_desc,
                                 void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size = 0;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetLogicOpWorkspaceSize(
      handle, input1_desc, input2_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlLogicOp(handle,
                                         log_method,
                                         input1_desc,
                                         input1,
                                         input2_desc,
                                         input2,
                                         workspace_ptr,
                                         workspace_size,
                                         output_desc,
                                         output));
}

/* static */ void MLUCnnl::Select(const ExecutionContext& ctx,
                                  const cnnlTensorDescriptor_t condition_desc,
                                  const void* condition_ptr,
                                  const cnnlTensorDescriptor_t then_desc,
                                  const void* then_ptr,
                                  const cnnlTensorDescriptor_t else_desc,
                                  const void* else_ptr,
                                  const cnnlTensorDescriptor_t output_desc,
                                  void* output_ptr) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  size_t workspace_size = 0;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetSelectV2WorkspaceSize(
      handle, condition_desc, then_desc, else_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSelectV2(handle,
                                          condition_desc,
                                          condition_ptr,
                                          then_desc,
                                          then_ptr,
                                          else_desc,
                                          else_ptr,
                                          workspace_ptr,
                                          workspace_size,
                                          output_desc,
                                          output_ptr));
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}

/*static */ void MLUCnnl::GatherNd(const ExecutionContext& ctx,
                                   const cnnlTensorDescriptor_t params_desc,
                                   const void* params,
                                   const cnnlTensorDescriptor_t indices_desc,
                                   const void* indices,
                                   const cnnlTensorDescriptor_t output_desc,
                                   void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGatherNd(
      handle, params_desc, params, indices_desc, indices, output_desc, output));
}

/* static */ void MLUCnnl::BatchToSpace(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t output_desc,
    void* output,
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    const cnnlSpaceBatchParam_t param) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetBatch2spaceWorkspaceSize(
      handle, input_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatch2space(handle,
                                             input_desc,
                                             input,
                                             output_desc,
                                             output,
                                             param,
                                             workspace_ptr,
                                             workspace_size));
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}

/* static */ void MLUCnnl::BatchToSpaceNd(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    cnnlSpaceBatchNdDescriptor_t param,
    void* extra_device_input,
    size_t extra_input_size,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatch2spaceNd_v2(handle,
                                                  input_desc,
                                                  input,
                                                  output_desc,
                                                  output,
                                                  param,
                                                  extra_device_input,
                                                  extra_input_size));
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}

/* static */ void MLUCnnl::SoftmaxForward(
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    const ExecutionContext& ctx,
    cnnlSoftmaxAlgorithm_t algorithm,
    cnnlSoftmaxMode_t mode,
    const void* alpha,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const void* beta,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSoftmaxForward(handle,
                                                algorithm,
                                                mode,
                                                alpha,
                                                input_desc,
                                                input,
                                                beta,
                                                output_desc,
                                                output));
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}

1787
/* static */ void MLUCnnl::SoftmaxBackward(
1788 1789 1790 1791 1792 1793 1794 1795 1796 1797 1798 1799 1800 1801 1802 1803 1804 1805 1806 1807 1808 1809
    const ExecutionContext& ctx,
    cnnlSoftmaxAlgorithm_t algorithm,
    cnnlSoftmaxMode_t mode,
    const cnnlTensorDescriptor_t y_desc,
    const void* y,
    const cnnlTensorDescriptor_t diff_y_desc,
    const void* diff_y,
    const cnnlTensorDescriptor_t diff_x_desc,
    void* diff_x) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSoftmaxBackward(handle,
                                                 algorithm,
                                                 mode,
                                                 nullptr,
                                                 y_desc,
                                                 y,
                                                 diff_y_desc,
                                                 diff_y,
                                                 nullptr,
                                                 diff_x_desc,
                                                 diff_x));
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}

1812 1813 1814 1815 1816 1817 1818 1819 1820 1821 1822 1823 1824 1825
/* static */ void MLUCnnl::Softplus(const ExecutionContext& ctx,
                                    const cnnlTensorDescriptor_t features_desc,
                                    const void* features,
                                    const cnnlTensorDescriptor_t output_desc,
                                    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  const int beta = 1;
  const int threshold = 20;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSoftplusForward(
      handle, features_desc, features, output_desc, output, beta, threshold));
}

/* static */ void MLUCnnl::SoftplusGrad(
1826 1827 1828 1829 1830 1831
    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t gradients_desc,
    const void* gradients,
    const cnnlTensorDescriptor_t features_desc,
    const void* features,
    const cnnlTensorDescriptor_t output_desc,
1832 1833 1834 1835 1836
    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  int beta = 1;
  int threshold = 20;
1837 1838 1839 1840 1841 1842 1843 1844 1845
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSoftplusBackward(handle,
                                                  features_desc,
                                                  features,
                                                  gradients_desc,
                                                  gradients,
                                                  output_desc,
                                                  output,
                                                  beta,
                                                  threshold));
1846 1847 1848
}

/* static */ void MLUCnnl::PoolingForward(
1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860
    const ExecutionContext& ctx,
    cnnlPoolingMode_t pool_mode,
    int64_t output_h,
    int64_t output_w,
    const cnnlPoolingDescriptor_t pooling_desc,
    const void* alpha,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const void* beta,
    const void* extra_input_ptr,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size = 0;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetPoolingWorkspaceSize(
1865
      handle, pool_mode, output_w, output_h, &workspace_size));
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  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlPoolingForward_v2(handle,
                                                   pooling_desc,
                                                   alpha,
                                                   input_desc,
                                                   input,
                                                   beta,
                                                   extra_input_ptr,
                                                   output_desc,
                                                   output,
                                                   workspace_ptr,
                                                   workspace_size));
1883 1884
}

1885
/* static */ void MLUCnnl::AdaptivePoolingForward(
1886 1887 1888 1889 1890 1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902 1903 1904 1905 1906 1907 1908 1909 1910 1911 1912 1913 1914 1915
    const ExecutionContext& ctx,
    cnnlPoolingMode_t pool_mode,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t output_desc,
    void* output,
    const cnnlTensorDescriptor_t index_desc,
    void* index) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlAdaptivePoolingForward(handle,
                                                        input_desc,
                                                        input,
                                                        pool_mode,
                                                        output_desc,
                                                        output,
                                                        index_desc,
                                                        index));
}

/* static */ void MLUCnnl::Pool3D(const ExecutionContext& ctx,
                                  cnnlPoolingMode_t pool_mode,
                                  const std::vector<int64_t>& output_shape,
                                  const cnnlPoolingDescriptor_t pooling_desc,
                                  const void* alpha,
                                  const cnnlTensorDescriptor_t input_desc,
                                  const void* input,
                                  const void* beta,
                                  const cnnlTensorDescriptor_t output_desc,
                                  void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size = 0;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetPoolingWorkspaceSize(
      handle, pool_mode, output_shape[2], output_shape[1], &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlPoolingForward(handle,
                                                pooling_desc,
                                                alpha,
                                                input_desc,
                                                input,
                                                beta,
                                                output_desc,
                                                output,
                                                workspace_ptr,
                                                workspace_size));
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}

/* static */ void MLUCnnl::RsqrtGrad(const ExecutionContext& ctx,
                                     const cnnlTensorDescriptor_t data_desc,
1941 1942
                                     const void* y,
                                     const void* diff_y,
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                                     void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlRsqrtBackward(handle, data_desc, y, diff_y, output));
}

/* static */ void MLUCnnl::SqrtGrad(const ExecutionContext& ctx,
                                    const cnnlTensorDescriptor_t data_desc,
1952 1953
                                    const void* y,
                                    const void* diff_y,
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                                    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSqrtBackward(handle, data_desc, y, diff_y, output));
}

/* static */ void MLUCnnl::UnsortedSegmentSum(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t data_desc,
    const void* data,
    const cnnlTensorDescriptor_t ids_desc,
    const int* segment_ids,
    const cnnlTensorDescriptor_t output_desc,
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    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size = 0;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetUnsortedSegmentSumWorkspaceSize(
      handle, data_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlUnsortedSegmentSum(handle,
                                                    data_desc,
                                                    data,
                                                    ids_desc,
                                                    segment_ids,
                                                    workspace_ptr,
                                                    workspace_size,
                                                    output_desc,
                                                    output));
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}

/* static */ void MLUCnnl::Pad(const ExecutionContext& ctx,
                               const cnnlTensorDescriptor_t input_desc,
1993 1994
                               const void* input,
                               const void* paddings,
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                               const void* padding_value,
                               const cnnlTensorDescriptor_t output_desc,
                               void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlPad(
      handle, input_desc, input, paddings, padding_value, output_desc, output));
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}

/* static */ void MLUCnnl::OneHot(const ExecutionContext& ctx,
                                  const cnnlTensorDescriptor_t desc_indices,
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                                  const void* indices,
                                  const int depth,
                                  const void* on_value,
                                  const void* off_value,
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                                  const int axis,
                                  cnnlDataType_t output_data_type,
                                  void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlOneHot(handle,
                                        desc_indices,
                                        indices,
                                        depth,
                                        on_value,
                                        off_value,
                                        axis,
                                        output_data_type,
                                        output));
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}

/* static */ void MLUCnnl::ConvolutionForward(
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    const ExecutionContext& ctx,
    cnnlConvolutionDescriptor_t conv_desc,
    const void* alpha,
    const void* beta,
    const cnnlTensorDescriptor_t bias_desc,
    const void* bias_ptr,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t filtet_desc,
    const void* filter,
    const cnnlTensorDescriptor_t output_desc,
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    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  // cnnl: select best algorithm for convolution compution.
  cnnlConvolutionForwardAlgo_t algo;
  cnnlConvolutionFwdPreference_t preference = CNNL_CONVOLUTION_FWD_FASTEST;
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  cnnlGetConvolutionForwardAlgorithm(handle,
                                     conv_desc,
                                     input_desc,
                                     filtet_desc,
                                     output_desc,
                                     preference,
                                     &algo);
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  // get workspace size
  size_t workspace_size = 0;
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  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConvolutionForwardWorkspaceSize(handle,
                                             input_desc,
                                             filtet_desc,
                                             output_desc,
                                             bias_desc,
                                             conv_desc,
                                             algo,
                                             &workspace_size));
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  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlConvolutionForward(handle,
                                                    conv_desc,
                                                    algo,
                                                    alpha,
                                                    input_desc,
                                                    input,
                                                    filtet_desc,
                                                    filter,
                                                    bias_desc,
                                                    bias_ptr,
                                                    workspace_ptr,
                                                    workspace_size,
                                                    beta,
                                                    output_desc,
                                                    output));
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}

/* static */ void MLUCnnl::Tile(const ExecutionContext& ctx,
                                const cnnlTensorDescriptor_t input_desc,
                                const void* input,
                                const cnnlTensorDescriptor_t output_desc,
                                void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlTile(handle, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::SoftmaxCrossEntropyWithLogits(
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    const ExecutionContext& ctx,
    cnnlSoftmaxMode_t mode,
    cnnlComputationPreference_t prefer,
    const cnnlTensorDescriptor_t input_desc,
    const void* logits_in,
    const cnnlTensorDescriptor_t label_desc,
    const void* labels_in,
    const cnnlTensorDescriptor_t loss_out_desc,
    void* loss_out,
    const cnnlTensorDescriptor_t back_out_desc,
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    void* back_out) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSoftmaxCrossEntropyWithLogits_v2(handle,
                                                                  mode,
                                                                  prefer,
                                                                  input_desc,
                                                                  logits_in,
                                                                  label_desc,
                                                                  labels_in,
                                                                  loss_out_desc,
                                                                  loss_out,
                                                                  back_out_desc,
                                                                  back_out));
2122 2123
}

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/* static */ void MLUCnnl::Reduce(const ExecutionContext& ctx,
                                  const bool need_workspace,
                                  const cnnlReduceDescriptor_t reduction_desc,
                                  const void* alpha,
                                  const cnnlTensorDescriptor_t input_desc,
                                  const void* input,
                                  const size_t indices_size,
                                  void* indices,
                                  const void* beta,
                                  const cnnlTensorDescriptor_t output_desc,
                                  void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size = 0;
  void* workspace_ptr = nullptr;
  Tensor workspace;
  if (need_workspace) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetReduceOpWorkspaceSize(
        handle, input_desc, output_desc, reduction_desc, &workspace_size));

    auto& dev_ctx = GetDevCtxFromCTX(ctx);
    workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
        {static_cast<int64_t>(workspace_size)}, dev_ctx);

    workspace_ptr = workspace.mutable_data(ctx.GetPlace());
  }

2151 2152 2153 2154 2155 2156 2157 2158 2159 2160 2161 2162
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlReduce(handle,
                                        reduction_desc,
                                        workspace_ptr,
                                        workspace_size,
                                        alpha,
                                        input_desc,
                                        input,
                                        indices_size,
                                        indices,
                                        beta,
                                        output_desc,
                                        output));
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}

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/* static */ void MLUCnnl::FloorDiv(const ExecutionContext& ctx,
                                    cnnlComputationPreference_t prefer,
                                    const cnnlTensorDescriptor_t input1_desc,
                                    const void* input1,
                                    const cnnlTensorDescriptor_t input2_desc,
                                    const void* input2,
                                    const cnnlTensorDescriptor_t output_desc,
                                    void* output) {
2173 2174 2175 2176 2177 2178 2179 2180 2181 2182
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetFloorDivWorkspaceSize(
      handle, input1_desc, input2_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

2183 2184 2185 2186 2187 2188 2189 2190 2191 2192
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlFloorDiv_v2(handle,
                                             prefer,
                                             input1_desc,
                                             input1,
                                             input2_desc,
                                             input2,
                                             output_desc,
                                             output,
                                             workspace_ptr,
                                             workspace_size));
2193 2194 2195 2196 2197 2198 2199 2200 2201 2202 2203 2204 2205 2206 2207 2208 2209 2210 2211
}

/* static */ void MLUCnnl::FloorMod(const ExecutionContext& ctx,
                                    const cnnlTensorDescriptor_t input1_desc,
                                    const void* input1,
                                    const cnnlTensorDescriptor_t input2_desc,
                                    const void* input2,
                                    const cnnlTensorDescriptor_t output_desc,
                                    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetFloorModWorkspaceSize(
      handle, input1_desc, input2_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

2212 2213 2214 2215 2216 2217 2218 2219 2220
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlFloorMod(handle,
                                          input1_desc,
                                          input1,
                                          input2_desc,
                                          input2,
                                          output_desc,
                                          output,
                                          workspace_ptr,
                                          workspace_size));
2221 2222 2223 2224 2225 2226 2227 2228 2229 2230 2231 2232 2233 2234 2235 2236 2237 2238 2239
}

/* static */ void MLUCnnl::Maximum(const ExecutionContext& ctx,
                                   const cnnlTensorDescriptor_t input1_desc,
                                   const void* input1,
                                   const cnnlTensorDescriptor_t input2_desc,
                                   const void* input2,
                                   const cnnlTensorDescriptor_t output_desc,
                                   void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetMaximumWorkspaceSize(handle, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

2240 2241 2242 2243 2244 2245 2246 2247 2248
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlMaximum(handle,
                                         input1_desc,
                                         input1,
                                         input2_desc,
                                         input2,
                                         output_desc,
                                         output,
                                         workspace_ptr,
                                         workspace_size));
2249 2250 2251 2252 2253 2254 2255 2256 2257 2258 2259 2260 2261 2262 2263 2264 2265 2266 2267
}

/* static */ void MLUCnnl::Minimum(const ExecutionContext& ctx,
                                   const cnnlTensorDescriptor_t input1_desc,
                                   const void* input1,
                                   const cnnlTensorDescriptor_t input2_desc,
                                   const void* input2,
                                   const cnnlTensorDescriptor_t output_desc,
                                   void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetMinimumWorkspaceSize(handle, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

2268 2269 2270 2271 2272 2273 2274 2275 2276
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlMinimum(handle,
                                         input1_desc,
                                         input1,
                                         input2_desc,
                                         input2,
                                         output_desc,
                                         output,
                                         workspace_ptr,
                                         workspace_size));
2277 2278
}

2279 2280 2281 2282 2283 2284 2285 2286
/* static */ void MLUCnnl::PowR(const ExecutionContext& ctx,
                                cnnlComputationPreference_t prefer,
                                const cnnlTensorDescriptor_t input1_desc,
                                const void* input1,
                                const cnnlTensorDescriptor_t input2_desc,
                                const void* input2,
                                const cnnlTensorDescriptor_t output_desc,
                                void* output) {
2287 2288 2289 2290 2291 2292 2293 2294 2295 2296
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetPowRWorkspaceSize(
      handle, input1_desc, input2_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

2297 2298 2299 2300 2301 2302 2303 2304 2305 2306
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlPowR_v2(handle,
                                         prefer,
                                         input1_desc,
                                         input1,
                                         input2_desc,
                                         input2,
                                         workspace_ptr,
                                         workspace_size,
                                         output_desc,
                                         output));
2307 2308
}

2309 2310 2311 2312 2313 2314 2315 2316
/* static */ void MLUCnnl::DivNoNan(const ExecutionContext& ctx,
                                    cnnlComputationPreference_t prefer,
                                    const cnnlTensorDescriptor_t input1_desc,
                                    const void* input1,
                                    const cnnlTensorDescriptor_t input2_desc,
                                    const void* input2,
                                    const cnnlTensorDescriptor_t output_desc,
                                    void* output) {
2317 2318 2319 2320 2321 2322 2323 2324 2325 2326
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetDivNoNanWorkspaceSize(
      handle, input1_desc, input2_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

2327 2328 2329 2330 2331 2332 2333 2334 2335 2336
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlDivNoNan_v2(handle,
                                             prefer,
                                             input1_desc,
                                             input1,
                                             input2_desc,
                                             input2,
                                             workspace_ptr,
                                             workspace_size,
                                             output_desc,
                                             output));
2337 2338 2339
}

/* static */ void MLUCnnl::SquaredDifference(
2340 2341 2342 2343 2344 2345
    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t input1_desc,
    const void* input1,
    const cnnlTensorDescriptor_t input2_desc,
    const void* input2,
    const cnnlTensorDescriptor_t output_desc,
2346 2347 2348 2349 2350 2351 2352 2353 2354 2355 2356
    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetSquaredDifferenceWorkspaceSize(
      handle, input1_desc, input2_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

2357 2358 2359 2360 2361 2362 2363 2364 2365
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSquaredDifference(handle,
                                                   input1_desc,
                                                   input1,
                                                   input2_desc,
                                                   input2,
                                                   output_desc,
                                                   output,
                                                   workspace_ptr,
                                                   workspace_size));
2366 2367 2368 2369
}

/* static */ void MLUCnnl::L2Loss(const ExecutionContext& ctx,
                                  const cnnlTensorDescriptor_t input_desc,
2370 2371
                                  const void* input,
                                  void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlL2Loss(handle, input_desc, input, output));
}

/* static */ void MLUCnnl::Abs(const ExecutionContext& ctx,
                               const cnnlTensorDescriptor_t input_desc,
                               const void* input,
                               const cnnlTensorDescriptor_t output_desc,
                               void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlAbs(handle, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::Neg(const ExecutionContext& ctx,
                               const cnnlTensorDescriptor_t input_desc,
                               const void* input,
                               const cnnlTensorDescriptor_t output_desc,
                               void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlNegTensor(handle, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::Floor(const ExecutionContext& ctx,
                                 const cnnlTensorDescriptor_t input_desc,
                                 const void* input,
                                 const cnnlTensorDescriptor_t output_desc,
                                 void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlFloor(handle, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::Ceil(const ExecutionContext& ctx,
                                const cnnlTensorDescriptor_t input_desc,
                                const void* input,
                                const cnnlTensorDescriptor_t output_desc,
                                void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlCeil(handle, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::IsNan(const ExecutionContext& ctx,
                                 const cnnlTensorDescriptor_t input_desc,
                                 const void* input,
                                 const cnnlTensorDescriptor_t output_desc,
                                 void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlIsNan(handle, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::Square(const ExecutionContext& ctx,
                                  const cnnlTensorDescriptor_t input_desc,
                                  const void* input,
                                  const cnnlTensorDescriptor_t output_desc,
                                  void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSquare(handle, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::Sqrt(const ExecutionContext& ctx,
                                cnnlComputationPreference_t prefer,
                                const cnnlTensorDescriptor_t input_desc,
                                const void* input,
                                const cnnlTensorDescriptor_t output_desc,
                                void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSqrt_v2(handle, prefer, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::Rsqrt(const ExecutionContext& ctx,
                                 cnnlComputationPreference_t prefer,
                                 const cnnlTensorDescriptor_t input_desc,
                                 const void* input,
                                 const cnnlTensorDescriptor_t output_desc,
                                 void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlRsqrt_v2(handle, prefer, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::Cos(const ExecutionContext& ctx,
                               cnnlComputationPreference_t prefer,
                               const cnnlTensorDescriptor_t input_desc,
                               const void* input,
                               const cnnlTensorDescriptor_t output_desc,
                               void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlCos_v2(handle, prefer, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::Sin(const ExecutionContext& ctx,
                               cnnlComputationPreference_t prefer,
                               const cnnlTensorDescriptor_t input_desc,
                               const void* input,
                               const cnnlTensorDescriptor_t output_desc,
                               void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSin_v2(handle, prefer, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::TrigonForward(
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    const ExecutionContext& ctx,
    const cnnlTrigonDescriptor_t trigon_desc,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlTrigonForward(
      handle, trigon_desc, input_desc, input, output_desc, output));
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}

/* static */ void MLUCnnl::Exp(const ExecutionContext& ctx,
                               cnnlComputationPreference_t prefer,
                               const cnnlTensorDescriptor_t input_desc,
                               const void* input,
                               const cnnlTensorDescriptor_t output_desc,
                               void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlExp_v2(handle, prefer, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::Sign(const ExecutionContext& ctx,
                                const cnnlTensorDescriptor_t input_desc,
                                const void* input,
                                const cnnlTensorDescriptor_t output_desc,
                                void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSign(handle, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::IsFinite(const ExecutionContext& ctx,
                                    const cnnlTensorDescriptor_t input_desc,
                                    const void* input,
                                    const cnnlTensorDescriptor_t output_desc,
                                    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlIsFinite(handle, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::IsNanInf(const ExecutionContext& ctx,
                                    const cnnlTensorDescriptor_t input_desc,
2539 2540
                                    const void* input,
                                    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  // TODO(CTR-3849): output type should be void*, but now bool*.
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlNanInf(handle, input_desc, input, reinterpret_cast<bool*>(output)));
}

/* static */ void MLUCnnl::Erf(const ExecutionContext& ctx,
                               cnnlComputationPreference_t prefer,
                               const cnnlTensorDescriptor_t input_desc,
                               const void* input,
                               const cnnlTensorDescriptor_t output_desc,
                               void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlErf_v2(handle, prefer, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::Log1p(const ExecutionContext& ctx,
                                 cnnlComputationPreference_t prefer,
                                 const cnnlTensorDescriptor_t input_desc,
                                 const void* input,
                                 const cnnlTensorDescriptor_t output_desc,
                                 void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlLog1p(handle, prefer, input_desc, input, output_desc, output));
}

/* static */ void MLUCnnl::LogicalNot(const ExecutionContext& ctx,
                                      const cnnlTensorDescriptor_t input_desc,
                                      const void* input,
                                      const cnnlTensorDescriptor_t output_desc,
                                      void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlLogicOp(handle,
                                         CNNL_LOGIC_OP_NOT,
                                         input_desc,
                                         input,
                                         input_desc,
                                         input,
                                         nullptr,
                                         0,
                                         output_desc,
                                         output));
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}

/* static */ void MLUCnnl::DynamicStitch(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t* indices_desc,
    const int** indices,
    const cnnlTensorDescriptor_t* data_desc,
    const void** data,
    const int size,
    int* indices_dims,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetDynamicStitchWorkspaceSize(handle, size, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlDynamicStitch(handle,
                                               indices_desc,
                                               indices,
                                               data_desc,
                                               data,
                                               size,
                                               indices_dims,
                                               workspace_ptr,
                                               workspace_size,
                                               output_desc,
                                               output));
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}

/* static */ void MLUCnnl::CropAndResize(
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    const ExecutionContext& ctx,
    const std::string method_name,
    const float extrapolation_value,
    const cnnlTensorDescriptor_t image_desc,
    const void* image,
    const cnnlTensorDescriptor_t boxes_desc,
    const void* boxes,
    const cnnlTensorDescriptor_t box_index_desc,
    const void* box_index,
    const cnnlTensorDescriptor_t output_desc,
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    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  cnnlCropAndResizeMode_t mode = CNNL_CROP_AND_RESIZE_BILINEAR;
  if (method_name == "nearest") {
    mode = CNNL_CROP_AND_RESIZE_NEAREST;
  }

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCropAndResize(handle,
                                               image_desc,
                                               image,
                                               boxes_desc,
                                               boxes,
                                               box_index_desc,
                                               box_index,
                                               mode,
                                               extrapolation_value,
                                               output_desc,
                                               output));
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}

/* static */ void MLUCnnl::CropAndResizeBackwardImage(
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    const ExecutionContext& ctx,
    const std::string method_name,
    const cnnlTensorDescriptor_t grads_desc,
    const void* grads,
    const cnnlTensorDescriptor_t boxes_desc,
    const void* boxes,
    const cnnlTensorDescriptor_t box_idx_desc,
    const void* box_idx,
    const cnnlTensorDescriptor_t grads_image_desc,
    void* grads_image) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  cnnlCropAndResizeMode_t mode = CNNL_CROP_AND_RESIZE_BILINEAR;
  if (method_name == "nearest") {
    mode = CNNL_CROP_AND_RESIZE_NEAREST;
  }

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCropAndResizeBackwardImage(handle,
                                                            grads_desc,
                                                            grads,
                                                            boxes_desc,
                                                            boxes,
                                                            box_idx_desc,
                                                            box_idx,
                                                            mode,
                                                            grads_image_desc,
                                                            grads_image));
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}

/* static */ void MLUCnnl::CropAndResizeBackwardBoxes(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t image_desc,
    const void* image,
    const cnnlTensorDescriptor_t boxes_desc,
    const void* boxes,
    const cnnlTensorDescriptor_t box_idx_desc,
    const void* box_idx,
    const cnnlTensorDescriptor_t output_desc,
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    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  cnnlCropAndResizeMode_t mode = CNNL_CROP_AND_RESIZE_BILINEAR;

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCropAndResizeBackwardBoxes(handle,
                                                            input_desc,
                                                            input,
                                                            image_desc,
                                                            image,
                                                            boxes_desc,
                                                            boxes,
                                                            box_idx_desc,
                                                            box_idx,
                                                            output_desc,
                                                            output,
                                                            mode));
}

/* static */ void MLUCnnl::Interp(const ExecutionContext& ctx,
                                  const cnnlInterpMode_t mode,
                                  const bool align_corners,
                                  const bool half_pixel_centers,
                                  const cnnlTensorDescriptor_t input_desc,
                                  const void* input,
                                  const cnnlTensorDescriptor_t output_desc,
                                  void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlInterp_v2(handle,
                                           align_corners,
                                           half_pixel_centers,
                                           mode,
                                           NULL,
                                           true,
                                           input_desc,
                                           input,
                                           output_desc,
                                           output));
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}

/* static */ void MLUCnnl::InterpBackward(
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    const ExecutionContext& ctx,
    const cnnlInterpBackwardMode_t mode,
    const bool align_corners,
    const bool half_pixel_centers,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlInterpBackward_v2(handle,
                                                   align_corners,
                                                   half_pixel_centers,
                                                   mode,
                                                   NULL,
                                                   true,
                                                   input_desc,
                                                   input,
                                                   output_desc,
                                                   output));
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}

/* static */ void MLUCnnl::Cast(const ExecutionContext& ctx,
                                cnnlCastDataType_t cast_type,
                                const cnnlTensorDescriptor_t input_desc,
                                const void* input,
                                const cnnlTensorDescriptor_t output_desc,
                                void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCastDataType(
      handle, input_desc, input, cast_type, output_desc, output));
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}

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/*static*/ void MLUCnnl::Clip(const ExecutionContext& ctx,
                              const cnnlTensorDescriptor_t x_desc,
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                              const void* x,
                              const void* min,
                              const void* max,
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                              void* y) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlClip(handle, x_desc, x, min, max, y));
}

/*static*/ void MLUCnnl::HardtanhBackward(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t x_desc,
    const void* x,
    const cnnlTensorDescriptor_t diff_y_desc,
    const void* diff_y,
    const float max_val,
    const float min_val,
    const cnnlTensorDescriptor_t diff_x_desc,
    void* diff_x) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlHardtanhBackward(handle,
                                                  x_desc,
                                                  x,
                                                  diff_y_desc,
                                                  diff_y,
                                                  max_val,
                                                  min_val,
                                                  diff_x_desc,
                                                  diff_x));
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}

2804
/* static */ void MLUCnnl::PoolingBackward(
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    const ExecutionContext& ctx,
    const cnnlPoolingDescriptor_t pooling_desc,
    const void* alpha,
    const cnnlTensorDescriptor_t y_desc,
    const void* y,
    const cnnlTensorDescriptor_t diff_y_desc,
    const void* diff_y,
    const cnnlTensorDescriptor_t x_desc,
    const void* x,
    const void* beta,
    const cnnlTensorDescriptor_t diff_x_desc,
    void* diff_x) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlPoolingBackward(handle,
                          const_cast<cnnlPoolingDescriptor_t>(pooling_desc),
                          alpha,
                          y_desc,
                          y,
                          diff_y_desc,
                          diff_y,
                          x_desc,
                          x,
                          beta,
                          diff_x_desc,
                          diff_x));
2832 2833
}

2834
/* static */ void MLUCnnl::AdaptivePoolingBackward(
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    const ExecutionContext& ctx,
    const cnnlPoolingMode_t pool_mode,
    const cnnlTensorDescriptor_t y_desc,
    const void* y,
    const cnnlTensorDescriptor_t index_desc,
    const void* index,
    const cnnlTensorDescriptor_t diff_x_desc,
    void* diff_x) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlAdaptivePoolingBackward(
      handle, y_desc, y, index_desc, index, pool_mode, diff_x_desc, diff_x));
}

2849
/* static */ void MLUCnnl::NonMaxSuppression(
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    const ExecutionContext& ctx,
    const cnnlNmsDescriptor_t nms_desc,
    const cnnlTensorDescriptor_t boxes_desc,
    const void* boxes,
    const cnnlTensorDescriptor_t confidence_desc,
    const void* confidence,
    const cnnlTensorDescriptor_t output_desc,
    void* output,
    void* output_size) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetNmsWorkspaceSize_v2(handle, confidence_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlNms_v2(handle,
                                        nms_desc,
                                        boxes_desc,
                                        boxes,
                                        confidence_desc,
                                        confidence,
                                        workspace_ptr,
                                        workspace_size,
                                        output_desc,
                                        output,
                                        output_size));
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}

/* static */ void MLUCnnl::PoolingIndex(
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    const ExecutionContext& ctx,
    const cnnlPoolingDescriptor_t pooling_desc,
    const cnnlTensorDescriptor_t x_desc,
    const void* x,
    const cnnlTensorDescriptor_t y_desc,
    void* y) {
2890 2891
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlPoolingIndex(handle,
                       const_cast<cnnlPoolingDescriptor_t>(pooling_desc),
                       x_desc,
                       x,
                       y_desc,
                       y));
2899 2900 2901
}

/* static */ void MLUCnnl::SpaceToBatch(
2902 2903 2904 2905 2906
    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t output_desc,
    void* output,
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    const int64_t block_shape[]) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetSpace2batchWorkspaceSize(
      handle, input_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

  cnnlSpaceBatchParam_t param = {static_cast<uint32_t>(block_shape[0]),
                                 static_cast<uint32_t>(block_shape[1])};
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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSpace2batch(handle,
                                             input_desc,
                                             input,
                                             output_desc,
                                             output,
                                             param,
                                             workspace_ptr,
                                             workspace_size));
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}

/* static */ void MLUCnnl::SpaceToBatchNd(
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    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    cnnlSpaceBatchNdDescriptor_t param,
    void* extra_device_input,
    size_t extra_host_input,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
2940 2941
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSpace2batchNd_v2(handle,
                                                  input_desc,
                                                  input,
                                                  output_desc,
                                                  output,
                                                  param,
                                                  extra_device_input,
                                                  extra_host_input));
2950 2951 2952
}

/* static */ void MLUCnnl::FusedBatchNorm(
2953 2954 2955 2956 2957 2958 2959 2960 2961 2962 2963 2964 2965 2966 2967 2968 2969
    const ExecutionContext& ctx,
    const bool is_training,
    const cnnlTensorDescriptor_t x_desc,
    const void* x,
    const cnnlTensorDescriptor_t scale_desc,
    const void* scale,
    const void* offset,
    const void* running_mean_input,
    const void* running_variance_input,
    float epsilon,
    float momentum,
    const cnnlTensorDescriptor_t output_desc,
    void* output,
    void* running_mean_output,
    void* running_var_output,
    void* saved_batch_mean_output,
    void* saved_batch_var_output) {
2970 2971 2972 2973
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  if (is_training) {
    /*
2974
     *  In Paddle, running_mean_output = momentum * runnning_mean_input +
2975 2976 2977 2978
     *  (1 - momentum) * batch_mean. However, In CNNL,
     *  running_mean_output = (1 - momentum) * running_mean_input +
     *  momentum * batch_mean. So we pass (1.0 - momentum) to momentum param.
     */
2979 2980 2981 2982 2983 2984 2985 2986 2987 2988 2989 2990 2991 2992 2993 2994 2995
    PADDLE_ENFORCE_MLU_SUCCESS(
        cnnlBatchNormForwardTraining(handle,
                                     NULL,
                                     NULL,
                                     x_desc,
                                     x,
                                     scale_desc,
                                     scale,
                                     offset,
                                     running_mean_output,
                                     running_var_output,
                                     epsilon,
                                     1.0 - momentum,
                                     output_desc,
                                     output,
                                     saved_batch_mean_output,
                                     saved_batch_var_output));
2996
  } else {
2997 2998 2999 3000 3001 3002 3003 3004 3005 3006 3007 3008 3009 3010
    PADDLE_ENFORCE_MLU_SUCCESS(
        cnnlBatchNormForwardInference(handle,
                                      NULL,
                                      NULL,
                                      x_desc,
                                      x,
                                      scale_desc,
                                      scale,
                                      offset,
                                      running_mean_input,
                                      running_variance_input,
                                      epsilon,
                                      output_desc,
                                      output));
3011 3012 3013 3014
  }
}

/* static */ void MLUCnnl::FusedBatchNormGrad(
3015 3016 3017 3018 3019 3020 3021 3022 3023 3024 3025 3026 3027 3028 3029
    const ExecutionContext& ctx,
    const bool is_training,
    const cnnlTensorDescriptor_t y_backprop_desc,
    const void* y_backprop,
    const cnnlTensorDescriptor_t x_desc,
    const void* x,
    const cnnlTensorDescriptor_t scale_desc,
    const void* scale,
    const void* saved_mean,
    const void* saved_var,
    float epsilon,
    const cnnlTensorDescriptor_t x_backprop_desc,
    void* x_backprop,
    void* scale_backprop,
    void* offset_backprop) {
3030 3031 3032
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  if (is_training) {
3033 3034 3035 3036 3037 3038 3039 3040 3041 3042 3043 3044 3045 3046 3047 3048 3049 3050
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatchNormBackward(handle,
                                                     NULL,
                                                     NULL,
                                                     NULL,
                                                     NULL,
                                                     x_desc,
                                                     x,
                                                     y_backprop_desc,
                                                     y_backprop,
                                                     scale_desc,
                                                     scale,
                                                     saved_mean,
                                                     saved_var,
                                                     epsilon,
                                                     x_backprop_desc,
                                                     x_backprop,
                                                     scale_backprop,
                                                     offset_backprop));
3051
  } else {
3052 3053 3054 3055 3056 3057 3058 3059 3060 3061 3062 3063 3064 3065
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlFrozenBatchNormBackward(handle,
                                                           x_desc,
                                                           x,
                                                           y_backprop_desc,
                                                           y_backprop,
                                                           scale_desc,
                                                           scale,
                                                           saved_mean,
                                                           saved_var,
                                                           epsilon,
                                                           x_backprop_desc,
                                                           x_backprop,
                                                           scale_backprop,
                                                           offset_backprop));
3066 3067 3068
  }
}

3069
/* static */ void MLUCnnl::LayerNormForward(
3070 3071 3072 3073 3074 3075 3076 3077 3078 3079 3080 3081
    const ExecutionContext& ctx,
    int axis,
    const cnnlTensorDescriptor_t x_desc,
    const void* x,
    const cnnlTensorDescriptor_t weight_bias_desc,
    const void* weight,
    const void* bias,
    float eps,
    const cnnlTensorDescriptor_t y_desc,
    void* y,
    const cnnlTensorDescriptor_t mean_rstd_desc,
    void* saved_mean,
3082 3083 3084 3085 3086 3087 3088 3089 3090 3091 3092 3093
    void* saved_rstd) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetLayerNormOpWorkspaceSize(handle, axis, x_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

3094 3095 3096 3097 3098 3099 3100 3101 3102 3103 3104 3105 3106 3107 3108
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlLayerNormForward(handle,
                                                  x_desc,
                                                  x,
                                                  axis,
                                                  weight_bias_desc,
                                                  weight,
                                                  bias,
                                                  eps,
                                                  workspace_ptr,
                                                  workspace_size,
                                                  y_desc,
                                                  y,
                                                  mean_rstd_desc,
                                                  saved_mean,
                                                  saved_rstd));
3109 3110 3111
}

/* static */ void MLUCnnl::LayerNormBackward(
3112 3113 3114 3115 3116 3117 3118 3119 3120 3121 3122 3123 3124 3125 3126 3127 3128 3129 3130 3131 3132 3133 3134 3135 3136 3137 3138 3139 3140 3141 3142 3143
    const ExecutionContext& ctx,
    int axis,
    const cnnlTensorDescriptor_t x_desc,
    const void* x,
    const cnnlTensorDescriptor_t diff_z_desc,
    const void* diff_z,
    const cnnlTensorDescriptor_t weight_bias_desc,
    const void* weight,
    const cnnlTensorDescriptor_t mean_rstd_desc,
    const void* saved_mean,
    const void* saved_rstd,
    const cnnlTensorDescriptor_t diff_x_desc,
    void* diff_x,
    void* diff_weight,
    void* diff_bias) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlLayerNormBackward(handle,
                                                   x_desc,
                                                   x,
                                                   axis,
                                                   diff_z_desc,
                                                   diff_z,
                                                   weight_bias_desc,
                                                   weight,
                                                   mean_rstd_desc,
                                                   saved_mean,
                                                   saved_rstd,
                                                   diff_x_desc,
                                                   diff_x,
                                                   diff_weight,
                                                   diff_bias));
3144 3145
}

3146
/* static */ void MLUCnnl::QuantizeParam(
3147 3148 3149 3150 3151 3152 3153 3154
    const ExecutionContext& ctx,
    const cnnlQuantizeMode_t mode,
    const int bitwidth,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    void* position,
    void* scale,
    void* offset) {
3155 3156 3157 3158 3159 3160 3161 3162 3163 3164 3165
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetQuantizeParamWorkspaceSize(handle, input_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

3166 3167 3168 3169 3170 3171 3172 3173 3174 3175 3176 3177 3178 3179 3180 3181 3182 3183 3184 3185 3186 3187 3188 3189 3190 3191 3192 3193 3194 3195
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlQuantizeParam(handle,
                                               mode,
                                               input_desc,
                                               input,
                                               bitwidth,
                                               workspace_ptr,
                                               workspace_size,
                                               position,
                                               scale,
                                               offset));
}

/* static */ void MLUCnnl::Conv2D(const ExecutionContext& ctx,
                                  const cnnlConvolutionDescriptor_t conv_desc,
                                  const cnnlDataType_t tensor_dtype,
                                  const cnnlDataType_t dt_onchip,
                                  const void* input_position,
                                  const void* input_scale,
                                  const void* input_offset,
                                  const void* filter_position,
                                  const void* filter_scale,
                                  const void* filter_offset,
                                  const cnnlTensorDescriptor_t input_desc,
                                  const void* input,
                                  const cnnlTensorDescriptor_t filter_desc,
                                  const void* filter,
                                  const cnnlTensorDescriptor_t bias_desc,
                                  const void* bias,
                                  const cnnlTensorDescriptor_t output_desc,
                                  void* output) {
3196 3197 3198 3199 3200 3201 3202 3203 3204 3205 3206 3207
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorOnchipDataType(input_desc, dt_onchip));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorOnchipDataType(filter_desc, dt_onchip));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorOnchipDataType(output_desc, tensor_dtype));

  cnnlConvolutionForwardAlgo_t algo;
  const cnnlConvolutionFwdPreference_t preference =
      CNNL_CONVOLUTION_FWD_FASTEST;
3208 3209 3210 3211 3212 3213 3214
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetConvolutionForwardAlgorithm(handle,
                                                                conv_desc,
                                                                input_desc,
                                                                filter_desc,
                                                                output_desc,
                                                                preference,
                                                                &algo));
3215 3216

  size_t workspace_size = 0;
3217 3218 3219 3220 3221 3222 3223 3224 3225
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConvolutionForwardWorkspaceSize(handle,
                                             input_desc,
                                             filter_desc,
                                             output_desc,
                                             bias_desc,
                                             conv_desc,
                                             algo,
                                             &workspace_size));
3226 3227 3228 3229 3230 3231

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

3232 3233 3234 3235 3236 3237 3238 3239 3240 3241 3242 3243 3244 3245 3246 3247 3248 3249 3250 3251 3252
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlQuantizeConvolutionForward(handle,
                                                            conv_desc,
                                                            algo,
                                                            nullptr /*alpha*/,
                                                            input_desc,
                                                            input,
                                                            input_position,
                                                            input_scale,
                                                            input_offset,
                                                            filter_desc,
                                                            filter,
                                                            filter_position,
                                                            filter_scale,
                                                            filter_offset,
                                                            bias_desc,
                                                            bias,
                                                            workspace_ptr,
                                                            workspace_size,
                                                            nullptr /*beta*/,
                                                            output_desc,
                                                            output));
3253 3254 3255
}

/* static */ void MLUCnnl::FusedConvBNQuantify(
3256 3257 3258 3259 3260 3261 3262 3263 3264 3265 3266 3267 3268 3269 3270 3271 3272 3273 3274 3275 3276 3277
    const ExecutionContext& ctx,
    cnnlConvolutionDescriptor_t conv_desc,
    const void* epsilon_ptr,
    const int fused_ops_number,
    const cnnlDataType_t tensor_dtype,
    const int input_position,
    const float input_scale,
    const int filter_position,
    const float filter_scale,
    const cnnlTensorDescriptor_t scale_desc,
    const void* scale_ptr,
    const cnnlTensorDescriptor_t offset_desc,
    const void* offset_ptr,
    const cnnlTensorDescriptor_t mean_desc,
    const void* mean_ptr,
    const cnnlTensorDescriptor_t variance_desc,
    const void* variance_ptr,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t filter_desc,
    const void* filter,
    const cnnlTensorDescriptor_t output_desc,
3278 3279 3280 3281 3282 3283 3284 3285 3286 3287 3288 3289 3290 3291 3292 3293 3294 3295 3296 3297 3298 3299 3300
    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorOnchipDataType(input_desc, CNNL_DTYPE_INT16));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorOnchipDataType(filter_desc, CNNL_DTYPE_INT16));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorOnchipDataType(output_desc, tensor_dtype));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetTensorDescriptorPositionAndScale(
      input_desc, input_position, input_scale));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetTensorDescriptorPositionAndScale(
      filter_desc, filter_position, filter_scale));

  cnnlFusedOpsPlan_t fusion_plan = nullptr;
  cnnlActivationDescriptor_t active_desc = nullptr;
  cnnlFusedOpsConstParamPack_t cparam_pack = nullptr;
  cnnlFusedOpsVariantParamPack_t vparam_pack = nullptr;
  cnnlConvolutionForwardAlgo_t algo;
  cnnlFusedOps_t fusion_type = CNNL_CONV_SCALE_BN_ACTIVATION;
  cnnlConvolutionCastMode_t cast_mode = CNNL_OFFLINE_SYMMETRIC_QUANTIZE;
  cnnlConvolutionFwdPreference_t preference = CNNL_CONVOLUTION_FWD_FASTEST;

3301 3302 3303 3304 3305 3306 3307
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetConvolutionForwardAlgorithm(handle,
                                                                conv_desc,
                                                                input_desc,
                                                                filter_desc,
                                                                output_desc,
                                                                preference,
                                                                &algo));
3308 3309 3310 3311 3312 3313 3314 3315 3316 3317 3318 3319 3320 3321 3322 3323 3324 3325 3326 3327 3328 3329 3330 3331 3332 3333 3334 3335 3336 3337 3338 3339 3340 3341 3342 3343 3344 3345 3346 3347 3348 3349 3350 3351 3352 3353 3354 3355 3356 3357 3358 3359 3360 3361 3362 3363 3364 3365 3366 3367 3368 3369 3370 3371 3372 3373 3374 3375 3376 3377 3378 3379 3380 3381 3382 3383 3384 3385 3386 3387 3388 3389 3390 3391 3392 3393 3394 3395 3396 3397 3398 3399 3400 3401 3402
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateFusedOpsPlan(&fusion_plan, fusion_type));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlCreateFusedOpsConstParamPack(&cparam_pack, fusion_type));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlCreateFusedOpsVariantParamPack(&vparam_pack, fusion_type));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsConstParamPackAttribute(
      cparam_pack, CNNL_XDESC, input_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetFusedOpsVariantParamPackAttribute(vparam_pack, CNNL_PTR_X, input));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsConstParamPackAttribute(
      cparam_pack, CNNL_WDESC, filter_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsVariantParamPackAttribute(
      vparam_pack, CNNL_PTR_W, filter));

  if (fused_ops_number > 1) {
    cnnlCreateActivationDescriptor(&active_desc);
    cnnlNanPropagation_t nan_opt = CNNL_NOT_PROPAGATE_NAN;
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetActivationDescriptor(
        active_desc, CNNL_ACTIVATION_RELU, nan_opt, 0.0));
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsConstParamPackAttribute(
        cparam_pack, CNNL_ACTIVATION_DESC, active_desc));
  }
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsConstParamPackAttribute(
      cparam_pack, CNNL_BN_WEIGHT_BIAS_MEAN_VAR_DESC, scale_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsVariantParamPackAttribute(
      vparam_pack, CNNL_PTR_BN_WEIGHT, scale_ptr));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsConstParamPackAttribute(
      cparam_pack, CNNL_BN_WEIGHT_BIAS_MEAN_VAR_DESC, offset_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsVariantParamPackAttribute(
      vparam_pack, CNNL_PTR_BN_BIAS, offset_ptr));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsConstParamPackAttribute(
      cparam_pack, CNNL_BN_WEIGHT_BIAS_MEAN_VAR_DESC, mean_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsVariantParamPackAttribute(
      vparam_pack, CNNL_PTR_BN_MEAN, mean_ptr));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsConstParamPackAttribute(
      cparam_pack, CNNL_BN_WEIGHT_BIAS_MEAN_VAR_DESC, variance_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsVariantParamPackAttribute(
      vparam_pack, CNNL_PTR_BN_VAR, variance_ptr));

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsConstParamPackAttribute(
      cparam_pack, CNNL_CONV_DESC, conv_desc));

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsConstParamPackAttribute(
      cparam_pack, CNNL_SCALAR_CONV_FWD_ALGO, &algo));

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsConstParamPackAttribute(
      cparam_pack, CNNL_SCALAR_CONV_FWD_CAST_MODE, &cast_mode));

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsVariantParamPackAttribute(
      vparam_pack, CNNL_SCALAR_BN_EPSILON, epsilon_ptr));

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsConstParamPackAttribute(
      cparam_pack, CNNL_YDESC, output_desc));

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsVariantParamPackAttribute(
      vparam_pack, CNNL_PTR_Y, output));

  // get workspace size
  size_t workspace_size = 0;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlMakeFusedOpsPlan(handle, fusion_plan, cparam_pack, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

  if (workspace_size > 0) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsVariantParamPackAttribute(
        vparam_pack, CNNL_PTR_WORKSPACE, workspace_ptr));
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetFusedOpsVariantParamPackAttribute(
        vparam_pack, CNNL_SCALAR_WORKSPACE_SIZE, &workspace_size));
  }
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlFusedOpsExecute(handle, fusion_plan, vparam_pack));

  if (active_desc) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyActivationDescriptor(active_desc));
  }

  if (cparam_pack) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyFusedOpsConstParamPack(cparam_pack));
  }

  if (vparam_pack) {
    PADDLE_ENFORCE_MLU_SUCCESS(
        cnnlDestroyFusedOpsVariantParamPack(vparam_pack));
  }

  if (fusion_plan) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyFusedOpsPlan(fusion_plan));
  }
}

/* static */ void MLUCnnl::ConvBackpropInput(
3403 3404 3405 3406 3407 3408 3409 3410
    const ExecutionContext& ctx,
    const cnnlConvolutionDescriptor_t conv_desc,
    const cnnlTensorDescriptor_t filter_desc,
    const void* filter,
    const cnnlTensorDescriptor_t out_backprop_desc,
    const void* out_backprop,
    const cnnlTensorDescriptor_t in_backprop_desc,
    void* in_backprop) {
3411 3412 3413 3414 3415
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  cnnlConvolutionBwdDataAlgo_t algo;
  const cnnlConvolutionBwdDataPreference_t preference =
      CNNL_CONVOLUTION_BWD_DATA_FASTEST;
3416 3417 3418 3419 3420 3421 3422 3423
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConvolutionBackwardDataAlgorithm(handle,
                                              filter_desc,
                                              out_backprop_desc,
                                              conv_desc,
                                              in_backprop_desc,
                                              preference,
                                              &algo));
3424 3425

  size_t workspace_size = 0;
3426 3427 3428 3429 3430 3431 3432 3433
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConvolutionBackwardDataWorkspaceSize(handle,
                                                  filter_desc,
                                                  out_backprop_desc,
                                                  conv_desc,
                                                  in_backprop_desc,
                                                  algo,
                                                  &workspace_size));
3434 3435 3436 3437 3438 3439

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

3440 3441 3442 3443 3444 3445 3446 3447 3448 3449 3450 3451 3452
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlConvolutionBackwardData(handle,
                                                         nullptr /*alpha*/,
                                                         filter_desc,
                                                         filter,
                                                         out_backprop_desc,
                                                         out_backprop,
                                                         conv_desc,
                                                         algo,
                                                         workspace_ptr,
                                                         workspace_size,
                                                         nullptr /*beta*/,
                                                         in_backprop_desc,
                                                         in_backprop));
3453 3454 3455
}

/* static */ void MLUCnnl::QuantizeConvBackpropInput(
3456 3457 3458 3459 3460 3461 3462 3463 3464 3465 3466 3467 3468 3469 3470 3471
    const ExecutionContext& ctx,
    const cnnlConvolutionDescriptor_t conv_desc,
    const cnnlDataType_t tensor_dtype,
    const cnnlDataType_t dt_onchip,
    const void* filter_position,
    const void* filter_scale,
    const void* filter_offset,
    const void* out_backprop_position,
    const void* out_backprop_scale,
    const void* out_backprop_offset,
    const cnnlTensorDescriptor_t filter_desc,
    const void* filter,
    const cnnlTensorDescriptor_t out_backprop_desc,
    const void* out_backprop,
    const cnnlTensorDescriptor_t in_backprop_desc,
    void* in_backprop) {
3472 3473 3474 3475 3476 3477 3478 3479 3480 3481
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorOnchipDataType(filter_desc, dt_onchip));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorOnchipDataType(out_backprop_desc, dt_onchip));

  cnnlConvolutionBwdDataAlgo_t algo;
  const cnnlConvolutionBwdDataPreference_t preference =
      CNNL_CONVOLUTION_BWD_DATA_FASTEST;
3482 3483 3484 3485 3486 3487 3488 3489
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConvolutionBackwardDataAlgorithm(handle,
                                              filter_desc,
                                              out_backprop_desc,
                                              conv_desc,
                                              in_backprop_desc,
                                              preference,
                                              &algo));
3490 3491

  size_t workspace_size = 0;
3492 3493 3494 3495 3496 3497 3498 3499
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConvolutionBackwardDataWorkspaceSize(handle,
                                                  filter_desc,
                                                  out_backprop_desc,
                                                  conv_desc,
                                                  in_backprop_desc,
                                                  algo,
                                                  &workspace_size));
3500 3501 3502 3503 3504 3505

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

3506 3507 3508 3509 3510 3511 3512 3513 3514 3515 3516 3517 3518 3519 3520 3521 3522 3523 3524 3525
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlQuantizeConvolutionBackwardData(handle,
                                          nullptr /*alpha*/,
                                          filter_desc,
                                          filter,
                                          filter_position,
                                          filter_scale,
                                          filter_offset,
                                          out_backprop_desc,
                                          out_backprop,
                                          out_backprop_position,
                                          out_backprop_scale,
                                          out_backprop_offset,
                                          conv_desc,
                                          algo,
                                          workspace_ptr,
                                          workspace_size,
                                          nullptr /*beta*/,
                                          in_backprop_desc,
                                          in_backprop));
3526 3527 3528
}

/* static */ void MLUCnnl::ConvBackpropFilter(
3529 3530 3531 3532 3533 3534 3535 3536
    const ExecutionContext& ctx,
    const cnnlConvolutionDescriptor_t conv_desc,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t out_backprop_desc,
    const void* out_backprop,
    const cnnlTensorDescriptor_t filter_backprop_desc,
    void* filter_backprop) {
3537 3538 3539 3540 3541
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  cnnlConvolutionBwdFilterAlgo_t algo;
  const cnnlConvolutionBwdFilterPreference_t preference =
      CNNL_CONVOLUTION_BWD_FILTER_FASTEST;
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  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConvolutionBackwardFilterAlgorithm(handle,
                                                conv_desc,
                                                input_desc,
                                                out_backprop_desc,
                                                filter_backprop_desc,
                                                preference,
                                                &algo));
3550 3551

  size_t workspace_size = 0;
3552 3553 3554 3555 3556 3557 3558 3559
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConvolutionBackwardFilterWorkspaceSize(handle,
                                                    input_desc,
                                                    out_backprop_desc,
                                                    filter_backprop_desc,
                                                    conv_desc,
                                                    algo,
                                                    &workspace_size));
3560 3561 3562 3563 3564 3565

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

3566 3567 3568 3569 3570 3571 3572 3573 3574 3575 3576 3577 3578
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlConvolutionBackwardFilter(handle,
                                                           nullptr /*alpha*/,
                                                           input_desc,
                                                           input,
                                                           out_backprop_desc,
                                                           out_backprop,
                                                           conv_desc,
                                                           algo,
                                                           workspace_ptr,
                                                           workspace_size,
                                                           nullptr /*beta*/,
                                                           filter_backprop_desc,
                                                           filter_backprop));
3579 3580 3581
}

/* static */ void MLUCnnl::QuantizeConvBackpropFilter(
3582 3583 3584 3585 3586 3587 3588 3589 3590 3591 3592 3593 3594 3595 3596 3597
    const ExecutionContext& ctx,
    const cnnlConvolutionDescriptor_t conv_desc,
    const cnnlDataType_t tensor_dtype,
    const cnnlDataType_t dt_onchip,
    const void* input_position,
    const void* input_scale,
    const void* input_offset,
    const void* out_backprop_position,
    const void* out_backprop_scale,
    const void* out_backprop_offset,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t out_backprop_desc,
    const void* out_backprop,
    const cnnlTensorDescriptor_t filter_backprop_desc,
    void* filter_backprop) {
3598 3599 3600 3601 3602 3603 3604 3605 3606 3607 3608 3609
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorOnchipDataType(input_desc, dt_onchip));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTensorDescriptorOnchipDataType(out_backprop_desc, dt_onchip));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetTensorDescriptorOnchipDataType(
      filter_backprop_desc, tensor_dtype));

  cnnlConvolutionBwdFilterAlgo_t algo;
  const cnnlConvolutionBwdFilterPreference_t preference =
      CNNL_CONVOLUTION_BWD_FILTER_FASTEST;
3610 3611 3612 3613 3614 3615 3616 3617
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConvolutionBackwardFilterAlgorithm(handle,
                                                conv_desc,
                                                input_desc,
                                                out_backprop_desc,
                                                filter_backprop_desc,
                                                preference,
                                                &algo));
3618 3619

  size_t workspace_size = 0;
3620 3621 3622 3623 3624 3625 3626 3627
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetConvolutionBackwardFilterWorkspaceSize(handle,
                                                    input_desc,
                                                    out_backprop_desc,
                                                    filter_backprop_desc,
                                                    conv_desc,
                                                    algo,
                                                    &workspace_size));
3628 3629 3630 3631 3632 3633

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

3634 3635 3636 3637 3638 3639 3640 3641 3642 3643 3644 3645 3646 3647 3648 3649 3650 3651 3652 3653 3654 3655 3656 3657 3658 3659 3660 3661 3662 3663 3664 3665 3666 3667 3668 3669
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlQuantizeConvolutionBackwardFilter(handle,
                                            nullptr /*alpha*/,
                                            input_desc,
                                            input,
                                            input_position,
                                            input_scale,
                                            input_offset,
                                            out_backprop_desc,
                                            out_backprop,
                                            out_backprop_position,
                                            out_backprop_scale,
                                            out_backprop_offset,
                                            conv_desc,
                                            algo,
                                            workspace_ptr,
                                            workspace_size,
                                            nullptr /*beta*/,
                                            filter_backprop_desc,
                                            filter_backprop));
}

/* static */ void MLUCnnl::DCNForward(const ExecutionContext& ctx,
                                      const cnnlDCNDescriptor_t dcn_desc,
                                      const cnnlTensorDescriptor_t input_desc,
                                      const void* input,
                                      const cnnlTensorDescriptor_t offset_desc,
                                      const void* offset,
                                      const cnnlTensorDescriptor_t mask_desc,
                                      const void* mask,
                                      const cnnlTensorDescriptor_t weight_desc,
                                      const void* weight,
                                      const cnnlTensorDescriptor_t bias_desc,
                                      const void* bias,
                                      const cnnlTensorDescriptor_t output_desc,
                                      void* output) {
3670 3671 3672
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size = 0;
3673 3674 3675 3676 3677 3678 3679 3680 3681
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetDCNForwardWorkspaceSize(handle,
                                                            dcn_desc,
                                                            input_desc,
                                                            offset_desc,
                                                            mask_desc,
                                                            weight_desc,
                                                            bias_desc,
                                                            output_desc,
                                                            &workspace_size));
3682 3683 3684 3685 3686 3687

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlDCNForward(handle,
                                            dcn_desc,
                                            input_desc,
                                            input,
                                            offset_desc,
                                            offset,
                                            mask_desc,
                                            mask,
                                            weight_desc,
                                            weight,
                                            bias_desc,
                                            bias,
                                            workspace_ptr,
                                            workspace_size,
                                            output_desc,
                                            output));
3704 3705 3706
}

/* static */ void MLUCnnl::DCNBackwardData(
3707 3708 3709 3710 3711 3712 3713 3714 3715 3716 3717 3718 3719 3720 3721 3722 3723 3724
    const ExecutionContext& ctx,
    const cnnlDCNDescriptor_t dcn_desc,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t offset_desc,
    const void* offset,
    const cnnlTensorDescriptor_t mask_desc,
    const void* mask,
    const cnnlTensorDescriptor_t weight_desc,
    const void* weight,
    const cnnlTensorDescriptor_t grad_output_desc,
    const void* grad_output,
    const cnnlTensorDescriptor_t grad_input_desc,
    void* grad_input,
    const cnnlTensorDescriptor_t grad_offset_desc,
    void* grad_offset,
    const cnnlTensorDescriptor_t grad_mask_desc,
    void* grad_mask) {
3725 3726 3727
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size = 0;
3728 3729 3730 3731 3732 3733 3734 3735 3736 3737 3738 3739
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetDCNBakcwardDataWorkspaceSize(handle,
                                          dcn_desc,
                                          input_desc,
                                          offset_desc,
                                          mask_desc,
                                          weight_desc,
                                          grad_output_desc,
                                          grad_input_desc,
                                          grad_offset_desc,
                                          grad_mask_desc,
                                          &workspace_size));
3740 3741 3742 3743 3744 3745

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

3746 3747 3748 3749 3750 3751 3752 3753 3754 3755 3756 3757 3758 3759 3760 3761 3762 3763 3764 3765
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlDCNBackwardData(handle,
                                                 dcn_desc,
                                                 input_desc,
                                                 input,
                                                 offset_desc,
                                                 offset,
                                                 mask_desc,
                                                 mask,
                                                 weight_desc,
                                                 weight,
                                                 grad_output_desc,
                                                 grad_output,
                                                 workspace_ptr,
                                                 workspace_size,
                                                 grad_input_desc,
                                                 grad_input,
                                                 grad_offset_desc,
                                                 grad_offset,
                                                 grad_mask_desc,
                                                 grad_mask));
3766 3767 3768
}

/* static */ void MLUCnnl::DCNBackwardWeight(
3769 3770 3771 3772 3773 3774 3775 3776 3777 3778 3779 3780 3781 3782
    const ExecutionContext& ctx,
    const cnnlDCNDescriptor_t dcn_desc,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t offset_desc,
    const void* offset,
    const cnnlTensorDescriptor_t mask_desc,
    const void* mask,
    const cnnlTensorDescriptor_t grad_output_desc,
    const void* grad_output,
    const cnnlTensorDescriptor_t grad_weight_desc,
    void* grad_weight,
    const cnnlTensorDescriptor_t grad_bias_desc,
    void* grad_bias) {
3783 3784 3785
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size = 0;
3786 3787 3788 3789 3790 3791 3792 3793 3794 3795
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetDCNBackwardWeightWorkspaceSize(handle,
                                            dcn_desc,
                                            input_desc,
                                            offset_desc,
                                            mask_desc,
                                            grad_output_desc,
                                            grad_weight_desc,
                                            grad_bias_desc,
                                            &workspace_size));
3796 3797 3798 3799 3800 3801

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

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  PADDLE_ENFORCE_MLU_SUCCESS(cnnlDCNBackwardWeight(handle,
                                                   dcn_desc,
                                                   input_desc,
                                                   input,
                                                   offset_desc,
                                                   offset,
                                                   mask_desc,
                                                   mask,
                                                   grad_output_desc,
                                                   grad_output,
                                                   workspace_ptr,
                                                   workspace_size,
                                                   grad_weight_desc,
                                                   grad_weight,
                                                   grad_bias_desc,
                                                   grad_bias));
3818 3819
}

3820
/* static */ void MLUCnnl::QuantizeMatMul(
3821 3822 3823 3824 3825 3826 3827 3828 3829 3830 3831 3832 3833 3834 3835 3836
    const ExecutionContext& ctx,
    const bool transpose_a,
    const bool transpose_b,
    const cnnlTensorDescriptor_t a_desc,
    const void* a,
    const void* a_position,
    const void* a_scale,
    const void* a_offset,
    const cnnlTensorDescriptor_t b_desc,
    const void* b,
    const void* b_position,
    const void* b_scale,
    const void* b_offset,
    const cnnlDataType_t quant_type,
    const cnnlDataType_t data_type,
    const cnnlTensorDescriptor_t output_desc,
3837 3838 3839 3840 3841 3842 3843 3844 3845 3846 3847 3848 3849 3850 3851 3852 3853 3854 3855 3856 3857 3858 3859 3860 3861 3862 3863 3864 3865 3866 3867 3868 3869 3870 3871 3872 3873 3874 3875 3876
    void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  // Set onchip data type
  cnnlSetTensorDescriptorOnchipDataType(a_desc, quant_type);
  cnnlSetTensorDescriptorOnchipDataType(b_desc, quant_type);
  cnnlSetTensorDescriptorOnchipDataType(output_desc, data_type);

  // Create and set matmul descriptor
  cnnlMatMulDescriptor_t matmul_desc;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlMatMulDescCreate(&matmul_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetMatMulDescAttr(
      matmul_desc, CNNL_MATMUL_DESC_COMPUTE_TYPE, &data_type, sizeof(int)));
  int transpose_a_int = static_cast<int>(transpose_a);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetMatMulDescAttr(
      matmul_desc, CNNL_MATMUL_DESC_TRANSA, &(transpose_a_int), sizeof(int)));
  int transpose_b_int = static_cast<int>(transpose_b);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetMatMulDescAttr(
      matmul_desc, CNNL_MATMUL_DESC_TRANSB, &(transpose_b_int), sizeof(int)));

  // Create and get matmul algorithim
  cnnlMatMulAlgo_t algo;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlMatMulAlgoCreate(&algo));
  const cnnlMatMulPreference_t preference = CNNL_MATMUL_FASTEST;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetQuantizeMatMulAlgorithm(
      handle, matmul_desc, a_desc, b_desc, output_desc, preference, &algo));

  // Get workspace
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetQuantizeMatMulWorkspaceSize(
      handle, matmul_desc, a_desc, b_desc, output_desc, algo, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

  // Compute
  float alpha = 1.0;
  float beta = 0.0;
3877 3878 3879 3880 3881 3882 3883 3884 3885 3886 3887 3888 3889 3890 3891 3892 3893 3894 3895
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlQuantizeMatMul(handle,
                                                matmul_desc,
                                                reinterpret_cast<void*>(&alpha),
                                                a_desc,
                                                a,
                                                a_position,
                                                a_scale,
                                                a_offset,
                                                b_desc,
                                                b,
                                                b_position,
                                                b_scale,
                                                b_offset,
                                                reinterpret_cast<void*>(&beta),
                                                output_desc,
                                                output,
                                                algo,
                                                workspace_ptr,
                                                workspace_size));
3896 3897 3898 3899 3900 3901 3902

  // Destroy matmul descriptor and algorithim
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlMatMulDescDestroy(matmul_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlMatMulAlgoDestroy(algo));
}

/* static */ void MLUCnnl::QuantizeBatchMatMul(
3903 3904 3905 3906 3907 3908 3909 3910 3911 3912 3913 3914 3915 3916 3917 3918 3919
    const ExecutionContext& ctx,
    const bool adj_x,
    const bool adj_y,
    const cnnlTensorDescriptor_t in0_desc,
    const void* in0,
    const void* in0_position,
    const void* in0_scale,
    const void* in0_offset,
    const cnnlTensorDescriptor_t in1_desc,
    const void* in1,
    const void* in1_position,
    const void* in1_scale,
    const void* in1_offset,
    const cnnlDataType_t quant_type,
    const cnnlDataType_t data_type,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
3920 3921 3922 3923 3924 3925 3926 3927 3928 3929 3930 3931 3932 3933 3934 3935 3936 3937 3938 3939 3940 3941 3942 3943 3944 3945 3946 3947
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  // Set onchip data type
  cnnlSetTensorDescriptorOnchipDataType(in0_desc, quant_type);
  cnnlSetTensorDescriptorOnchipDataType(in1_desc, quant_type);
  cnnlSetTensorDescriptorOnchipDataType(output_desc, data_type);

  // Create and set batch matmul descriptor
  cnnlBatchMatMulDescriptor_t bmm_desc;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatchMatMulDescCreate(&bmm_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetBatchMatMulDescAttr(
      bmm_desc, CNNL_BMM_DESC_COMPUTE_TYPE, &data_type, sizeof(int)));
  int transpose_a_int = static_cast<int>(adj_x);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetBatchMatMulDescAttr(
      bmm_desc, CNNL_BMM_DESC_TRANSA, &(transpose_a_int), sizeof(int)));
  int transpose_b_int = static_cast<int>(adj_y);
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlSetBatchMatMulDescAttr(
      bmm_desc, CNNL_BMM_DESC_TRANSB, &(transpose_b_int), sizeof(int)));

  // Create and get batch matmul algorithim
  cnnlBatchMatMulAlgo_t algo;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatchMatMulAlgoCreate(&algo));
  const cnnlBatchMatMulPreference_t preference = CNNL_BMM_FASTEST;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetQuantizeBatchMatMulAlgorithm(
      handle, bmm_desc, in0_desc, in1_desc, output_desc, preference, &algo));

  // Get workspace
  size_t workspace_size;
3948 3949 3950 3951 3952 3953 3954 3955
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetQuantizeBatchMatMulWorkspaceSize(handle,
                                              bmm_desc,
                                              in0_desc,
                                              in1_desc,
                                              output_desc,
                                              algo,
                                              &workspace_size));
3956 3957 3958 3959 3960 3961 3962 3963 3964

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

  // Compute
  float alpha = 1.0;
  float beta = 0.0;
3965 3966 3967 3968 3969 3970 3971 3972 3973 3974 3975 3976 3977 3978 3979 3980 3981 3982 3983 3984
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlQuantizeBatchMatMul(handle,
                              bmm_desc,
                              reinterpret_cast<void*>(&alpha),
                              in0_desc,
                              in0,
                              in0_position,
                              in0_scale,
                              in0_offset,
                              in1_desc,
                              in1,
                              in1_position,
                              in1_scale,
                              in1_offset,
                              reinterpret_cast<void*>(&beta),
                              output_desc,
                              output,
                              algo,
                              workspace_ptr,
                              workspace_size));
3985 3986 3987 3988 3989 3990 3991

  // Destroy matmul descriptor and algorithim
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatchMatMulDescDestroy(bmm_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatchMatMulAlgoDestroy(algo));
}

/* static */ void MLUCnnl::QuantizeBatchMatMulBCast(
3992 3993 3994 3995 3996 3997 3998 3999 4000 4001 4002 4003 4004 4005 4006 4007 4008
    const ExecutionContext& ctx,
    const bool adj_x,
    const bool adj_y,
    const cnnlTensorDescriptor_t in0_desc,
    const void* in0,
    const void* in0_position,
    const void* in0_scale,
    const void* in0_offset,
    const cnnlTensorDescriptor_t in1_desc,
    const void* in1,
    const void* in1_position,
    const void* in1_scale,
    const void* in1_offset,
    const cnnlDataType_t quant_type,
    const cnnlDataType_t data_type,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
4009 4010 4011 4012 4013 4014 4015 4016 4017 4018
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  // Set onchip data type
  cnnlSetTensorDescriptorOnchipDataType(in0_desc, quant_type);
  cnnlSetTensorDescriptorOnchipDataType(in1_desc, quant_type);
  cnnlSetTensorDescriptorOnchipDataType(output_desc, data_type);

  // Create and set batch matmul descriptor
  cnnlBatchMatMulBCastDescriptor_t bmm_bcast_desc;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatchMatMulBCastDescCreate(&bmm_bcast_desc));
4019 4020 4021 4022 4023
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetBatchMatMulBCastDescAttr(bmm_bcast_desc,
                                      CNNL_BMM_BCAST_DESC_COMPUTE_TYPE,
                                      &data_type,
                                      sizeof(int)));
4024
  int transpose_a_int = static_cast<int>(adj_x);
4025 4026 4027 4028 4029
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetBatchMatMulBCastDescAttr(bmm_bcast_desc,
                                      CNNL_BMM_BCAST_DESC_TRANSA,
                                      &(transpose_a_int),
                                      sizeof(int)));
4030
  int transpose_b_int = static_cast<int>(adj_y);
4031 4032 4033 4034 4035
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetBatchMatMulBCastDescAttr(bmm_bcast_desc,
                                      CNNL_BMM_BCAST_DESC_TRANSB,
                                      &(transpose_b_int),
                                      sizeof(int)));
4036 4037 4038 4039 4040

  // Create and get batch matmul algorithim
  cnnlBatchMatMulBCastAlgo_t algo;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatchMatMulBCastAlgoCreate(&algo));
  const cnnlBatchMatMulBCastPreference_t preference = CNNL_BMM_BCAST_FASTEST;
4041 4042 4043 4044 4045 4046 4047 4048
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetQuantizeBatchMatMulBCastAlgorithm(handle,
                                               bmm_bcast_desc,
                                               in0_desc,
                                               in1_desc,
                                               output_desc,
                                               preference,
                                               &algo));
4049 4050 4051

  // Get workspace
  size_t workspace_size;
4052 4053 4054 4055 4056 4057 4058 4059
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetQuantizeBatchMatMulBCastWorkspaceSize(handle,
                                                   bmm_bcast_desc,
                                                   in0_desc,
                                                   in1_desc,
                                                   output_desc,
                                                   algo,
                                                   &workspace_size));
4060 4061 4062 4063 4064 4065 4066 4067 4068

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

  // Compute
  float alpha = 1.0;
  float beta = 0.0;
4069 4070 4071 4072 4073 4074 4075 4076 4077 4078 4079 4080 4081 4082 4083 4084 4085 4086 4087 4088
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlQuantizeBatchMatMulBCast(handle,
                                   bmm_bcast_desc,
                                   reinterpret_cast<void*>(&alpha),
                                   in0_desc,
                                   in0,
                                   in0_position,
                                   in0_scale,
                                   in0_offset,
                                   in1_desc,
                                   in1,
                                   in1_position,
                                   in1_scale,
                                   in1_offset,
                                   reinterpret_cast<void*>(&beta),
                                   output_desc,
                                   output,
                                   algo,
                                   workspace_ptr,
                                   workspace_size));
4089 4090 4091 4092 4093 4094

  // Destroy matmul descriptor and algorithim
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatchMatMulBCastDescDestroy(bmm_bcast_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBatchMatMulBCastAlgoDestroy(algo));
}

4095 4096 4097 4098 4099 4100 4101
/* static */ void MLUCnnl::Transpose(const ExecutionContext& ctx,
                                     const std::vector<int> perm,
                                     const int input_dim,
                                     const cnnlTensorDescriptor_t input_desc,
                                     const void* input,
                                     const cnnlTensorDescriptor_t output_desc,
                                     void* output) {
4102 4103 4104 4105 4106 4107 4108 4109 4110 4111 4112 4113 4114 4115 4116
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  cnnlTransposeDescriptor_t perm_desc;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlCreateTransposeDescriptor(&perm_desc));
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlSetTransposeDescriptor(perm_desc, input_dim, perm.data()));

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetTransposeWorkspaceSize(
      handle, input_desc, perm_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

4117 4118 4119 4120 4121 4122 4123 4124
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlTranspose_v2(handle,
                                              perm_desc,
                                              input_desc,
                                              input,
                                              output_desc,
                                              output,
                                              workspace_ptr,
                                              workspace_size));
4125 4126 4127 4128 4129
  if (perm_desc) {
    PADDLE_ENFORCE_MLU_SUCCESS(cnnlDestroyTransposeDescriptor(perm_desc));
  }
}

4130 4131 4132 4133 4134 4135 4136
/* static */ void MLUCnnl::TrilTriu(const ExecutionContext& ctx,
                                    const int diagonal_k,
                                    const bool tri_up_mode,
                                    const cnnlTensorDescriptor_t input_desc,
                                    const void* input,
                                    const cnnlTensorDescriptor_t output_desc,
                                    void* output) {
4137
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
4138 4139
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlTri(
      handle, diagonal_k, tri_up_mode, input_desc, input, output_desc, output));
4140 4141
}

4142
/* static */ void MLUCnnl::MatrixBandPart(
4143 4144 4145 4146 4147 4148
    const ExecutionContext& ctx,
    const cnnlTensorDescriptor_t data_desc,
    const void* input,
    const int num_lower,
    const int num_upper,
    void* output) {
4149 4150
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

4151 4152
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlMatrixBandPart(
      handle, data_desc, input, num_lower, num_upper, output));
4153 4154 4155 4156
}

/* static */ void MLUCnnl::NumTrue(const ExecutionContext& ctx,
                                   const cnnlTensorDescriptor_t x_desc,
4157 4158
                                   const void* x,
                                   Tensor index,
4159 4160 4161 4162 4163 4164 4165 4166 4167 4168 4169 4170 4171 4172 4173 4174 4175 4176
                                   uint32_t* num_true) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size = 0;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetNumTrueWorkspaceSize(handle, x_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  index = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* index_ptr = index.mutable_data(ctx.GetPlace());

  PADDLE_ENFORCE_MLU_SUCCESS(cnnlNumTrue(
      handle, x_desc, x, static_cast<uint32_t*>(index_ptr), num_true));
}

/* static */ void MLUCnnl::Where(const ExecutionContext& ctx,
                                 const cnnlTensorDescriptor_t x_desc,
4177 4178
                                 const void* x,
                                 const uint32_t* strides,
4179
                                 const uint32_t* index,
4180 4181
                                 const cnnlTensorDescriptor_t y_desc,
                                 int* y,
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                                 const bool as_tuple) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlWhere(handle, x_desc, x, strides, index, y_desc, y, as_tuple));
}

4189 4190 4191 4192 4193 4194 4195 4196 4197 4198
/* static */ void MLUCnnl::InTopK(const ExecutionContext& ctx,
                                  const cnnlTensorDescriptor_t predictions_desc,
                                  const void* predictions,
                                  const cnnlTensorDescriptor_t targets_desc,
                                  const void* targets,
                                  const cnnlTensorDescriptor_t k_desc,
                                  const void* k,
                                  const int k_int,
                                  const cnnlTensorDescriptor_t output_desc,
                                  void* output) {
4199
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
4200 4201 4202 4203 4204 4205 4206 4207 4208 4209
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlInTopK(handle,
                                        predictions_desc,
                                        predictions,
                                        targets_desc,
                                        targets,
                                        k_desc,
                                        k,
                                        k_int,
                                        output_desc,
                                        output));
4210 4211
}

4212 4213 4214 4215 4216 4217 4218 4219 4220 4221
/* static */ void MLUCnnl::ScatterNd(const ExecutionContext& ctx,
                                     cnnlScatterNdMode_t mode,
                                     const cnnlTensorDescriptor_t indices_desc,
                                     const void* indices,
                                     const cnnlTensorDescriptor_t updates_desc,
                                     const void* updates,
                                     const cnnlTensorDescriptor_t input_desc,
                                     const void* input,
                                     const cnnlTensorDescriptor_t output_desc,
                                     void* output) {
4222
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
4223 4224 4225 4226 4227 4228 4229 4230 4231 4232
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlScatterNd_v2(handle,
                                              mode,
                                              indices_desc,
                                              indices,
                                              updates_desc,
                                              updates,
                                              input_desc,
                                              input,
                                              output_desc,
                                              output));
4233 4234
}

4235 4236 4237 4238 4239 4240 4241 4242
/* static */ void MLUCnnl::BitWise(const ExecutionContext& ctx,
                                   const cnnlBitComputeOp_t optype,
                                   const cnnlTensorDescriptor_t input1_desc,
                                   const void* input1,
                                   const cnnlTensorDescriptor_t input2_desc,
                                   const void* input2,
                                   const cnnlTensorDescriptor_t output_desc,
                                   void* output) {
4243 4244 4245 4246 4247 4248 4249 4250 4251 4252
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetBitComputeWorkspaceSize(
      handle, input1_desc, input2_desc, output_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

4253 4254 4255 4256 4257 4258 4259 4260 4261 4262
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBitCompute_v2(handle,
                                               optype,
                                               input1_desc,
                                               input1,
                                               input2_desc,
                                               input2,
                                               output_desc,
                                               output,
                                               workspace_ptr,
                                               workspace_size));
4263 4264 4265 4266 4267
}

/* static */ void MLUCnnl::QR(const ExecutionContext& ctx,
                              const cnnlTensorDescriptor_t a_desc,
                              const void* a,
4268 4269 4270 4271
                              const cnnlTensorDescriptor_t q_desc,
                              void* q,
                              const cnnlTensorDescriptor_t r_desc,
                              void* r,
4272 4273 4274 4275 4276 4277 4278 4279 4280 4281 4282
                              const bool some) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);
  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlGetQRWorkspaceSize(handle, a_desc, some, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

4283 4284 4285 4286 4287 4288 4289 4290 4291 4292
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlQR(handle,
                                    a_desc,
                                    a,
                                    q_desc,
                                    q,
                                    r_desc,
                                    r,
                                    workspace_ptr,
                                    workspace_size,
                                    some));
4293 4294 4295 4296 4297 4298 4299 4300 4301 4302 4303
}

/* static */ void MLUCnnl::Reciprocal(const ExecutionContext& ctx,
                                      const cnnlTensorDescriptor_t input_desc,
                                      const void* input,
                                      const cnnlTensorDescriptor_t output_desc,
                                      void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  PADDLE_ENFORCE_MLU_SUCCESS(
      cnnlReciprocal(handle, input_desc, input, output_desc, output));
4304 4305
}

4306 4307 4308 4309 4310 4311 4312 4313 4314 4315
/* static */ void MLUCnnl::BceLoss(const ExecutionContext& ctx,
                                   const cnnlBceLossReduction_t reduction,
                                   const cnnlTensorDescriptor_t input_desc,
                                   const void* input,
                                   const cnnlTensorDescriptor_t target_desc,
                                   const void* target,
                                   const cnnlTensorDescriptor_t weight_desc,
                                   const void* weight,
                                   const cnnlTensorDescriptor_t output_desc,
                                   void* output) {
4316 4317 4318 4319 4320 4321 4322 4323 4324 4325 4326
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetBceLossWorkspaceSize(
      handle, input_desc, weight_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

4327 4328 4329 4330 4331 4332 4333 4334 4335 4336 4337 4338
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBceLoss(handle,
                                         input_desc,
                                         input,
                                         target_desc,
                                         target,
                                         weight_desc,
                                         weight,
                                         reduction,
                                         workspace_ptr,
                                         workspace_size,
                                         output_desc,
                                         output));
4339 4340 4341
}

/* static */ void MLUCnnl::BceLossBackward(
4342 4343 4344 4345 4346 4347 4348 4349 4350 4351 4352 4353
    const ExecutionContext& ctx,
    const cnnlBceLossReduction_t reduction,
    const cnnlTensorDescriptor_t grad_desc,
    const void* grad,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t target_desc,
    const void* target,
    const cnnlTensorDescriptor_t weight_desc,
    const void* weight,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
4354 4355 4356 4357 4358 4359 4360 4361 4362 4363 4364
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetBceLossBackwardWorkspaceSize(
      handle, target_desc, weight_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

4365 4366 4367 4368 4369 4370 4371 4372 4373 4374 4375 4376 4377 4378
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBceLossBackward(handle,
                                                 grad_desc,
                                                 grad,
                                                 input_desc,
                                                 input,
                                                 target_desc,
                                                 target,
                                                 weight_desc,
                                                 weight,
                                                 reduction,
                                                 workspace_ptr,
                                                 workspace_size,
                                                 output_desc,
                                                 output));
4379 4380
}

4381
/* static */ void MLUCnnl::EmbeddingForward(
4382 4383 4384 4385 4386 4387 4388 4389
    const ExecutionContext& ctx,
    const int padding_idx,
    const cnnlTensorDescriptor_t weight_desc,
    const void* weight,
    const cnnlTensorDescriptor_t indices_desc,
    const int* indices,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
4390 4391
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

4392 4393 4394 4395 4396 4397 4398 4399 4400 4401
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlEmbeddingForward_v2(handle,
                                                     weight_desc,
                                                     weight,
                                                     indices_desc,
                                                     indices,
                                                     padding_idx,
                                                     nullptr /*max_norm*/,
                                                     nullptr /*norm_type*/,
                                                     output_desc,
                                                     output));
4402 4403
}

4404
/* static */ void MLUCnnl::Transform(const ExecutionContext& ctx,
4405 4406
                                     const void* alpha,
                                     const void* beta,
4407 4408 4409 4410 4411 4412 4413
                                     const cnnlTensorDescriptor_t input_desc,
                                     const void* input,
                                     const cnnlTensorDescriptor_t output_desc,
                                     void* output) {
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  const cnnlPointerMode_t pointer_mode = CNNL_POINTER_MODE_HOST;
4414 4415 4416 4417 4418 4419 4420 4421
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlTransform_v2(handle,
                                              pointer_mode,
                                              alpha,
                                              input_desc,
                                              input,
                                              beta,
                                              output_desc,
                                              output));
4422 4423
}

4424
/* static */ void MLUCnnl::EmbeddingBackward(
4425 4426 4427 4428 4429 4430 4431 4432 4433
    const ExecutionContext& ctx,
    int padding_idx,
    bool scale_grad_by_freq,
    const cnnlTensorDescriptor_t indices_desc,
    const void* indices,
    const cnnlTensorDescriptor_t diff_desc,
    const void* diff,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
4434 4435 4436 4437 4438 4439 4440 4441 4442 4443 4444
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetEmbeddingBackwardWorkspaceSize(
      handle, diff_desc, output_desc, scale_grad_by_freq, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

4445 4446 4447 4448 4449 4450 4451 4452 4453 4454 4455
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlEmbeddingBackward(handle,
                                                   padding_idx,
                                                   scale_grad_by_freq,
                                                   indices_desc,
                                                   indices,
                                                   diff_desc,
                                                   diff,
                                                   workspace_ptr,
                                                   workspace_size,
                                                   output_desc,
                                                   output));
4456 4457
}

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/* static */ void MLUCnnl::BceWithLogits(
4459 4460 4461 4462 4463 4464 4465 4466 4467 4468 4469 4470
    const ExecutionContext& ctx,
    cnnlBceWithLogitsReduction_t reduction,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t target_desc,
    const void* target,
    const cnnlTensorDescriptor_t weight_desc,
    const void* weight,
    const cnnlTensorDescriptor_t pos_weight_desc,
    const void* pos_weight,
    const cnnlTensorDescriptor_t output_desc,
    void* output) {
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  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetBceWithLogitsWorkspaceSize(
      handle, input_desc, weight_desc, pos_weight_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

  const cnnlComputationPreference_t prefer = CNNL_COMPUTATION_HIGH_PRECISION;
4483 4484 4485 4486 4487 4488 4489 4490 4491 4492 4493 4494 4495 4496 4497
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBceWithLogits_v2(handle,
                                                  prefer,
                                                  input_desc,
                                                  input,
                                                  target_desc,
                                                  target,
                                                  weight_desc,
                                                  weight,
                                                  pos_weight_desc,
                                                  pos_weight,
                                                  reduction,
                                                  workspace_ptr,
                                                  workspace_size,
                                                  output_desc,
                                                  output));
F
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}

/* static */ void MLUCnnl::BceWithLogitsBackward(
4501 4502 4503 4504 4505 4506 4507 4508 4509 4510 4511 4512 4513 4514
    const ExecutionContext& ctx,
    cnnlBceWithLogitsReduction_t reduction,
    const cnnlTensorDescriptor_t grad_desc,
    const void* grad,
    const cnnlTensorDescriptor_t input_desc,
    const void* input,
    const cnnlTensorDescriptor_t target_desc,
    const void* target,
    const cnnlTensorDescriptor_t weight_desc,
    const void* weight,
    const cnnlTensorDescriptor_t pos_weight_desc,
    const void* pos_weight,
    const cnnlTensorDescriptor_t diff_input_desc,
    void* diff_input) {
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4515 4516 4517 4518 4519 4520 4521 4522 4523 4524 4525
  cnnlHandle_t handle = GetHandleFromCTX(ctx);

  size_t workspace_size;
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlGetBceWithLogitsBackwardWorkspaceSize(
      handle, target_desc, weight_desc, pos_weight_desc, &workspace_size));

  auto& dev_ctx = GetDevCtxFromCTX(ctx);
  Tensor workspace = ctx.AllocateTmpTensor<int8_t, MLUDeviceContext>(
      {static_cast<int64_t>(workspace_size)}, dev_ctx);
  void* workspace_ptr = workspace.mutable_data(ctx.GetPlace());

4526 4527 4528 4529 4530 4531 4532 4533 4534 4535 4536 4537 4538 4539 4540 4541
  PADDLE_ENFORCE_MLU_SUCCESS(cnnlBceWithLogitsBackward(handle,
                                                       grad_desc,
                                                       grad,
                                                       input_desc,
                                                       input,
                                                       target_desc,
                                                       target,
                                                       weight_desc,
                                                       weight,
                                                       pos_weight_desc,
                                                       pos_weight,
                                                       reduction,
                                                       workspace_ptr,
                                                       workspace_size,
                                                       diff_input_desc,
                                                       diff_input));
F
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}

F
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}  // namespace operators
}  // namespace paddle