conv_transpose_grad_kernel.cu 41.7 KB
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/* Copyright (c) 2022 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. */

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#include "paddle/phi/kernels/conv_transpose_grad_kernel.h"

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#include <algorithm>
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#include "paddle/phi/backends/dynload/cudnn.h"
#include "paddle/phi/common/float16.h"
#include "paddle/phi/core/ddim.h"
#include "paddle/phi/core/kernel_registry.h"
#include "paddle/phi/kernels/cpu/conv_util.h"
#include "paddle/phi/kernels/funcs/batch_norm_utils.h"
#include "paddle/phi/kernels/funcs/math_function.h"
#include "paddle/phi/kernels/funcs/padding.h"
#include "paddle/phi/kernels/funcs/slice.h"
#include "paddle/phi/kernels/transpose_kernel.h"

#ifdef PADDLE_WITH_HIP
#include "paddle/fluid/operators/conv_miopen_helper.h"
#include "paddle/fluid/platform/device/gpu/rocm/miopen_helper.h"
#else
#include "paddle/fluid/operators/conv_cudnn_helper.h"
#include "paddle/fluid/platform/device/gpu/cuda/cudnn_helper.h"
#endif

namespace phi {

using GPUDNNDataLayout = paddle::platform::DataLayout;

template <typename T, typename Context>
void ConvTransposeGradRawGPUDNNKernel(const Context& ctx,
                                      const DenseTensor& x,
                                      const DenseTensor& filter,
                                      const DenseTensor& dout,
                                      const std::vector<int>& strides,
                                      const std::vector<int>& paddings,
                                      const std::string& padding_algorithm,
                                      int groups,
                                      const std::vector<int>& dilations,
                                      const std::string& data_format,
                                      DenseTensor* dx,
                                      DenseTensor* dfilter) {
  const T* filter_data = filter.data<T>();
  std::vector<int> paddings_ = paddings;
  std::vector<int> dilations_ =
      dilations;  // cudnn v5 does not support dilations
  const GPUDNNDataLayout data_layout =
      (data_format != "NHWC" ? GPUDNNDataLayout::kNCHW
                             : GPUDNNDataLayout::kNHWC);

  // if channel_last, transpose to channel_first
  DenseTensor x_transpose;
  DenseTensor dout_transpose;
  std::vector<int> x_vec = vectorize<int>(x.dims());
  std::vector<int> out_vec = vectorize<int>(dout.dims());
  if (data_layout == GPUDNNDataLayout::kNHWC) {
    if (strides.size() == 2U) {
      std::vector<int> axis = {0, 3, 1, 2};
      for (size_t i = 0; i < axis.size(); ++i) {
        x_vec[i] = x.dims()[axis[i]];
        out_vec[i] = dout.dims()[axis[i]];
      }
      x_transpose = Transpose<T, Context>(ctx, x, axis);
      dout_transpose = Transpose<T, Context>(ctx, dout, axis);
    } else if (strides.size() == 3U) {
      std::vector<int> axis = {0, 4, 1, 2, 3};
      for (size_t i = 0; i < axis.size(); ++i) {
        x_vec[i] = x.dims()[axis[i]];
        out_vec[i] = dout.dims()[axis[i]];
      }
      x_transpose = Transpose<T, Context>(ctx, x, axis);
      dout_transpose = Transpose<T, Context>(ctx, dout, axis);
    }
  } else {
    x_transpose = x;
    dout_transpose = dout;
  }

  // update padding and dilation
  auto x_dims = x_transpose.dims();
  auto filter_dims = filter.dims();
  DDim x_data_dims;
  x_data_dims = slice_ddim(x_dims, 2, x_dims.size());
  DDim filter_data_dims = slice_ddim(filter_dims, 2, filter_dims.size());
  std::vector<int> ksize = vectorize<int>(filter_data_dims);
  UpdatePaddingAndDilation(
      &paddings_, &dilations_, padding_algorithm, x_data_dims, strides, ksize);

  int data_dim = strides.size();  // 2d or 3d
  bool is_sys_pad = funcs::IsSymmetricPadding(paddings_, data_dim);

  std::vector<int> x_pad(x_dims.size() * 2, 0);
  DenseTensor transformed_dout;
  std::vector<int> padding_common(data_dim, 0);
  if (!is_sys_pad) {
    std::vector<int> padding_diff(data_dim);
    std::vector<int> new_dout_shape_vec(data_dim + 2);
    new_dout_shape_vec[0] = dout_transpose.dims()[0];
    new_dout_shape_vec[1] = dout_transpose.dims()[1];

    for (size_t i = 0; i < data_dim; ++i) {
      padding_diff[i] = std::abs(paddings_[2 * i] - paddings_[2 * i + 1]);
      padding_common[i] = std::min(paddings_[2 * i], paddings_[2 * i + 1]);
      new_dout_shape_vec[i + 2] =
          dout_transpose.dims()[i + 2] + padding_diff[i];
      x_pad[2 * i + 4] = paddings_[2 * i] - padding_common[i];
      x_pad[2 * i + 4 + 1] = paddings_[2 * i + 1] - padding_common[i];
    }

    transformed_dout.Resize(make_ddim(new_dout_shape_vec));
    ctx.template Alloc<T>(&transformed_dout);

    const int rank = x_transpose.dims().size();
    T pad_value(0.0);
    switch (rank) {
      case 4: {
        funcs::PadFunction<Context, T, 4>(
            ctx, x_pad, dout_transpose, pad_value, &transformed_dout);
      } break;
      case 5: {
        funcs::PadFunction<Context, T, 5>(
            ctx, x_pad, dout_transpose, pad_value, &transformed_dout);
      } break;
      default:
        PADDLE_THROW(errors::InvalidArgument(
            "Op(ConvTranspose) only supports 4-D or 5-D x DenseTensor."));
    }
  } else {
    transformed_dout = dout_transpose;
    if (paddings_.size() == data_dim) {
      for (size_t i = 0; i < data_dim; ++i) {
        padding_common[i] = paddings_[i];
      }
    } else {
      for (size_t i = 0; i < data_dim; ++i) {
        padding_common[i] = paddings_[2 * i];
      }
    }
  }

  const T* x_data = x_transpose.data<T>();
  const T* dout_data = transformed_dout.data<T>();
  out_vec = vectorize<int>(transformed_dout.dims());

  // ------------------- cudnn descriptors ---------------------
  GPUDNNDataLayout layout;

  if (strides.size() == 2U) {
    layout = GPUDNNDataLayout::kNCHW;
  } else {
    layout = GPUDNNDataLayout::kNCDHW;
  }

  int iwo_groups = groups;
  int c_groups = 1;
#if defined(PADDLE_WITH_HIP) || CUDNN_VERSION_MIN(7, 0, 1)
  iwo_groups = 1;
  c_groups = groups;
  groups = 1;
#endif

  auto dtype = paddle::platform::CudnnDataType<T>::type;

  paddle::operators::ConvArgs args1{&transformed_dout,
                                    &filter,
                                    &x_transpose,
                                    strides,
                                    padding_common,
                                    dilations_,
                                    dtype};
  paddle::operators::ConvArgs args2{&transformed_dout,
                                    &filter,
                                    &x_transpose,
                                    strides,
                                    padding_common,
                                    dilations_,
                                    dtype};

#ifdef PADDLE_WITH_HIP
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  paddle::operators::SearchResult<miopenConvFwdAlgorithm_t> fwd_result;
  paddle::operators::SearchResult<miopenConvBwdWeightsAlgorithm_t>
      filter_result;
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#else
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  paddle::operators::SearchResult<cudnnConvolutionFwdAlgo_t> fwd_result;
  paddle::operators::SearchResult<cudnnConvolutionBwdFilterAlgo_t>
      filter_result;
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#endif

  auto layout_tensor = paddle::platform::GetCudnnTensorFormat(layout);
  size_t workspace_size = 0;
  auto handle = ctx.cudnn_handle();
  bool deterministic = FLAGS_cudnn_deterministic;
  T* dx_data = nullptr;
  T* dfilter_data = nullptr;

  if (dx) {
    dx_data = ctx.template Alloc<T>(dx);
    args1.handle = handle;
    args1.idesc.set(transformed_dout, iwo_groups);
    args1.wdesc.set(filter, layout_tensor, iwo_groups);
    args1.odesc.set(x_transpose, iwo_groups);
    args1.cdesc.set(dtype,
                    padding_common,
                    strides,
                    dilations_,
                    paddle::platform::AllowTF32Cudnn(),
                    c_groups);
#ifdef PADDLE_WITH_HIP
    using search1 =
        paddle::operators::SearchAlgorithm<miopenConvFwdAlgorithm_t>;
    workspace_size = std::max(workspace_size, search1::GetWorkspaceSize(args1));
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    fwd_result.algo =
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        search1::Find<T>(args1, false, deterministic, workspace_size, ctx);
#else
    using search1 =
        paddle::operators::SearchAlgorithm<cudnnConvolutionFwdAlgoPerf_t>;
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    fwd_result = search1::Find<T>(args1, false, deterministic, ctx);
    workspace_size = std::max(
        workspace_size, search1::GetWorkspaceSize(args1, fwd_result.algo));
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#endif
  }

  if (dfilter) {
    dfilter_data = ctx.template Alloc<T>(dfilter);
    args2.handle = handle;
    args2.idesc.set(transformed_dout, iwo_groups);
    args2.wdesc.set(*dfilter, layout_tensor, iwo_groups);
    args2.odesc.set(x_transpose, iwo_groups);
    args2.cdesc.set(dtype,
                    padding_common,
                    strides,
                    dilations_,
                    paddle::platform::AllowTF32Cudnn(),
                    c_groups);
#ifdef PADDLE_WITH_HIP
    using search2 =
        paddle::operators::SearchAlgorithm<miopenConvBwdWeightsAlgorithm_t>;
    workspace_size = std::max(workspace_size, search2::GetWorkspaceSize(args2));
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    filter_result.algo =
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        search2::Find<T>(args2, false, deterministic, workspace_size, ctx);
#else
    using search2 =
        paddle::operators::SearchAlgorithm<cudnnConvolutionBwdFilterAlgoPerf_t>;
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    filter_result = search2::Find<T>(args2, false, deterministic, ctx);
    workspace_size = std::max(
        workspace_size, search2::GetWorkspaceSize(args2, filter_result.algo));
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#endif
  }

  // ------------------- cudnn conv backward data ---------------------
  // FIxME(typhoonzero): template type T may not be the same as cudnn call.
  int x_offset = x.numel() / x.dims()[0] / groups;
  int dout_offset =
      transformed_dout.numel() / transformed_dout.dims()[0] / groups;
  int filter_offset = filter.numel() / groups;
  paddle::operators::ScalingParamType<T> alpha = 1.0f;
  paddle::operators::ScalingParamType<T> beta = 0.0f;
  auto workspace_handle = ctx.cudnn_workspace_handle();
  if (dx) {
    // Because beta is zero, it is unnecessary to reset dx.
    for (int g = 0; g < groups; g++) {
#ifdef PADDLE_WITH_HIP
      auto cudnn_func = [&](void* cudnn_workspace) {
        PADDLE_ENFORCE_GPU_SUCCESS(
            dynload::miopenConvolutionForward(handle,
                                              &alpha,
                                              args1.idesc.desc(),
                                              dout_data + dout_offset * g,
                                              args1.wdesc.desc(),
                                              filter_data + filter_offset * g,
                                              args1.cdesc.desc(),
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                                              fwd_result.algo,
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                                              &beta,
                                              args1.odesc.desc(),
                                              dx_data + x_offset * g,
                                              cudnn_workspace,
                                              workspace_size));
      };
#else   // PADDLE_WITH_HIP
      auto cudnn_func = [&](void* cudnn_workspace) {
        PADDLE_ENFORCE_GPU_SUCCESS(
            dynload::cudnnConvolutionForward(handle,
                                             &alpha,
                                             args1.idesc.desc(),
                                             dout_data + dout_offset * g,
                                             args1.wdesc.desc(),
                                             filter_data + filter_offset * g,
                                             args1.cdesc.desc(),
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                                             fwd_result.algo,
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                                             cudnn_workspace,
                                             workspace_size,
                                             &beta,
                                             args1.odesc.desc(),
                                             dx_data + x_offset * g));
      };
#endif  // PADDLE_WITH_HIP
      workspace_handle.RunFunc(cudnn_func, workspace_size);
    }

    if (data_layout == GPUDNNDataLayout::kNHWC) {
      DenseTensor dx_transpose;
      DenseTensor dx_nchw;
      dx_nchw.ShareDataWith(*dx);
      dx_nchw.Resize(make_ddim(x_vec));
      if (strides.size() == 2U) {
        std::vector<int> axis = {0, 2, 3, 1};
        dx_transpose = Transpose<T, Context>(ctx, dx_nchw, axis);
        *dx = dx_transpose;
      } else if (strides.size() == 3U) {
        std::vector<int> axis = {0, 2, 3, 4, 1};
        dx_transpose = Transpose<T, Context>(ctx, dx_nchw, axis);
        *dx = dx_transpose;
      }
    }
  }

  // ------------------- cudnn conv backward filter ---------------------
  if (dfilter) {
    // Because beta is zero, it is unnecessary to reset dfilter.
    // Gradient with respect to the filter
    for (int g = 0; g < groups; g++) {
#ifdef PADDLE_WITH_HIP
      auto cudnn_func = [&](void* cudnn_workspace) {
        PADDLE_ENFORCE_GPU_SUCCESS(dynload::miopenConvolutionBackwardWeights(
            handle,
            &alpha,
            args2.odesc.desc(),
            x_data + x_offset * g,
            args2.idesc.desc(),
            dout_data + dout_offset * g,
            args2.cdesc.desc(),
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            filter_result.algo,
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            &beta,
            args2.wdesc.desc(),
            dfilter_data + filter_offset * g,
            cudnn_workspace,
            workspace_size));
      };
#else   // PADDLE_WITH_HIP
      auto cudnn_func = [&](void* cudnn_workspace) {
        PADDLE_ENFORCE_GPU_SUCCESS(dynload::cudnnConvolutionBackwardFilter(
            handle,
            &alpha,
            args2.idesc.desc(),
            dout_data + dout_offset * g,
            args2.odesc.desc(),
            x_data + x_offset * g,
            args2.cdesc.desc(),
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            filter_result.algo,
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            cudnn_workspace,
            workspace_size,
            &beta,
            args2.wdesc.desc(),
            dfilter_data + filter_offset * g));
      };
#endif  // PADDLE_WITH_HIP
      workspace_handle.RunFunc(cudnn_func, workspace_size);
    }
  }
}

template <typename T, typename Context>
void Conv2dTransposeGradGPUDNNKernel(const Context& ctx,
                                     const DenseTensor& x,
                                     const DenseTensor& filter,
                                     const DenseTensor& dout,
                                     const std::vector<int>& strides,
                                     const std::vector<int>& paddings_,
                                     const std::vector<int>& output_padding,
                                     const std::vector<int>& output_size,
                                     const std::string& padding_algorithm,
                                     int groups,
                                     const std::vector<int>& dilations_,
                                     const std::string& data_format,
                                     DenseTensor* dx,
                                     DenseTensor* dfilter) {
  ConvTransposeGradRawGPUDNNKernel<T, Context>(ctx,
                                               x,
                                               filter,
                                               dout,
                                               strides,
                                               paddings_,
                                               padding_algorithm,
                                               groups,
                                               dilations_,
                                               data_format,
                                               dx,
                                               dfilter);
}

/*
 * Inputs:  I, filter, dout, ddI, ddfilter
 * Outputs: ddout, dfilter, dI
 * ddo = conv_bp_data(filter, ddI) + conv_bp_data(ddfilter, I)
 * dfilter = conv_bp_filter(dout, ddI)
 * dI = conv(dout, ddfilter)
 */
template <typename T, typename Context>
void Conv2dTransposeDoubleGradGPUDNNKernel(
    const Context& ctx,
    const DenseTensor& x,
    const DenseTensor& filter,
    const DenseTensor& dout,
    const DenseTensor& ddx,
    const DenseTensor& ddfilter,
    const std::vector<int>& strides,
    const std::vector<int>& paddings,
    const std::vector<int>& output_padding,
    const std::vector<int>& output_size,
    const std::string& padding_algorithm,
    int groups,
    const std::vector<int>& dilations,
    const std::string& data_format,
    DenseTensor* dx,
    DenseTensor* dfilter,
    DenseTensor* ddout) {
  if (dx) {
    ctx.template Alloc<T>(dx);
  }
  if (dfilter) {
    ctx.template Alloc<T>(dfilter);
  }
  if (ddout) {
    ctx.template Alloc<T>(ddout);
    funcs::SetConstant<Context, T> set_zero;
    set_zero(ctx, ddout, static_cast<T>(0));
  }

  const T* filter_ = filter.data<T>();
  const T* dout_ = dout.data<T>();
  const T* ddx_ = nullptr;
  const T* ddfilter_ = nullptr;
  T* dx_ = nullptr;
  T* dfilter_ = nullptr;
  T* ddout_ = nullptr;
  T* transformed_dx_ = nullptr;

  std::vector<int> paddings_ = paddings;
  std::vector<int> dilations_ = dilations;

  bool deterministic = FLAGS_cudnn_deterministic;
  const bool channel_last = (data_format == "NHWC" || data_format == "NDHWC");

  // transform DenseTensors to channel first-----------
  DenseTensor transformed_x_channel(x.type());
  DenseTensor transformed_dout_channel(dout.type());
  DenseTensor transformed_ddx_channel(x.type());

  DenseTensor transformed_dx_channel(x.type());
  DenseTensor transformed_ddout_channel(dout.type());

  if (channel_last) {
    ResizeToChannelFirst<Context, T>(ctx, &x, &transformed_x_channel);
    TransToChannelFirst<Context, T>(ctx, &x, &transformed_x_channel);

    ResizeToChannelFirst<Context, T>(ctx, &dout, &transformed_dout_channel);
    TransToChannelFirst<Context, T>(ctx, &dout, &transformed_dout_channel);

    ResizeToChannelFirst<Context, T>(ctx, &ddx, &transformed_ddx_channel);
    TransToChannelFirst<Context, T>(ctx, &ddx, &transformed_ddx_channel);

    if (dx) {
      ResizeToChannelFirst<Context, T>(ctx, dx, &transformed_dx_channel);
      ctx.template Alloc<T>(&transformed_dx_channel);
    }
    if (ddout) {
      ResizeToChannelFirst<Context, T>(ctx, ddout, &transformed_ddout_channel);
    }
  } else {
    transformed_x_channel = x;
    transformed_dout_channel = dout;
    transformed_ddx_channel = ddx;

    if (dx) {
      transformed_dx_channel = *dx;
    }
  }
  std::vector<int> out_vec = vectorize<int>(transformed_dout_channel.dims());

  auto x_dims = transformed_x_channel.dims();
  auto filter_dims = filter.dims();
  DDim x_data_dims = slice_ddim(x_dims, 2, x_dims.size());
  DDim filter_data_dims = slice_ddim(filter_dims, 2, filter_dims.size());
  std::vector<int> ksize = vectorize<int>(filter_data_dims);
  UpdatePaddingAndDilation(
      &paddings_, &dilations_, padding_algorithm, x_data_dims, strides, ksize);

  int data_dim = strides.size();  // 2d or 3d
  bool is_sys_pad = funcs::IsSymmetricPadding(paddings_, data_dim);
  DenseTensor transformed_x(x.type());
  DenseTensor transformed_ddx(x.type());

  DenseTensor transformed_dout(dout.type());

  std::vector<int> padding_common(data_dim, 0);
  std::vector<int> input_pad(x.dims().size() * 2, 0);

  if (!is_sys_pad) {
    // get pad
    std::vector<int> padding_diff(data_dim);
    std::vector<int> new_input_shape_vec(data_dim + 2);
    std::vector<int> new_output_grad_shape_vec(data_dim + 2);

    new_input_shape_vec[0] = transformed_x_channel.dims()[0];
    new_input_shape_vec[1] = transformed_x_channel.dims()[1];

    new_output_grad_shape_vec[0] = transformed_dout_channel.dims()[0];
    new_output_grad_shape_vec[1] = transformed_dout_channel.dims()[1];

    for (size_t i = 0; i < data_dim; ++i) {
      padding_diff[i] = std::abs(paddings_[2 * i] - paddings_[2 * i + 1]);
      padding_common[i] = std::min(paddings_[2 * i], paddings_[2 * i + 1]);
      new_input_shape_vec[i + 2] =
          transformed_x_channel.dims()[i + 2] + padding_diff[i];

      new_output_grad_shape_vec[i + 2] =
          transformed_dout_channel.dims()[i + 2] + padding_diff[i];

      input_pad[2 * i + 4] = paddings_[2 * i] - padding_common[i];
      input_pad[2 * i + 4 + 1] = paddings_[2 * i + 1] - padding_common[i];
    }
    DDim new_input_shape(make_ddim(new_input_shape_vec));
    transformed_x.Resize(new_input_shape);
    transformed_ddx.Resize(new_input_shape);
    transformed_dout.Resize(make_ddim(new_output_grad_shape_vec));

    ctx.template Alloc<T>(&transformed_x);
    ctx.template Alloc<T>(&transformed_ddx);
    ctx.template Alloc<T>(&transformed_dout);

    // pad for input
    const int rank = x.dims().size();
    T pad_value(0.0);
    switch (rank) {
      case 4: {
        funcs::PadFunction<Context, T, 4>(
            ctx, input_pad, transformed_x_channel, pad_value, &transformed_x);
        funcs::PadFunction<Context, T, 4>(ctx,
                                          input_pad,
                                          transformed_dout_channel,
                                          pad_value,
                                          &transformed_dout);
        funcs::PadFunction<Context, T, 4>(ctx,
                                          input_pad,
                                          transformed_ddx_channel,
                                          pad_value,
                                          &transformed_ddx);
      } break;
      case 5: {
        funcs::PadFunction<Context, T, 5>(
            ctx, input_pad, transformed_x_channel, pad_value, &transformed_x);
        funcs::PadFunction<Context, T, 5>(ctx,
                                          input_pad,
                                          transformed_ddx_channel,
                                          pad_value,
                                          &transformed_ddx);
      } break;
      default:
        PADDLE_THROW(errors::InvalidArgument(
            "ConvOp only support tensors with 4 or 5 dimensions."));
    }
  } else {
    transformed_x = transformed_x_channel;
    transformed_dout = transformed_dout_channel;
    transformed_ddx = transformed_ddx_channel;

    if (paddings_.size() == data_dim) {
      for (size_t i = 0; i < data_dim; ++i) {
        padding_common[i] = paddings_[i];
      }
    } else {
      for (size_t i = 0; i < data_dim; ++i) {
        padding_common[i] = paddings_[2 * i];
      }
    }
  }

  std::vector<int64_t> starts(data_dim, 0);
  std::vector<int64_t> ends(data_dim, 0);
  std::vector<int64_t> axes(data_dim, 0);
  for (size_t i = 0; i < data_dim; ++i) {
    starts[i] = input_pad[2 * i + 4] * (strides[i] + 1);
    ends[i] = starts[i] + out_vec[i + 2];
    axes[i] = i + 2;
  }

  std::vector<int> transformed_out_vec = out_vec;
  for (size_t i = 0; i < data_dim; ++i) {
    transformed_out_vec[i + 2] =
        out_vec[i + 2] +
        (input_pad[2 * i + 4] + input_pad[2 * i + 5]) * strides[i] -
        2 * padding_common[i] + paddings_[2 * i] + paddings_[2 * i + 1];
  }

  if (!is_sys_pad) {
    transformed_ddout_channel.Resize(make_ddim(transformed_out_vec));
    ctx.template Alloc<T>(&transformed_ddout_channel);
  } else {
    ctx.template Alloc<T>(ddout);
    transformed_ddout_channel = *ddout;
    transformed_ddout_channel.Resize(make_ddim(transformed_out_vec));
  }

  const T* x_ = transformed_x.data<T>();

  int iwo_group = groups;
  int c_group = 1;
#if defined(PADDLE_WITH_HIP) || CUDNN_VERSION_MIN(7, 0, 1)
  iwo_group = 1;
  c_group = groups;
  groups = 1;
#endif
  auto dtype = paddle::platform::CudnnDataType<T>::type;

  auto handle = ctx.cudnn_handle();

  paddle::operators::ConvArgs args1{&transformed_ddout_channel,
                                    &filter,
                                    &transformed_ddx,
                                    strides,
                                    padding_common,
                                    dilations_,
                                    dtype};
  paddle::operators::ConvArgs args2{&transformed_ddout_channel,
                                    &ddfilter,
                                    &transformed_x,
                                    strides,
                                    padding_common,
                                    dilations_,
                                    dtype};

  paddle::operators::ConvArgs args3{&transformed_dout,
                                    dfilter,
                                    &transformed_ddx_channel,
                                    strides,
                                    padding_common,
                                    dilations_,
                                    dtype};
  paddle::operators::ConvArgs args4{&transformed_dout,
                                    &ddfilter,
                                    &transformed_dx_channel,
                                    strides,
                                    padding_common,
                                    dilations_,
                                    dtype};
#ifdef PADDLE_WITH_HIP
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  paddle::operators::SearchResult<miopenConvBwdDataAlgorithm_t> bwd_result1;
  paddle::operators::SearchResult<miopenConvBwdDataAlgorithm_t> bwd_result2;
  paddle::operators::SearchResult<miopenConvBwdWeightsAlgorithm_t>
      filter_result;
  paddle::operators::SearchResult<miopenConvFwdAlgorithm_t> fwd_result;
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#else
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  paddle::operators::SearchResult<cudnnConvolutionBwdDataAlgo_t> bwd_result1;
  paddle::operators::SearchResult<cudnnConvolutionBwdDataAlgo_t> bwd_result2;
  paddle::operators::SearchResult<cudnnConvolutionBwdFilterAlgo_t>
      filter_result;
  paddle::operators::SearchResult<cudnnConvolutionFwdAlgo_t> fwd_result;
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#endif

  auto layout = paddle::platform::GetCudnnTensorFormat(GPUDNNDataLayout::kNCHW);

  // ddo = conv(ddI, filter) + conv(I, ddfilter)
  size_t workspace_size = 0;

  T* transformed_ddout_channel_ = nullptr;

  if (ddout) {
    ddout_ = ddout->data<T>();
    transformed_ddout_channel_ = transformed_ddout_channel.data<T>();

    args1.handle = handle;
    args1.idesc.set(transformed_ddout_channel, iwo_group);
    args1.wdesc.set(filter, layout, iwo_group);
    args1.odesc.set(transformed_ddx, iwo_group);
    args1.cdesc.set(dtype,
                    padding_common,
                    strides,
                    dilations_,
                    paddle::platform::AllowTF32Cudnn(),
                    c_group);
#ifdef PADDLE_WITH_HIP
    using search1 =
        paddle::operators::SearchAlgorithm<miopenConvBwdDataAlgorithm_t>;
    workspace_size = search1::GetWorkspaceSize(args1);
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    bwd_result1.algo =
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        search1::Find<T>(args1, false, deterministic, workspace_size, ctx);
#else
    using search1 =
        paddle::operators::SearchAlgorithm<cudnnConvolutionBwdDataAlgoPerf_t>;
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    bwd_result1 = search1::Find<T>(args1, false, deterministic, ctx);
    workspace_size = search1::GetWorkspaceSize(args1, bwd_result1.algo);
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#endif

    ddfilter_ = ddfilter.data<T>();
    args2.handle = handle;
    args2.idesc.set(transformed_ddout_channel, iwo_group);
    args2.wdesc.set(ddfilter, layout, iwo_group);
    args2.odesc.set(transformed_x, iwo_group);
    args2.cdesc.set(dtype,
                    padding_common,
                    strides,
                    dilations_,
                    paddle::platform::AllowTF32Cudnn(),
                    c_group);
#ifdef PADDLE_WITH_HIP
    using search2 =
        paddle::operators::SearchAlgorithm<miopenConvBwdDataAlgorithm_t>;
    workspace_size = std::max(workspace_size, search2::GetWorkspaceSize(args2));
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    bwd_result2.algo =
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        search2::Find<T>(args2, false, deterministic, workspace_size, ctx);
#else
    using search2 =
        paddle::operators::SearchAlgorithm<cudnnConvolutionBwdDataAlgoPerf_t>;
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    bwd_result2 = search2::Find<T>(args2, false, deterministic, ctx);
    workspace_size = std::max(
        workspace_size, search2::GetWorkspaceSize(args2, bwd_result2.algo));
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#endif
  }

  if (dfilter) {
    dfilter_ = dfilter->data<T>();
    args3.handle = handle;
    args3.idesc.set(transformed_dout, iwo_group);
    args3.wdesc.set(*dfilter, layout, iwo_group);
    args3.odesc.set(transformed_ddx_channel, iwo_group);
    args3.cdesc.set(dtype,
                    padding_common,
                    strides,
                    dilations_,
                    paddle::platform::AllowTF32Cudnn(),
                    c_group);
#ifdef PADDLE_WITH_HIP
    using search3 =
        paddle::operators::SearchAlgorithm<miopenConvBwdWeightsAlgorithm_t>;
    workspace_size = std::max(workspace_size, search3::GetWorkspaceSize(args3));
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    filter_result.algo =
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        search3::Find<T>(args3, false, deterministic, workspace_size, ctx);
#else
    using search3 =
        paddle::operators::SearchAlgorithm<cudnnConvolutionBwdFilterAlgoPerf_t>;
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    filter_result = search3::Find<T>(args3, false, deterministic, ctx);
    workspace_size = std::max(
        workspace_size, search3::GetWorkspaceSize(args3, filter_result.algo));
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#endif
  }

  if (dx) {
    transformed_dx_ = transformed_dx_channel.data<T>();

    args4.handle = handle;
    args4.idesc.set(transformed_dout, iwo_group);
    args4.wdesc.set(ddfilter, layout, iwo_group);
    args4.odesc.set(transformed_dx_channel, iwo_group);
    args4.cdesc.set(dtype,
                    padding_common,
                    strides,
                    dilations_,
                    paddle::platform::AllowTF32Cudnn(),
                    c_group);
#ifdef PADDLE_WITH_HIP
    using search4 =
        paddle::operators::SearchAlgorithm<miopenConvFwdAlgorithm_t>;
    workspace_size = std::max(workspace_size, search4::GetWorkspaceSize(args4));
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    fwd_result.algo =
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        search4::Find<T>(args4, false, deterministic, workspace_size, ctx);
#else
    using search4 =
        paddle::operators::SearchAlgorithm<cudnnConvolutionFwdAlgoPerf_t>;
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    fwd_result = search4::Find<T>(args4, false, deterministic, ctx);
    workspace_size = std::max(
        workspace_size, search4::GetWorkspaceSize(args4, fwd_result.algo));
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#endif
  }

  int i_n, i_c, i_d, i_h, i_w;
  paddle::operators::GetNCDHW(transformed_x.dims(),
                              GPUDNNDataLayout::kNCHW,
                              &i_n,
                              &i_c,
                              &i_d,
                              &i_h,
                              &i_w);

  int o_n, o_c, o_d, o_h, o_w;
  paddle::operators::GetNCDHW(transformed_dout.dims(),
                              GPUDNNDataLayout::kNCHW,
                              &o_n,
                              &o_c,
                              &o_d,
                              &o_h,
                              &o_w);

  int group_offset_in =
      transformed_x.numel() / transformed_x.dims()[0] / groups;
  int group_offset_out =
      transformed_dout.numel() / transformed_dout.dims()[0] / groups;
  int group_offset_filter = filter.numel() / groups;

  paddle::operators::ScalingParamType<T> alpha = 1.0f;
  paddle::operators::ScalingParamType<T> beta = 0.0f;

  auto wkspace_handle = ctx.cudnn_workspace_handle();

  if (ddout) {
    ddx_ = transformed_ddx.data<T>();
    for (int i = 0; i < groups; i++) {
#ifdef PADDLE_WITH_HIP
      wkspace_handle.RunFunc(
          [&](void* workspace_ptr) {
            PADDLE_ENFORCE_GPU_SUCCESS(dynload::miopenConvolutionBackwardData(
                handle,
                &alpha,
                args1.odesc.desc(),
                ddx_ + i * group_offset_in,
                args1.wdesc.desc(),
                filter_ + i * group_offset_filter,
                args1.cdesc.desc(),
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                bwd_result1.algo,
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                &beta,
                args1.idesc.desc(),
                transformed_ddout_channel_ + i * group_offset_out,
                workspace_ptr,
                workspace_size));
          },
          workspace_size);
#else   // PADDLE_WITH_HIP
      wkspace_handle.RunFunc(
          [&](void* workspace_ptr) {
            PADDLE_ENFORCE_GPU_SUCCESS(dynload::cudnnConvolutionBackwardData(
                handle,
                &alpha,
                args1.wdesc.desc(),
                filter_ + i * group_offset_filter,
                args1.odesc.desc(),
                ddx_ + i * group_offset_in,
                args1.cdesc.desc(),
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                bwd_result1.algo,
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                workspace_ptr,
                workspace_size,
                &beta,
                args1.idesc.desc(),
                transformed_ddout_channel_ + i * group_offset_out));
          },
          workspace_size);
#endif  // PADDLE_WITH_HIP
    }

    for (int i = 0; i < groups; i++) {
#ifdef PADDLE_WITH_HIP
      // MIOPEN ONLY support beta to be 0.0f
      DenseTensor conv_x_ddfilter(dout.type());
      conv_x_ddfilter.Resize(transformed_ddout_channel.dims());
      T* conv_x_ddfilter_data = ctx.template Alloc<T>(&conv_x_ddfilter);
      wkspace_handle.RunFunc(
          [&](void* workspace_ptr) {
            PADDLE_ENFORCE_GPU_SUCCESS(dynload::miopenConvolutionBackwardData(
                handle,
                &alpha,
                args2.odesc.desc(),
                x_ + i * group_offset_in,
                args2.wdesc.desc(),
                ddfilter_ + i * group_offset_filter,
                args2.cdesc.desc(),
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                bwd_result2.algo,
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                &beta,
                args2.idesc.desc(),
                conv_x_ddfilter_data + i * group_offset_out,
                workspace_ptr,
                workspace_size));
          },
          workspace_size);
      PADDLE_ENFORCE_GPU_SUCCESS(dynload::miopenOpTensor(
          handle,
          miopenTensorOpAdd,
          &alpha,
          args2.idesc.desc(),
          transformed_ddout_channel_ + i * group_offset_out,
          &alpha,
          args2.idesc.desc(),
          conv_x_ddfilter_data + i * group_offset_out,
          &beta,
          args2.idesc.desc(),
          transformed_ddout_channel_ + i * group_offset_out));
#else   // PADDLE_WITH_HIP
      wkspace_handle.RunFunc(
          [&](void* workspace_ptr) {
            PADDLE_ENFORCE_GPU_SUCCESS(dynload::cudnnConvolutionBackwardData(
                handle,
                &alpha,
                args2.wdesc.desc(),
                ddfilter_ + i * group_offset_filter,
                args2.odesc.desc(),
                x_ + i * group_offset_in,
                args2.cdesc.desc(),
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                bwd_result2.algo,
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                workspace_ptr,
                workspace_size,
                &alpha,
                args2.idesc.desc(),
                transformed_ddout_channel_ + i * group_offset_out));
          },
          workspace_size);
#endif  // PADDLE_WITH_HIP
    }

    if ((!is_sys_pad) && (!channel_last)) {
      if (strides.size() == 2U) {
        funcs::Slice<Context, T, 4>(
            ctx, &transformed_ddout_channel, ddout, starts, ends, axes);
      } else if (!is_sys_pad && strides.size() == 3U) {
        funcs::Slice<Context, T, 5>(
            ctx, &transformed_ddout_channel, ddout, starts, ends, axes);
      }
    } else if ((!is_sys_pad) && (channel_last)) {
      if (strides.size() == 2U) {
        funcs::Slice<Context, T, 4>(ctx,
                                    &transformed_ddout_channel,
                                    &transformed_ddout_channel,
                                    starts,
                                    ends,
                                    axes);
      } else if (!is_sys_pad && strides.size() == 3U) {
        funcs::Slice<Context, T, 5>(ctx,
                                    &transformed_ddout_channel,
                                    &transformed_ddout_channel,
                                    starts,
                                    ends,
                                    axes);
      }

      TransToChannelLast<Context, T>(ctx, &transformed_ddout_channel, ddout);
    }
  }

  T* transformed_dout_channel_ = transformed_dout.data<T>();
  if (dfilter) {
    ddx_ = transformed_ddx_channel.data<T>();
    for (int i = 0; i < groups; i++) {
#ifdef PADDLE_WITH_HIP
      wkspace_handle.RunFunc(
          [&](void* workspace_ptr) {
            PADDLE_ENFORCE_GPU_SUCCESS(
                dynload::miopenConvolutionBackwardWeights(
                    handle,
                    &alpha,
                    args3.odesc.desc(),
                    ddx_ + i * group_offset_in,
                    args3.idesc.desc(),
                    transformed_dout_channel_ + i * group_offset_out,
                    args3.cdesc.desc(),
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                    filter_result.algo,
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                    &beta,
                    args3.wdesc.desc(),
                    dfilter_ + i * group_offset_filter,
                    workspace_ptr,
                    workspace_size));
          },
          workspace_size);
#else   // PADDLE_WITH_HIP
      wkspace_handle.RunFunc(
          [&](void* workspace_ptr) {
            PADDLE_ENFORCE_GPU_SUCCESS(dynload::cudnnConvolutionBackwardFilter(
                handle,
                &alpha,
                args3.idesc.desc(),
                transformed_dout_channel_ + i * group_offset_out,
                args3.odesc.desc(),
                ddx_ + i * group_offset_in,
                args3.cdesc.desc(),
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                filter_result.algo,
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                workspace_ptr,
                workspace_size,
                &beta,
                args3.wdesc.desc(),
                dfilter_ + i * group_offset_filter));
          },
          workspace_size);
#endif  // PADDLE_WITH_HIP
    }
  }

  if (dx) {
    ddfilter_ = ddfilter.data<T>();
    for (int i = 0; i < groups; i++) {
#ifdef PADDLE_WITH_HIP
      wkspace_handle.RunFunc(
          [&](void* workspace_ptr) {
            PADDLE_ENFORCE_GPU_SUCCESS(dynload::miopenConvolutionForward(
                handle,
                &alpha,
                args4.idesc.desc(),
                transformed_dout_channel_ + i * group_offset_out,
                args4.wdesc.desc(),
                ddfilter_ + i * group_offset_filter,
                args4.cdesc.desc(),
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                fwd_result.algo,
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                &beta,
                args4.odesc.desc(),
                transformed_dx_ + i * group_offset_in,
                workspace_ptr,
                workspace_size));
          },
          workspace_size);
#else   // PADDLE_WITH_HIP
      wkspace_handle.RunFunc(
          [&](void* workspace_ptr) {
            PADDLE_ENFORCE_GPU_SUCCESS(dynload::cudnnConvolutionForward(
                handle,
                &alpha,
                args4.idesc.desc(),
                transformed_dout_channel_ + i * group_offset_out,
                args4.wdesc.desc(),
                ddfilter_ + i * group_offset_filter,
                args4.cdesc.desc(),
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                fwd_result.algo,
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                workspace_ptr,
                workspace_size,
                &beta,
                args4.odesc.desc(),
                transformed_dx_ + i * group_offset_in));
          },
          workspace_size);
#endif  // PADDLE_WITH_HIP
    }
    if (channel_last) {
      TransToChannelLast<Context, T>(ctx, &transformed_dx_channel, dx);
    }
  }
}

template <typename T, typename Context>
void Conv3dTransposeGradGPUDNNKernel(const Context& ctx,
                                     const DenseTensor& x,
                                     const DenseTensor& filter,
                                     const DenseTensor& dout,
                                     const std::vector<int>& strides,
                                     const std::vector<int>& paddings_,
                                     const std::vector<int>& output_padding,
                                     const std::vector<int>& output_size,
                                     const std::string& padding_algorithm,
                                     int groups,
                                     const std::vector<int>& dilations_,
                                     const std::string& data_format,
                                     DenseTensor* dx,
                                     DenseTensor* dfilter) {
  ConvTransposeGradRawGPUDNNKernel<T, Context>(ctx,
                                               x,
                                               filter,
                                               dout,
                                               strides,
                                               paddings_,
                                               padding_algorithm,
                                               groups,
                                               dilations_,
                                               data_format,
                                               dx,
                                               dfilter);
}

}  // namespace phi

using float16 = phi::dtype::float16;

#ifdef PADDLE_WITH_HIP
// MIOPEN do not support double
PD_REGISTER_KERNEL(conv2d_transpose_grad,
                   GPUDNN,
                   ALL_LAYOUT,
                   phi::Conv2dTransposeGradGPUDNNKernel,
                   float,
                   float16) {}
PD_REGISTER_KERNEL(conv2d_transpose_grad_grad,
                   GPUDNN,
                   ALL_LAYOUT,
                   phi::Conv2dTransposeDoubleGradGPUDNNKernel,
                   float,
                   float16) {}
PD_REGISTER_KERNEL(conv3d_transpose_grad,
                   GPUDNN,
                   ALL_LAYOUT,
                   phi::Conv3dTransposeGradGPUDNNKernel,
                   float,
                   float16) {}
#else
PD_REGISTER_KERNEL(conv2d_transpose_grad,
                   GPUDNN,
                   ALL_LAYOUT,
                   phi::Conv2dTransposeGradGPUDNNKernel,
                   float,
                   double,
                   float16) {}
PD_REGISTER_KERNEL(conv2d_transpose_grad_grad,
                   GPUDNN,
                   ALL_LAYOUT,
                   phi::Conv2dTransposeDoubleGradGPUDNNKernel,
                   float,
                   double,
                   float16) {}
PD_REGISTER_KERNEL(conv3d_transpose_grad,
                   GPUDNN,
                   ALL_LAYOUT,
                   phi::Conv3dTransposeGradGPUDNNKernel,
                   float,
                   double,
                   float16) {}
#endif