batch_norm_op.cu 20.5 KB
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/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserved.
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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 <algorithm>
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#include <cfloat>
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#include <string>
#include <vector>
#include "cub/cub.cuh"
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#include "paddle/fluid/framework/data_layout.h"
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#include "paddle/fluid/operators/batch_norm_op.h"
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#include "paddle/fluid/operators/math/math_function.h"
#include "paddle/fluid/platform/cudnn_helper.h"
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#include "paddle/fluid/platform/float16.h"
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DECLARE_bool(cudnn_batchnorm_spatial_persistent);
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namespace paddle {
namespace operators {

using Tensor = framework::Tensor;
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using DataLayout = framework::DataLayout;
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template <typename T>
using CudnnDataType = platform::CudnnDataType<T>;
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template <typename T>
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using BatchNormParamType = typename CudnnDataType<T>::BatchNormParamType;
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template <typename T>
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class BatchNormKernel<platform::CUDADeviceContext, T>
    : public framework::OpKernel<T> {
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 public:
  void Compute(const framework::ExecutionContext &ctx) const override {
    PADDLE_ENFORCE(platform::is_gpu_place(ctx.GetPlace()),
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                   "It must use CUDAPlace.");
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    double epsilon = static_cast<double>(ctx.Attr<float>("epsilon"));
    const float momentum = ctx.Attr<float>("momentum");
    const bool is_test = ctx.Attr<bool>("is_test");
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    const bool use_global_stats = ctx.Attr<bool>("use_global_stats");
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    const std::string data_layout_str = ctx.Attr<std::string>("data_layout");
    const DataLayout data_layout =
        framework::StringToDataLayout(data_layout_str);
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    // Get the size for each dimension.
    // NCHW [batch_size, in_channels, in_height, in_width]
    const auto *x = ctx.Input<Tensor>("X");
    const auto &x_dims = x->dims();
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    PADDLE_ENFORCE(x_dims.size() >= 2 && x_dims.size() <= 5,
                   "The Input dim size should be between 2 and 5");
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    int N, C, H, W, D;
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    ExtractNCWHD(x_dims, data_layout, &N, &C, &H, &W, &D);
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    auto *y = ctx.Output<Tensor>("Y");
    y->mutable_data<T>(ctx.GetPlace());

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    // ------------------- cudnn descriptors ---------------------
    cudnnTensorDescriptor_t data_desc_;
    cudnnTensorDescriptor_t bn_param_desc_;
    cudnnBatchNormMode_t mode_;

    CUDNN_ENFORCE(platform::dynload::cudnnCreateTensorDescriptor(&data_desc_));
    CUDNN_ENFORCE(
        platform::dynload::cudnnCreateTensorDescriptor(&bn_param_desc_));

    if (epsilon <= CUDNN_BN_MIN_EPSILON - FLT_EPSILON) {
      LOG(ERROR) << "Provided epsilon is smaller than "
                 << "CUDNN_BN_MIN_EPSILON. Setting it to "
                 << "CUDNN_BN_MIN_EPSILON instead.";
    }
    epsilon = std::max(epsilon, CUDNN_BN_MIN_EPSILON);
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#if CUDNN_VERSION_MIN(7, 0, 0)
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    if (FLAGS_cudnn_batchnorm_spatial_persistent) {
      mode_ = CUDNN_BATCHNORM_SPATIAL_PERSISTENT;
    } else {
      mode_ = CUDNN_BATCHNORM_SPATIAL;
    }
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#else
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    mode_ = CUDNN_BATCHNORM_SPATIAL;
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#endif
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    VLOG(3) << "Setting descriptors.";
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    std::vector<int> dims;
    std::vector<int> strides;
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    if (data_layout == DataLayout::kNCHW) {
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      dims = {N, C, H, W, D};
      strides = {C * H * W * D, H * W * D, W * D, D, 1};
    } else {
      dims = {N, C, H, W, D};
      strides = {H * W * D * C, 1, W * D * C, D * C, C};
    }
    CUDNN_ENFORCE(platform::dynload::cudnnSetTensorNdDescriptor(
        data_desc_, CudnnDataType<T>::type,
        x_dims.size() > 3 ? x_dims.size() : 4, dims.data(), strides.data()));
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    // Note: PERSISTENT not implemented for inference
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    CUDNN_ENFORCE(platform::dynload::cudnnDeriveBNTensorDescriptor(
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        bn_param_desc_, data_desc_, is_test ? CUDNN_BATCHNORM_SPATIAL : mode_));
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    const auto *scale = ctx.Input<Tensor>("Scale");
    const auto *bias = ctx.Input<Tensor>("Bias");

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    auto &dev_ctx = ctx.template device_context<platform::CUDADeviceContext>();
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    auto handle = dev_ctx.cudnn_handle();
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    // Now, depending on whether we are running test or not, we have two paths.
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    if (is_test || use_global_stats) {
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      // only when test we use input to do computation.
      const auto *est_mean = ctx.Input<Tensor>("Mean");
      const auto *est_var = ctx.Input<Tensor>("Variance");
      // Run inference mode.
      PADDLE_ENFORCE_EQ(est_mean->dims().size(), 1UL);
      PADDLE_ENFORCE_EQ(est_var->dims().size(), 1UL);
      PADDLE_ENFORCE_EQ(est_mean->dims()[0], C);
      PADDLE_ENFORCE_EQ(est_var->dims()[0], C);

      CUDNN_ENFORCE(platform::dynload::cudnnBatchNormalizationForwardInference(
          handle,
          // Note: PERSISTENT not implemented for inference
          CUDNN_BATCHNORM_SPATIAL, CudnnDataType<T>::kOne(),
          CudnnDataType<T>::kZero(), data_desc_, x->template data<T>(),
          data_desc_, y->template mutable_data<T>(ctx.GetPlace()),
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          bn_param_desc_, scale->template data<BatchNormParamType<T>>(),
          bias->template data<BatchNormParamType<T>>(),
          est_mean->template data<BatchNormParamType<T>>(),
          est_var->template data<BatchNormParamType<T>>(), epsilon));
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    } else {
      // Run training mode.
      // obtain running mean and running inv var, and see if we need to
      // initialize them.
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      auto *mean_out = ctx.Output<Tensor>("MeanOut");
      auto *variance_out = ctx.Output<Tensor>("VarianceOut");
      mean_out->mutable_data<BatchNormParamType<T>>(ctx.GetPlace());
      variance_out->mutable_data<BatchNormParamType<T>>(ctx.GetPlace());

      auto *saved_mean = ctx.Output<Tensor>("SavedMean");
      auto *saved_variance = ctx.Output<Tensor>("SavedVariance");
      saved_mean->mutable_data<BatchNormParamType<T>>(ctx.GetPlace());
      saved_variance->mutable_data<BatchNormParamType<T>>(ctx.GetPlace());
      math::SetConstant<platform::CUDADeviceContext, BatchNormParamType<T>>
          functor;
      functor(dev_ctx, saved_mean, static_cast<BatchNormParamType<T>>(0));
      functor(dev_ctx, saved_variance, static_cast<BatchNormParamType<T>>(0));

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      if ((N * H * W * D) == 1) {
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        // Only 1 element in normalization dimension,
        // skip the batch norm calculation, let y = x.
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        framework::TensorCopy(*x, ctx.GetPlace(), y);
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      } else {
        double this_factor = 1. - momentum;

        CUDNN_ENFORCE(platform::dynload::cudnnBatchNormalizationForwardTraining(
            handle, mode_, CudnnDataType<T>::kOne(), CudnnDataType<T>::kZero(),
            data_desc_, x->template data<T>(), data_desc_,
            y->template mutable_data<T>(ctx.GetPlace()), bn_param_desc_,
            scale->template data<BatchNormParamType<T>>(),
            bias->template data<BatchNormParamType<T>>(), this_factor,
            mean_out->template mutable_data<BatchNormParamType<T>>(
                ctx.GetPlace()),
            variance_out->template mutable_data<BatchNormParamType<T>>(
                ctx.GetPlace()),
            epsilon, saved_mean->template mutable_data<BatchNormParamType<T>>(
                         ctx.GetPlace()),
            saved_variance->template mutable_data<BatchNormParamType<T>>(
                ctx.GetPlace())));
      }
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    }

    // clean when exit.
    CUDNN_ENFORCE(platform::dynload::cudnnDestroyTensorDescriptor(data_desc_));
    CUDNN_ENFORCE(
        platform::dynload::cudnnDestroyTensorDescriptor(bn_param_desc_));
  }
};

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template <typename T, int BlockDim, framework::DataLayout layout>
static __global__ void KeBNBackwardScaleBias(
    const T *dy, const T *x, const BatchNormParamType<T> *mean,
    const BatchNormParamType<T> *variance, const double epsilon, const int N,
    const int C, const int HxW, BatchNormParamType<T> *dscale,
    BatchNormParamType<T> *dbias) {
  const int outer_size = C;
  const int inner_size = N * HxW;
  typedef cub::BlockReduce<BatchNormParamType<T>, BlockDim> BlockReduce;
  __shared__ typename BlockReduce::TempStorage ds_storage;
  __shared__ typename BlockReduce::TempStorage db_storage;

  for (int i = blockIdx.x; i < outer_size; i += gridDim.x) {
    BatchNormParamType<T> ds_sum = static_cast<BatchNormParamType<T>>(0);
    BatchNormParamType<T> db_sum = static_cast<BatchNormParamType<T>>(0);

    BatchNormParamType<T> inv_var_i = 1.0 / sqrt(variance[i] + epsilon);
    BatchNormParamType<T> mean_i = mean[i];
    for (int j = threadIdx.x; j < inner_size; j += blockDim.x) {
      const int index = layout == framework::DataLayout::kNCHW
                            ? (j / HxW * C + i) * HxW + j % HxW
                            : j * outer_size + i;
      ds_sum += static_cast<BatchNormParamType<T>>(dy[index]) *
                (static_cast<BatchNormParamType<T>>(x[index]) - mean_i);
      db_sum += static_cast<BatchNormParamType<T>>(dy[index]);
    }
    ds_sum = BlockReduce(ds_storage).Reduce(ds_sum, cub::Sum());
    db_sum = BlockReduce(db_storage).Reduce(db_sum, cub::Sum());
    if (threadIdx.x == 0) {
      dscale[i] = ds_sum * inv_var_i;
      dbias[i] = db_sum;
    }
    __syncthreads();
  }
}

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template <typename T, framework::DataLayout layout>
static __global__ void KeBNBackwardData(const T *dy,
                                        const BatchNormParamType<T> *scale,
                                        const BatchNormParamType<T> *variance,
                                        const double epsilon, const int C,
                                        const int HxW, const int num, T *dx) {
  int gid = blockIdx.x * blockDim.x + threadIdx.x;
  int stride = blockDim.x * gridDim.x;
  for (int i = gid; i < num; i += stride) {
    const int c = layout == framework::DataLayout::kNCHW ? i / HxW % C : i % C;
    BatchNormParamType<T> inv_var = 1.0 / sqrt(variance[c] + epsilon);
    dx[i] = static_cast<T>(static_cast<BatchNormParamType<T>>(dy[i]) *
                           scale[c] * inv_var);
  }
}

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template <typename T, int BlockDim, framework::DataLayout layout>
static __global__ void BNBackwardData(const T *dy,
                                      const BatchNormParamType<T> *scale,
                                      const BatchNormParamType<T> *mean,
                                      const T *x,
                                      const BatchNormParamType<T> *variance,
                                      const int C, const int N, const int HxW,
                                      T *dx) {
  const int outer_size = C;
  const int inner_size = N * HxW;
  typedef cub::BlockReduce<BatchNormParamType<T>, BlockDim> BlockReduce;
  __shared__ typename BlockReduce::TempStorage dy_storage;
  __shared__ typename BlockReduce::TempStorage dy_x_sub_mean_storage;
  __shared__ BatchNormParamType<T> dy_sum_val;
  __shared__ BatchNormParamType<T> dy_x_sub_mean_sum_val;

  for (int i = blockIdx.x; i < outer_size; i += gridDim.x) {
    BatchNormParamType<T> inv_var_i = variance[i];
    BatchNormParamType<T> mean_i = mean[i];
    BatchNormParamType<T> dy_sum = static_cast<BatchNormParamType<T>>(0);
    BatchNormParamType<T> dy_x_sub_mean_sum =
        static_cast<BatchNormParamType<T>>(0);
    for (int j = threadIdx.x; j < inner_size; j += blockDim.x) {
      const int index = layout == framework::DataLayout::kNCHW
                            ? (j / HxW * C + i) * HxW + j % HxW
                            : j * outer_size + i;
      BatchNormParamType<T> dy_i =
          static_cast<BatchNormParamType<T>>(dy[index]);
      dy_sum += dy_i;
      dy_x_sub_mean_sum +=
          dy_i * (static_cast<BatchNormParamType<T>>(x[index]) - mean_i);
    }

    dy_sum = BlockReduce(dy_storage).Reduce(dy_sum, cub::Sum());
    dy_x_sub_mean_sum = BlockReduce(dy_x_sub_mean_storage)
                            .Reduce(dy_x_sub_mean_sum, cub::Sum());

    if (threadIdx.x == 0) {
      dy_sum_val = dy_sum;
      dy_x_sub_mean_sum_val = dy_x_sub_mean_sum;
    }
    __syncthreads();

    for (int j = threadIdx.x; j < inner_size; j += blockDim.x) {
      const int index = layout == framework::DataLayout::kNCHW
                            ? (j / HxW * C + i) * HxW + j % HxW
                            : j * outer_size + i;
      dx[index] =
          (static_cast<BatchNormParamType<T>>(dy[index]) -
           dy_sum_val / static_cast<BatchNormParamType<T>>(inner_size) -
           (static_cast<BatchNormParamType<T>>(x[index]) - mean_i) *
               dy_x_sub_mean_sum_val * inv_var_i * inv_var_i / inner_size) *
          scale[i] * inv_var_i;
    }
  }
}

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template <typename T>
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class BatchNormGradKernel<platform::CUDADeviceContext, T>
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    : public framework::OpKernel<T> {
 public:
  void Compute(const framework::ExecutionContext &ctx) const override {
    PADDLE_ENFORCE(platform::is_gpu_place(ctx.GetPlace()),
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                   "It must use CUDAPlace.");
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    double epsilon = static_cast<double>(ctx.Attr<float>("epsilon"));
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    const std::string data_layout_str = ctx.Attr<std::string>("data_layout");
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    const bool use_global_stats = ctx.Attr<bool>("use_global_stats");

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    const DataLayout data_layout =
        framework::StringToDataLayout(data_layout_str);
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    const auto *x = ctx.Input<Tensor>("X");
    const auto *d_y = ctx.Input<Tensor>(framework::GradVarName("Y"));
    const auto *scale = ctx.Input<Tensor>("Scale");

    const auto &x_dims = x->dims();

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    PADDLE_ENFORCE(x_dims.size() >= 2 && x_dims.size() <= 5,
                   "The Input dim size should be between 2 and 5");
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    int N, C, H, W, D;
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    ExtractNCWHD(x_dims, data_layout, &N, &C, &H, &W, &D);
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    // init output
    auto *d_x = ctx.Output<Tensor>(framework::GradVarName("X"));
    auto *d_scale = ctx.Output<Tensor>(framework::GradVarName("Scale"));
    auto *d_bias = ctx.Output<Tensor>(framework::GradVarName("Bias"));

    d_x->mutable_data<T>(ctx.GetPlace());
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    if (d_scale && d_bias) {
      d_scale->mutable_data<BatchNormParamType<T>>(ctx.GetPlace());
      d_bias->mutable_data<BatchNormParamType<T>>(ctx.GetPlace());
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    }
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    PADDLE_ENFORCE_EQ(scale->dims().size(), 1UL);
    PADDLE_ENFORCE_EQ(scale->dims()[0], C);

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    std::vector<int> dims;
    std::vector<int> strides;
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    if (data_layout == DataLayout::kNCHW) {
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      dims = {N, C, H, W, D};
      strides = {C * H * W * D, H * W * D, W * D, D, 1};
    } else {
      dims = {N, C, H, W, D};
      strides = {H * W * C * D, 1, W * D * C, D * C, C};
    }
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    auto &dev_ctx = ctx.template device_context<platform::CUDADeviceContext>();
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    const int num = x->numel();
    const int block = 512;
    int max_threads = dev_ctx.GetMaxPhysicalThreadCount();
    const int max_blocks = std::max(max_threads / block, 1);
    int grid1 = (num + block - 1) / block;
    int grid2 = std::min(C, max_blocks);

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    if (!use_global_stats) {
      if ((N * H * W * D) == 1) {
        framework::TensorCopy(*d_y, ctx.GetPlace(), d_x);
        math::SetConstant<platform::CUDADeviceContext, BatchNormParamType<T>>
            functor;
        functor(dev_ctx, d_scale, static_cast<BatchNormParamType<T>>(0));
        functor(dev_ctx, d_bias, static_cast<BatchNormParamType<T>>(0));
        return;
      }

      // ------------------- cudnn descriptors ---------------------
      cudnnTensorDescriptor_t data_desc_;
      cudnnTensorDescriptor_t bn_param_desc_;
      cudnnBatchNormMode_t mode_;

      CUDNN_ENFORCE(
          platform::dynload::cudnnCreateTensorDescriptor(&data_desc_));
      CUDNN_ENFORCE(
          platform::dynload::cudnnCreateTensorDescriptor(&bn_param_desc_));
      if (epsilon <= CUDNN_BN_MIN_EPSILON - FLT_EPSILON) {
        LOG(ERROR) << "Provided epsilon is smaller than "
                   << "CUDNN_BN_MIN_EPSILON. Setting it to "
                   << "CUDNN_BN_MIN_EPSILON instead.";
      }
      epsilon = std::max(epsilon, CUDNN_BN_MIN_EPSILON);
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#if CUDNN_VERSION_MIN(7, 0, 0)
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      if (FLAGS_cudnn_batchnorm_spatial_persistent) {
        mode_ = CUDNN_BATCHNORM_SPATIAL_PERSISTENT;
      } else {
        mode_ = CUDNN_BATCHNORM_SPATIAL;
      }
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#else
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      mode_ = CUDNN_BATCHNORM_SPATIAL;
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#endif
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      CUDNN_ENFORCE(platform::dynload::cudnnSetTensorNdDescriptor(
          data_desc_, CudnnDataType<T>::type,
          x_dims.size() > 3 ? x_dims.size() : 4, dims.data(), strides.data()));
      CUDNN_ENFORCE(platform::dynload::cudnnDeriveBNTensorDescriptor(
          bn_param_desc_, data_desc_, mode_));

      const auto *saved_mean = ctx.Input<Tensor>("SavedMean");
      const auto *saved_var = ctx.Input<Tensor>("SavedVariance");
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      const auto *saved_mean_data =
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          saved_mean->template data<BatchNormParamType<T>>();
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      const auto *saved_var_data =
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          saved_var->template data<BatchNormParamType<T>>();

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      if (d_scale && d_bias) {
        CUDNN_ENFORCE(platform::dynload::cudnnBatchNormalizationBackward(
            dev_ctx.cudnn_handle(), mode_, CudnnDataType<T>::kOne(),
            CudnnDataType<T>::kZero(), CudnnDataType<T>::kOne(),
            CudnnDataType<T>::kZero(), data_desc_, x->template data<T>(),
            data_desc_, d_y->template data<T>(), data_desc_,
            d_x->template mutable_data<T>(ctx.GetPlace()), bn_param_desc_,
            scale->template data<BatchNormParamType<T>>(),
            d_scale->template mutable_data<BatchNormParamType<T>>(
                ctx.GetPlace()),
            d_bias->template mutable_data<BatchNormParamType<T>>(
                ctx.GetPlace()),
            epsilon, saved_mean_data, saved_var_data));
      } else {
        if (data_layout == framework::DataLayout::kNCHW) {
          if (d_x) {
            BNBackwardData<T, block, framework::DataLayout::kNCHW><<<
                grid2, block, 0, dev_ctx.stream()>>>(
                d_y->data<T>(), scale->data<BatchNormParamType<T>>(),
                saved_mean_data, x->data<T>(), saved_var_data, C, N, H * W * D,
                d_x->data<T>());
          }
        } else {
          if (d_x) {
            BNBackwardData<T, block, framework::DataLayout::kNCHW><<<
                grid2, block, 0, dev_ctx.stream()>>>(
                d_y->data<T>(), scale->data<BatchNormParamType<T>>(),
                saved_mean_data, x->data<T>(), saved_var_data, C, N, H * W * D,
                d_x->data<T>());
          }
        }
      }
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      // clean when exit.
      CUDNN_ENFORCE(
          platform::dynload::cudnnDestroyTensorDescriptor(data_desc_));
      CUDNN_ENFORCE(
          platform::dynload::cudnnDestroyTensorDescriptor(bn_param_desc_));
    } else {
      const auto *running_mean = ctx.Input<Tensor>("Mean");
      const auto *running_var = ctx.Input<Tensor>("Variance");

      const auto *running_mean_data =
          running_mean->template data<BatchNormParamType<T>>();
      const auto *running_var_data =
          running_var->template data<BatchNormParamType<T>>();

      if (data_layout == framework::DataLayout::kNCHW) {
        if (d_x) {
          KeBNBackwardData<T, framework::DataLayout::kNCHW><<<
              grid1, block, 0, dev_ctx.stream()>>>(
              d_y->data<T>(), scale->data<BatchNormParamType<T>>(),
              running_var_data, epsilon, C, H * W, num, d_x->data<T>());
        }
        if (d_scale && d_bias) {
          KeBNBackwardScaleBias<T, block, framework::DataLayout::kNCHW><<<
              grid2, block, 0, dev_ctx.stream()>>>(
              d_y->data<T>(), x->data<T>(), running_mean_data, running_var_data,
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              epsilon, N, C, H * W * D, d_scale->data<BatchNormParamType<T>>(),
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              d_bias->data<BatchNormParamType<T>>());
        }
      } else {
        if (d_x) {
          KeBNBackwardData<T, framework::DataLayout::kNHWC><<<
              grid1, block, 0, dev_ctx.stream()>>>(
              d_y->data<T>(), scale->data<BatchNormParamType<T>>(),
              running_var_data, epsilon, C, H * W, num, d_x->data<T>());
        }
        if (d_scale && d_bias) {
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          KeBNBackwardScaleBias<T, block, framework::DataLayout::kNHWC><<<
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              grid2, block, 0, dev_ctx.stream()>>>(
              d_y->data<T>(), x->data<T>(), running_mean_data, running_var_data,
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              epsilon, N, C, H * W * D, d_scale->data<BatchNormParamType<T>>(),
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              d_bias->data<BatchNormParamType<T>>());
        }
      }
    }
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  }
};

}  // namespace operators
}  // namespace paddle

namespace ops = paddle::operators;
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namespace plat = paddle::platform;
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REGISTER_OP_CUDA_KERNEL(
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    batch_norm, ops::BatchNormKernel<plat::CUDADeviceContext, float>,
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    ops::BatchNormKernel<plat::CUDADeviceContext, double>,
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    ops::BatchNormKernel<plat::CUDADeviceContext, plat::float16>);
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REGISTER_OP_CUDA_KERNEL(
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    batch_norm_grad, ops::BatchNormGradKernel<plat::CUDADeviceContext, float>,
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    ops::BatchNormGradKernel<plat::CUDADeviceContext, double>,
    ops::BatchNormGradKernel<plat::CUDADeviceContext, plat::float16>);