elementwise_op_function.h 98.5 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
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    http://www.apache.org/licenses/LICENSE-2.0
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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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#pragma once
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#include <glog/logging.h>
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#include <algorithm>
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#include <functional>  // for multiplies
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#include <iterator>
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#include <vector>
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#include "paddle/fluid/framework/eigen.h"
#include "paddle/fluid/framework/op_registry.h"
#include "paddle/fluid/framework/operator.h"
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#include "paddle/fluid/memory/malloc.h"
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#include "paddle/fluid/operators/elementwise/elementwise_functor.h"
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#include "paddle/fluid/platform/device/gpu/gpu_info.h"
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#include "paddle/fluid/platform/transform.h"
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// only can include the headers in paddle/pten/include dirs
#include "paddle/pten/api/lib/utils/tensor_utils.h"
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#include "paddle/pten/kernels/cpu/elementwise.h"
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#if defined(__NVCC__) || defined(__HIPCC__)
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#ifdef __NVCC__
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#include <cuda.h>
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#elif defined(__HIPCC__)
#include <hip/hip_runtime.h>
#endif
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#include <thrust/iterator/iterator_adaptor.h>
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#include "paddle/fluid/operators/elementwise/elementwise_op_broadcast.cu.h"
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#include "paddle/fluid/operators/reduce_ops/reduce_op.cu.h"
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#include "paddle/fluid/platform/device/gpu/gpu_device_function.h"
#include "paddle/fluid/platform/device/gpu/gpu_primitives.h"
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#ifdef __HIPCC__
constexpr int ELEMWISE_MAX_BLOCK_DIM = 256;
#else
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constexpr int ELEMWISE_MAX_BLOCK_DIM = 1024;
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#endif
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#define BLOCK_X 32
#define BLOCK_Y 32
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#endif

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#include "paddle/fluid/operators/math/math_function.h"
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#include "paddle/fluid/platform/for_range.h"
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#define GetDivMod(dividend, divisor, div, mod) \
  do {                                         \
    const auto dividend_copy = dividend;       \
    *div = dividend_copy / divisor;            \
    *mod = dividend_copy % divisor;            \
  } while (0)
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#define DIVUP(x, y) (((x) + (y)-1) / (y))

#define ROUNDUP(x, y) (DIVUP((x), (y)) * (y))

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namespace paddle {
namespace operators {

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/*
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*  Pack input and output tensors into respective vectors with
*  consideration of varible X`s class type.
*  Input variable X is supported to be whether LoDTensor or
*  SelectedRows class type in this package function, once X
*  was SelectedRows type, a valid pointer x_for_selectedrows
*  is excepted to be passed in from op kernel for acquisition
*  of the valid address of LoDTensor created ahead in the function.
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*/
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template <typename OutT>
int PackTensorsIntoVector(const framework::ExecutionContext &ctx,
                          std::vector<const framework::Tensor *> *ins,
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                          std::vector<framework::Tensor *> *outs,
                          framework::Tensor *x_for_selectedrows = nullptr) {
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  int axis = -1;
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  auto x_var = ctx.InputVar("X");
  PADDLE_ENFORCE_NOT_NULL(
      x_var, platform::errors::InvalidArgument(
                 "Unable to get input Variable X, Variable name is %s.\n",
                 ctx.InputName("X")));
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  auto *y = ctx.Input<framework::LoDTensor>("Y");
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  framework::Tensor *z;

  if (x_var->IsType<framework::LoDTensor>()) {
    auto *x = ctx.Input<framework::LoDTensor>("X");
    z = ctx.Output<framework::LoDTensor>("Out");
    ins->emplace_back(x);
  } else if (x_var->IsType<framework::SelectedRows>()) {
    PADDLE_ENFORCE_EQ(y->dims().size() == 1 && y->dims()[0] == 1, true,
                      platform::errors::InvalidArgument(
                          "For elementwise_op, if X is Sparse, Y must be "
                          "scalar. But reveived the size of Y = %d.",
                          y->dims().size()));
    PADDLE_ENFORCE_NOT_NULL(
        x_for_selectedrows,
        platform::errors::InvalidArgument(
            "The parameter x_for_selectedrows is excepted to "
            "be valid, once input varible X`s class type is "
            "SelectedRows.\n"));
    auto &x_sele = x_var->Get<framework::SelectedRows>();
    auto out_sele = ctx.Output<framework::SelectedRows>("Out");
    *x_for_selectedrows = x_sele.value();
    out_sele->set_rows(x_sele.rows());
    out_sele->set_height(x_sele.height());
    out_sele->mutable_value()->Resize(x_sele.value().dims());
    out_sele->mutable_value()->mutable_data(ctx.GetPlace(),
                                            x_for_selectedrows->type());
    z = ctx.Output<framework::SelectedRows>("Out")->mutable_value();
    ins->emplace_back(x_for_selectedrows);
  } else {
    PADDLE_THROW(platform::errors::InvalidArgument(
        "X's type[%s] is not supported by elementwise_op. X's type should be "
        "LoDTensor or SelectedRows.",
        framework::ToTypeName(x_var->Type())));
  }
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  z->mutable_data<OutT>(ctx.GetPlace());
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  outs->emplace_back(z);

  if (y != nullptr) {
    ins->emplace_back(y);
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    axis = ctx.HasAttr("axis") ? ctx.Attr<int>("axis") : -1;
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  }
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  return axis;
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}

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inline int GetElementwiseIndex(const int *x_dims_array, const int max_dim,
                               const int *index_array) {
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  return pten::GetElementwiseIndex(x_dims_array, max_dim, index_array);
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}

inline void UpdateElementwiseIndexArray(const int *out_dims_array,
                                        const int max_dim, int *index_array) {
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  pten::UpdateElementwiseIndexArray(out_dims_array, max_dim, index_array);
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}

inline void GetBroadcastDimsArrays(const framework::DDim &x_dims,
                                   const framework::DDim &y_dims,
                                   int *x_dims_array, int *y_dims_array,
                                   int *out_dims_array, const int max_dim,
                                   const int axis) {
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  pten::funcs::GetBroadcastDimsArrays(x_dims, y_dims, x_dims_array,
                                      y_dims_array, out_dims_array, max_dim,
                                      axis);
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}
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template <typename Functor, typename T, typename OutType = T>
void CommonForwardBroadcastCPU(const framework::Tensor *x,
                               const framework::Tensor *y, framework::Tensor *z,
                               int *x_dims_array, int *y_dims_array,
                               int *out_dims_array, int max_dim,
                               const platform::CPUDeviceContext &ctx,
                               Functor func,
                               const bool is_xsize_larger = true) {
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  pten::CommonForwardBroadcastCPU(x, y, z, x_dims_array, y_dims_array,
                                  out_dims_array, max_dim, ctx, func,
                                  is_xsize_larger);
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}

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template <typename T, typename DX_OP, typename DY_OP, typename Tout = T>
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void CommonGradBroadcastCPU(
    const framework::Tensor &x, const framework::Tensor &y,
    const framework::Tensor &out, const framework::Tensor &dout,
    framework::Tensor *dx, framework::Tensor *dy, int *x_dims_array,
    int *y_dims_array, int *out_dims_array, int max_dim,
    const platform::CPUDeviceContext &ctx, DX_OP dx_op, DY_OP dy_op) {
  std::vector<int> index_array(max_dim, 0);
  const T *x_data = x.data<T>();
  const T *y_data = y.data<T>();
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  const Tout *out_data = out.data<Tout>();
  const Tout *dout_data = dout.data<Tout>();
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  T *dx_data = dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace());
  T *dy_data = dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace());
  if (dx_data != nullptr) {
    memset(dx_data, 0, dx->numel() * sizeof(T));
  }
  if (dy_data != nullptr) {
    memset(dy_data, 0, dy->numel() * sizeof(T));
  }
  const int out_size = std::accumulate(out_dims_array, out_dims_array + max_dim,
                                       1, std::multiplies<int>());
  int x_index, y_index;
  for (int out_index = 0; out_index < out_size; ++out_index) {
    x_index = GetElementwiseIndex(x_dims_array, max_dim, index_array.data());
    y_index = GetElementwiseIndex(y_dims_array, max_dim, index_array.data());
    if (dx_data != nullptr) {
      dx_data[x_index] += dx_op(x_data[x_index], y_data[y_index],
                                out_data[out_index], dout_data[out_index]);
    }
    if (dy_data != nullptr) {
      dy_data[y_index] += dy_op(x_data[x_index], y_data[y_index],
                                out_data[out_index], dout_data[out_index]);
    }

    UpdateElementwiseIndexArray(out_dims_array, max_dim, index_array.data());
  }
}

inline void ComputeBroadcastKernelSize(int *x_dims_array, int *out_dims_array,
                                       int *x_blocks, int *x_threads,
                                       int max_dim) {
  *x_blocks = 1;
  *x_threads = 1;
  for (int i = 0; i < max_dim; i++) {
    if (x_dims_array[i] == out_dims_array[i]) {
      *x_blocks *= x_dims_array[i];
    } else {
      *x_threads *= out_dims_array[i];
    }
  }
}

inline void ComputeBroadcastTranspositionArray(const int *x_one_indexs,
                                               int *x_trans_indexs,
                                               const int max_dim,
                                               const int x_one_size) {
  int diff = max_dim - x_one_size;
  std::copy_n(x_one_indexs, x_one_size, x_trans_indexs + diff);
  int p = 0;
  int q = diff;
  for (int i = 0; i < max_dim; ++i) {
    if (q < max_dim && i == x_trans_indexs[q]) {
      ++q;
    } else {
      x_trans_indexs[p++] = i;
    }
  }
}

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#if defined(__NVCC__) || defined(__HIPCC__)
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template <typename T, typename DX_OP, typename DY_OP, typename Tout = T>
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static __global__ void ElemwiseGradBroadcast1CUDAKernel(
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    const T *x, const T *y, const Tout *out, const Tout *dout, int h, int w,
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    bool is_xsize_larger, DX_OP dx_op, DY_OP dy_op, T *dx, T *dy) {
  int j = blockIdx.x;
  int i = threadIdx.x;
  int tid = threadIdx.x;
  T val(0);
  if (is_xsize_larger) {
    do {
      int x_offset = i * w + j;
      if (dx) {
        dx[x_offset] = dx_op(x[x_offset], y[j], out[x_offset], dout[x_offset]);
      }
      if (dy) {
        val += dy_op(x[x_offset], y[j], out[x_offset], dout[x_offset]);
      }
      i += ELEMWISE_MAX_BLOCK_DIM;
    } while (i < h);

    if (dy) {
      h = h > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : h;
      val = paddle::platform::reduceSum(val, tid, h);
      if (threadIdx.x == 0) {
        dy[j] = val;
      }
    }
  } else {  // x.dims < y.dims, broadcast for x.
    do {
      int y_offset = i * w + j;
      if (dy) {
        dy[y_offset] = dy_op(x[j], y[y_offset], out[y_offset], dout[y_offset]);
      }
      if (dx) {
        val += dx_op(x[j], y[y_offset], out[y_offset], dout[y_offset]);
      }
      i += ELEMWISE_MAX_BLOCK_DIM;
    } while (i < h);

    if (dx) {
      h = h > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : h;
      val = paddle::platform::reduceSum(val, tid, h);
      if (threadIdx.x == 0) {
        dx[j] = val;
      }
    }
  }
}

// suppose use 2D block is fast because more parallel
// and memory coalesced
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template <typename T, typename DX_OP, typename DY_OP, typename Tout = T>
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static __global__ void FastElemwiseGradBroadcast1CUDAKernel(
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    const T *x, const T *y, const Tout *out, const Tout *dout, int h, int w,
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    bool is_xsize_larger, DX_OP dx_op, DY_OP dy_op, T *dx, T *dy) {
  __shared__ T sdata[BLOCK_Y][BLOCK_X + 1];

  T val(0);
  size_t width_stride = gridDim.x * blockDim.x;
  size_t idx = threadIdx.x + blockDim.x * blockIdx.x;
  size_t full_width =
      (w & (~((uint64_t)(BLOCK_X - 1)))) + ((w & (BLOCK_X - 1)) ? BLOCK_X : 0);
  size_t full_height =
      (h & (~((uint64_t)(BLOCK_Y - 1)))) + ((h & (BLOCK_Y - 1)) ? BLOCK_Y : 0);
  if (is_xsize_larger) {
    for (int m = idx; m < full_width; m += width_stride) {
      sdata[threadIdx.y][threadIdx.x] = 0;
      for (int n = threadIdx.y; n < full_height; n += BLOCK_Y) {
        int x_offset = n * w + m;
        if (dx && m < w && n < h) {
          dx[x_offset] =
              dx_op(x[x_offset], y[m], out[x_offset], dout[x_offset]);
        }
        if (dy) {
          if (m < w && n < h) {
            T val = dy_op(x[x_offset], y[m], out[x_offset], dout[x_offset]);
            sdata[threadIdx.y][threadIdx.x] += val;
          }
          __syncthreads();
        }
      }
      if (dy) {
        T my_val = sdata[threadIdx.x][threadIdx.y];
        for (int i = warpSize >> 1; i > 0; i >>= 1)
          my_val += platform::CudaShuffleXorSync(0xFFFFFFFF, my_val, i);
        __syncthreads();
        if ((threadIdx.x == 0)) {
          sdata[0][threadIdx.y] = my_val;
        }
        __syncthreads();
        if (threadIdx.y == 0 && m < w) {
          dy[m] = sdata[0][threadIdx.x];
        }
      }
    }
  } else {  // x.dims < y.dims, broadcast for x.
    for (int m = idx; m < full_width; m += width_stride) {
      sdata[threadIdx.y][threadIdx.x] = 0;
      for (int n = threadIdx.y; n < full_height; n += BLOCK_Y) {
        int y_offset = n * w + m;
        if (dy && m < w && n < h) {
          dy[y_offset] =
              dy_op(x[m], y[y_offset], out[y_offset], dout[y_offset]);
        }
        if (dx) {
          if (m < w && n < h) {
            T val = dx_op(x[m], y[y_offset], out[y_offset], dout[y_offset]);
            sdata[threadIdx.y][threadIdx.x] += val;
          }
          __syncthreads();
        }
      }
      if (dx) {
        T my_val = sdata[threadIdx.x][threadIdx.y];
        for (int i = warpSize >> 1; i > 0; i >>= 1)
          my_val += platform::CudaShuffleXorSync(0xFFFFFFFF, my_val, i);
        __syncthreads();
        if ((threadIdx.x == 0)) {
          sdata[0][threadIdx.y] = my_val;
        }
        __syncthreads();
        if (threadIdx.y == 0 && m < w) {
          dx[m] = sdata[0][threadIdx.x];
        }
      }
    }
  }
}

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template <typename T, typename DX_OP, typename Tout = T>
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__global__ void CommonGradBroadcastCUDAKernel(
    const int *x_strides_array, const int *y_strides_array,
    const int *out_dims_array, const int *y_strides_order,
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    const int *y_dims_order, const T *x, const T *y, const Tout *out,
    const Tout *dout, T *dx, int out_size, int max_dim, int thread_num,
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    DX_OP dx_op) {
  T val(0);
  int i = blockIdx.x;
  int tid = threadIdx.x;
  for (int j = tid; j < thread_num; j += blockDim.x) {
    const int X_index = i * thread_num + j;
    int out_index = X_index;
    int C_index = 0;
    int B_index = i * thread_num + j;
    int remainder = 0;
#pragma unroll
    for (int d = max_dim - 1; d >= 0; --d) {
      GetDivMod(B_index, y_dims_order[d], &B_index, &remainder);
      C_index += remainder * y_strides_order[d];
    }
    int x_index = 0;
    int y_index = 0;
    int C_index_val = C_index;
#pragma unroll
    for (int d = max_dim - 1; d >= 0; --d) {
      GetDivMod(C_index_val, out_dims_array[d], &C_index_val, &remainder);
      x_index += remainder * x_strides_array[d];
      y_index += remainder * y_strides_array[d];
    }
    out_index = C_index;
    val += dx_op(x[x_index], y[y_index], out[out_index], dout[out_index]);
  }
  val = paddle::platform::reduceSum(val, tid, thread_num);
  if (threadIdx.x == 0) {
    dx[i] = val;
  }
}

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template <typename T, typename DY_OP, typename Tout = T>
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static __global__ void CommonGradBroadcast1CUDAKernelHeight(
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    const T *x, const T *y, const Tout *out, const Tout *dout, int h, int w,
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    DY_OP dy_op, T *dy, int x_h, int x_w, bool is_y) {
  int j = blockIdx.x;
  int i = threadIdx.x;
  int tid = threadIdx.x;
  T val(0);

  if (is_y) {
    do {
      int out_offset = i * w + j;
      int x_offset = (i % x_h) * x_w + j % x_w;
      if (dy) {
        val += dy_op(x[x_offset], y[j], out[out_offset], dout[out_offset]);
      }
      i += ELEMWISE_MAX_BLOCK_DIM;
    } while (i < h);

    if (dy) {
      h = h > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : h;
      val = paddle::platform::reduceSum(val, tid, h);
      if (threadIdx.x == 0) {
        dy[j] = val;
      }
    }
  } else {
    do {
      int out_offset = i * w + j;
      int y_offset = (i % x_h) * x_w + j % x_w;
      if (dy) {
        val += dy_op(x[j], y[y_offset], out[out_offset], dout[out_offset]);
      }
      i += ELEMWISE_MAX_BLOCK_DIM;
    } while (i < h);

    if (dy) {
      h = h > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : h;
      val = paddle::platform::reduceSum(val, tid, h);
      if (threadIdx.x == 0) {
        dy[j] = val;
      }
    }
  }
}

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template <typename T, typename DY_OP, typename Tout = T>
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static __global__ void FastCommonGradBroadcastCUDAKernelHeight(
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    const T *x, const T *y, const Tout *out, const Tout *dout, int h, int w,
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    DY_OP dy_op, T *dy, int x_h, int x_w, bool is_y) {
  __shared__ T sdata[BLOCK_Y][BLOCK_X + 1];

  T val(0);
  size_t width_stride = gridDim.x * blockDim.x;
  size_t idx = threadIdx.x + blockDim.x * blockIdx.x;
  size_t full_width =
      (w & (~((uint64_t)(BLOCK_X - 1)))) + ((w & (BLOCK_X - 1)) ? BLOCK_X : 0);
  size_t full_height =
      (h & (~((uint64_t)(BLOCK_Y - 1)))) + ((h & (BLOCK_Y - 1)) ? BLOCK_Y : 0);
  if (is_y) {
    for (int m = idx; m < full_width; m += width_stride) {
      sdata[threadIdx.y][threadIdx.x] = 0;
      for (int n = threadIdx.y; n < full_height; n += BLOCK_Y) {
        int out_offset = n * w + m;
        int x_offset = (n % x_h) * x_w + m % x_w;
        if (dy) {
          if (m < w && n < h) {
            T val = dy_op(x[x_offset], y[m], out[out_offset], dout[out_offset]);
            sdata[threadIdx.y][threadIdx.x] += val;
          }
          __syncthreads();
        }
      }
      if (dy) {
        T my_val = sdata[threadIdx.x][threadIdx.y];
        for (int i = warpSize >> 1; i > 0; i >>= 1) {
          my_val += platform::CudaShuffleXorSync(0xFFFFFFFF, my_val, i);
        }
        __syncthreads();
        if ((threadIdx.x == 0)) {
          sdata[0][threadIdx.y] = my_val;
        }
        __syncthreads();
        if (threadIdx.y == 0 && m < w) {
          dy[m] = sdata[0][threadIdx.x];
        }
      }
    }
  } else {
    for (int m = idx; m < full_width; m += width_stride) {
      sdata[threadIdx.y][threadIdx.x] = 0;
      for (int n = threadIdx.y; n < full_height; n += BLOCK_Y) {
        int out_offset = n * w + m;
        int y_offset = (n % x_h) * x_w + m % x_w;
        if (dy) {
          if (m < w && n < h) {
            T val = dy_op(x[m], y[y_offset], out[out_offset], dout[out_offset]);
            sdata[threadIdx.y][threadIdx.x] += val;
          }
          __syncthreads();
        }
      }
      if (dy) {
        T my_val = sdata[threadIdx.x][threadIdx.y];
        for (int i = warpSize >> 1; i > 0; i >>= 1) {
          my_val += platform::CudaShuffleXorSync(0xFFFFFFFF, my_val, i);
        }
        __syncthreads();
        if ((threadIdx.x == 0)) {
          sdata[0][threadIdx.y] = my_val;
        }
        __syncthreads();
        if (threadIdx.y == 0 && m < w) {
          dy[m] = sdata[0][threadIdx.x];
        }
      }
    }
  }
}

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template <typename T, typename DY_OP, typename DX_OP, typename Tout = T>
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static __global__ void FastCommonGradBroadcastAllCUDAKernel(
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    const T *x, const T *y, const Tout *out, const Tout *dout, int pre, int n,
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    int post, bool is_xsize_larger, DX_OP dx_op, DY_OP dy_op, T *dx, T *dy) {
  int tid = threadIdx.x;
  int bid = blockIdx.x;

  T val(0);
  if (is_xsize_larger) {
    for (int i = tid; i < n; i += ELEMWISE_MAX_BLOCK_DIM) {
      int b_i = bid / post;
      int b_j = bid % post;
      int x_offset = b_i * n * post + i * post + b_j;
      int y_offset = b_i * post + b_j;
      if (dx) {
        dx[x_offset] =
            dx_op(x[x_offset], y[y_offset], out[x_offset], dout[x_offset]);
      }
      if (dy) {
        val += dy_op(x[x_offset], y[y_offset], out[x_offset], dout[x_offset]);
      }
    }
    if (dy) {
      int h = n > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : n;
      val = paddle::platform::reduceSum(val, tid, h);
      if (tid == 0) {
        dy[bid] = val;
      }
    }
  } else {
    for (int i = tid; i < n; i += ELEMWISE_MAX_BLOCK_DIM) {
      int b_i = bid / post;
      int b_j = bid % post;
      int y_offset = b_i * n * post + i * post + b_j;
      int x_offset = b_i * post + b_j;
      if (dy) {
        dy[y_offset] =
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            dy_op(x[x_offset], y[y_offset], out[y_offset], dout[y_offset]);
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      }
      if (dx) {
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        val += dx_op(x[x_offset], y[y_offset], out[y_offset], dout[y_offset]);
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      }
    }
    if (dx) {
      int h = n > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : n;
      val = paddle::platform::reduceSum(val, tid, h);
      if (tid == 0) {
        dx[bid] = val;
      }
    }
  }
}

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template <typename T, typename OP, typename Tout = T>
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static __global__ void FastCommonGradBroadcastOneCUDAKernel(
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    const T *x, const T *y, const Tout *out, const Tout *dout, int pre, int n,
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    int post, int y_pre, int y_n, int y_post, bool is_xsize, OP op, T *dd) {
  int tid = threadIdx.x;
  int bid = blockIdx.x;

  T val(0);
  if (is_xsize) {
    // do reduce for x
    for (int i = tid; i < n; i += ELEMWISE_MAX_BLOCK_DIM) {
      int b_i = bid / post;
      int b_j = bid % post;
      int x_offset = b_i * n * post + b_j;
      int out_offset = b_i * n * post + i * post + b_j;

      // Get y pre rows id with x post and y_pre.
      int b_yi = bid / (post * y_pre);
      int b_yj = bid % y_post;
      int y_offset = b_yi * y_n + i * y_post + b_yj;

      if (dd) {
        val += op(x[x_offset], y[y_offset], out[out_offset], dout[out_offset]);
      }
    }
    if (dd) {
      int h = n > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : n;
      val = paddle::platform::reduceSum(val, tid, h);
      if (tid == 0) {
        dd[bid] = val;
      }
    }
  } else {
    // do reduce for y
    for (int i = tid; i < n; i += ELEMWISE_MAX_BLOCK_DIM) {
      int b_i = bid / post;
      int b_j = bid % post;
      int y_offset = b_i * n * post + b_j;
      int out_offset = b_i * n * post + i * post + b_j;

      int b_yi = bid / (post * y_pre);
      int b_yj = bid % y_post;
      int x_offset = b_yi * y_n + i * y_post + b_yj;

      if (dd) {
        val += op(x[x_offset], y[y_offset], out[out_offset], dout[out_offset]);
      }
    }
    if (dd) {
      int h = n > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : n;
      val = paddle::platform::reduceSum(val, tid, h);
      if (tid == 0) {
        dd[bid] = val;
      }
    }
  }
}

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// Check input can be split into 2 parts
static inline bool SplitDims(const std::vector<int> &y_broadcast_pos,
                             int max_dim) {
  bool can_split_dim2 = true;
  // must at start or end.
  if (y_broadcast_pos[0] != 0 &&
      y_broadcast_pos[y_broadcast_pos.size() - 1] != max_dim - 1) {
    can_split_dim2 = false;
  } else {
    for (int i = 1; i < y_broadcast_pos.size(); ++i) {
      // dim must be continue
      if (y_broadcast_pos[i] != y_broadcast_pos[i - 1] + 1) {
        can_split_dim2 = false;
        break;
      }
    }
  }
  return can_split_dim2;
}

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// Suppose only has contiguous dims
static inline bool CheckContiguousDims(const std::vector<int> &broadcast_pos) {
  for (int i = 1; i < broadcast_pos.size(); ++i) {
    if (broadcast_pos[i] != broadcast_pos[i - 1] + 1) {
      return false;
    }
  }
  return true;
}

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template <typename T, typename DX_OP, typename DY_OP, typename Tout = T>
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void CommonGradBroadcastCUDA(
    const framework::Tensor &x, const framework::Tensor &y,
    const framework::Tensor &out, const framework::Tensor &dout,
    framework::Tensor *dx, framework::Tensor *dy, int *x_dims_array,
    int *y_dims_array, int *out_dims_array, int max_dim,
    const platform::CUDADeviceContext &ctx, DX_OP dx_op, DY_OP dy_op) {
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  const auto gplace = BOOST_GET_CONST(platform::CUDAPlace, ctx.GetPlace());
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  auto cplace = platform::CPUPlace();
  const T *x_data = x.data<T>();
  const T *y_data = y.data<T>();
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  const Tout *out_data = out.data<Tout>();
  const Tout *dout_data = dout.data<Tout>();
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  T *dx_data = dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace());
  T *dy_data = dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace());

  std::vector<int> x_one_indexs;
  std::vector<int> y_one_indexs;
  for (int i = 0; i < max_dim; i++) {
    if (x_dims_array[i] != y_dims_array[i]) {
      if (x_dims_array[i] == 1) {
        x_one_indexs.push_back(i);
      }
      if (y_dims_array[i] == 1) {
        y_one_indexs.push_back(i);
      }
    }
  }

  std::vector<int> x_trans_indexs(max_dim);
  std::vector<int> y_trans_indexs(max_dim);
  ComputeBroadcastTranspositionArray(x_one_indexs.data(), x_trans_indexs.data(),
                                     max_dim, x_one_indexs.size());
  ComputeBroadcastTranspositionArray(y_one_indexs.data(), y_trans_indexs.data(),
                                     max_dim, y_one_indexs.size());

  // compute array stride for cuda kernel;
  // e.g. x.dims=[2,3,4], x_stride=[12,4,1]
  std::vector<int> x_strides_array(max_dim);
  std::vector<int> y_strides_array(max_dim);
  std::vector<int> out_strides_array(max_dim);
  int x_stride = 1;
  int y_stride = 1;
  int z_stride = 1;
  for (int i = max_dim - 1; i >= 0; i--) {
    x_strides_array[i] = x_dims_array[i] == 1 ? 0 : x_stride;
    y_strides_array[i] = y_dims_array[i] == 1 ? 0 : y_stride;
    out_strides_array[i] = z_stride;
    x_stride *= x_dims_array[i];
    y_stride *= y_dims_array[i];
    z_stride *= out_dims_array[i];
  }

  std::vector<int> x_strides_order(max_dim);
  std::vector<int> y_strides_order(max_dim);
  std::vector<int> x_dims_order(max_dim);
  std::vector<int> y_dims_order(max_dim);
  for (int i = 0; i < max_dim; ++i) {
    x_strides_order[i] = out_strides_array[x_trans_indexs[i]];
    y_strides_order[i] = out_strides_array[y_trans_indexs[i]];
    x_dims_order[i] = out_dims_array[x_trans_indexs[i]];
    y_dims_order[i] = out_dims_array[y_trans_indexs[i]];
  }
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  std::vector<int> x_broadcast_pos;
  std::vector<int> y_broadcast_pos;

  int bytes = max_dim * sizeof(int);

  for (int i = 0; i < max_dim; ++i) {
    if (x_dims_array[i] != out_dims_array[i] && x_dims_array[i] == 1) {
      x_broadcast_pos.emplace_back(i);
    }
    if (y_dims_array[i] != out_dims_array[i] && y_dims_array[i] == 1) {
      y_broadcast_pos.emplace_back(i);
    }
  }
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  auto stream = ctx.stream();
  bool can_split_x = false;
  bool can_split_y = false;

  auto FastCommonCUDAF = [&](const std::vector<int> &broadcast_pos, bool is_y) {
    int h =
        std::accumulate(out_dims_array, out_dims_array + broadcast_pos.size(),
                        1, std::multiplies<int>());
    int w =
        std::accumulate(out_dims_array + broadcast_pos.size(),
                        out_dims_array + max_dim, 1, std::multiplies<int>());

    VLOG(3) << "FastCommonCUDAF elementwise w:" << w << " h:" << h
            << " is_y:" << is_y;

    int split_h;
    int split_w;
    int kh = h;
    int kw = w;

    if (is_y) {
      split_h =
          std::accumulate(x_dims_array, x_dims_array + broadcast_pos.size(), 1,
                          std::multiplies<int>());
      split_w =
          std::accumulate(x_dims_array + broadcast_pos.size(),
                          x_dims_array + max_dim, 1, std::multiplies<int>());

    } else {
      split_h =
          std::accumulate(y_dims_array, y_dims_array + broadcast_pos.size(), 1,
                          std::multiplies<int>());
      split_w =
          std::accumulate(y_dims_array + broadcast_pos.size(),
                          y_dims_array + max_dim, 1, std::multiplies<int>());
    }

    if (h > split_h) kh = split_h;
    if (w > split_w) kw = split_w;

    if (is_y) {
      if (w < 16 || h < 16) {
        int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, h);
        int grid_size = w;
        CommonGradBroadcast1CUDAKernelHeight<<<grid_size, block_size, 0,
                                               stream>>>(
            x_data, y_data, out_data, dout_data, h, w, dy_op, dy_data, kh, kw,
            is_y);
      } else {
        dim3 block_size = dim3(BLOCK_X, BLOCK_Y);
        int grid_size = (w + BLOCK_X - 1) / BLOCK_X;
        FastCommonGradBroadcastCUDAKernelHeight<<<grid_size, block_size, 0,
                                                  stream>>>(
            x_data, y_data, out_data, dout_data, h, w, dy_op, dy_data, kh, kw,
            is_y);
      }
    } else {
      if (w < 16 || h < 16) {
        int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, h);
        int grid_size = w;
        CommonGradBroadcast1CUDAKernelHeight<<<grid_size, block_size, 0,
                                               stream>>>(
            x_data, y_data, out_data, dout_data, h, w, dx_op, dx_data, kh, kw,
            is_y);
      } else {
        dim3 block_size = dim3(BLOCK_X, BLOCK_Y);
        int grid_size = (w + BLOCK_X - 1) / BLOCK_X;
        FastCommonGradBroadcastCUDAKernelHeight<<<grid_size, block_size, 0,
                                                  stream>>>(
            x_data, y_data, out_data, dout_data, h, w, dx_op, dx_data, kh, kw,
            is_y);
      }
    }
  };

  auto FastBroadCastHeightCUDAF = [&](const std::vector<int> &broadcast_pos,
                                      bool x_large) {
    int h =
        std::accumulate(out_dims_array, out_dims_array + broadcast_pos.size(),
                        1, std::multiplies<int>());
    int w =
        std::accumulate(out_dims_array + broadcast_pos.size(),
                        out_dims_array + max_dim, 1, std::multiplies<int>());

    VLOG(3) << "FastBroadCastHeightCUDAF w:" << w << " h:" << h;

    if (w < 16 || h < 16) {
      int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, h);
      int grid_size = w;
      ElemwiseGradBroadcast1CUDAKernel<<<grid_size, block_size, 0, stream>>>(
          x_data, y_data, out_data, dout_data, h, w, x_large, dx_op, dy_op,
          dx_data, dy_data);
    } else {
      dim3 block_size = dim3(BLOCK_X, BLOCK_Y);
      int grid_size = (w + BLOCK_X - 1) / BLOCK_X;
      FastElemwiseGradBroadcast1CUDAKernel<<<grid_size, block_size, 0,
                                             stream>>>(
          x_data, y_data, out_data, dout_data, h, w, x_large, dx_op, dy_op,
          dx_data, dy_data);
    }
  };

  auto FastBroadCastAllCUDAF = [&](const std::vector<int> &broadcast_pos,
                                   int max_dim, bool is_x_large) {
    int axis = broadcast_pos[0];
    int pre = std::accumulate(out_dims_array, out_dims_array + axis, 1,
                              std::multiplies<int>());
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    int mid = 1;
    int post = 1;

    if (broadcast_pos.size() == 1) {
      mid = out_dims_array[axis];
      post =
          std::accumulate(out_dims_array + axis + 1, out_dims_array + max_dim,
                          1, std::multiplies<int>());
    } else {
      mid = std::accumulate(out_dims_array + axis,
                            out_dims_array + broadcast_pos.back() + 1, 1,
                            std::multiplies<int>());
      post =
          std::accumulate(out_dims_array + broadcast_pos.back() + 1,
                          out_dims_array + max_dim, 1, std::multiplies<int>());
    }
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    VLOG(3) << "FastBroadCastAllCUDAF pre:" << pre << " mid:" << mid
            << " post:" << post;

    int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, mid);
    int grid_size = pre * post;

    FastCommonGradBroadcastAllCUDAKernel<<<grid_size, block_size, 0, stream>>>(
        x_data, y_data, out_data, dout_data, pre, mid, post, is_x_large, dx_op,
        dy_op, dx_data, dy_data);
  };

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  auto FastBroadCastOneCUDAF = [&](const std::vector<int> &broadcast_pos,
                                   int max_dim, bool is_x) {
    int axis = broadcast_pos[0];
    int pre = std::accumulate(out_dims_array, out_dims_array + axis, 1,
                              std::multiplies<int>());
    int mid = out_dims_array[axis];
    int post =
        std::accumulate(out_dims_array + axis + 1, out_dims_array + max_dim, 1,
                        std::multiplies<int>());

    int k_pre;
    int k_mid;
    int k_post;

    if (is_x) {
      k_pre = std::accumulate(y_dims_array, y_dims_array + axis, 1,
                              std::multiplies<int>());
      k_mid = y_dims_array[axis];
      k_post = std::accumulate(y_dims_array + axis + 1, y_dims_array + max_dim,
                               1, std::multiplies<int>());
      int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, mid);
      int grid_size = pre * post;
      // we need to calc y offset with blockid, so do x_pre/y_pre to get left
      // size.
      if (k_pre != pre) k_pre = pre / k_pre;

      FastCommonGradBroadcastOneCUDAKernel<<<grid_size, block_size, 0,
                                             stream>>>(
          x_data, y_data, out_data, dout_data, pre, mid, post, k_pre, k_mid,
          k_post, true, dx_op, dx_data);
    } else {
      k_pre = std::accumulate(x_dims_array, x_dims_array + axis, 1,
                              std::multiplies<int>());
      k_mid = x_dims_array[axis];
      k_post = std::accumulate(x_dims_array + axis + 1, x_dims_array + max_dim,
                               1, std::multiplies<int>());
      int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, mid);
      int grid_size = pre * post;
      if (k_pre != pre) k_pre = pre / k_pre;

      FastCommonGradBroadcastOneCUDAKernel<<<grid_size, block_size, 0,
                                             stream>>>(
          x_data, y_data, out_data, dout_data, pre, mid, post, k_pre, k_mid,
          k_post, false, dy_op, dy_data);
    }
    VLOG(3) << "FastBroadCastOneCUDAF pre:" << pre << " mid:" << mid
            << " post:" << post;
  };

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  // do fast elementwise if: 1. only one input need to do broadcast, we can
  // fallback
  // to old fast path.
  // 2. if both x and y need broadcast, then do it one by one.
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  bool fast_broadcast = false;
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  if (x_broadcast_pos.empty() && !y_broadcast_pos.empty()) {
    can_split_y = SplitDims(y_broadcast_pos, max_dim);
    if (can_split_y) {
      // only y need to do broadcast on h
      if (y_broadcast_pos[0] == 0) {
        FastBroadCastHeightCUDAF(y_broadcast_pos, true);
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        fast_broadcast = true;
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      }
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    } else if (y_broadcast_pos.size() == 1 ||
               CheckContiguousDims(y_broadcast_pos)) {  // for only one dim and
                                                        // contiguous broadcast.
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      // If cannot split,  which means input has 3 parts
      FastBroadCastAllCUDAF(y_broadcast_pos, max_dim, true);
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      fast_broadcast = true;
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    }
  } else if (y_broadcast_pos.empty() && !x_broadcast_pos.empty()) {
    // only x need broadcast
    can_split_x = SplitDims(x_broadcast_pos, max_dim);
    if (can_split_x) {
      if (x_broadcast_pos[0] == 0) {
        FastBroadCastHeightCUDAF(x_broadcast_pos, false);
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        fast_broadcast = true;
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      }
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    } else if (x_broadcast_pos.size() == 1 ||
               CheckContiguousDims(x_broadcast_pos)) {
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      FastBroadCastAllCUDAF(x_broadcast_pos, max_dim, false);
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      fast_broadcast = true;
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    }
  } else if (!x_broadcast_pos.empty() && !y_broadcast_pos.empty()) {
    // do x and y broadcast each.
    can_split_y = SplitDims(y_broadcast_pos, max_dim);
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    bool fast_broadcast_x = false;
    bool fast_broadcast_y = false;
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    if (can_split_y) {
      // begin at start.
      if (y_broadcast_pos[0] == 0) {
        FastCommonCUDAF(y_broadcast_pos, true);
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        fast_broadcast_y = true;
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      }
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    } else if (y_broadcast_pos.size() == 1) {
      FastBroadCastOneCUDAF(y_broadcast_pos, max_dim, false);
      can_split_y = true;
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      fast_broadcast_y = true;
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    }
    can_split_x = SplitDims(x_broadcast_pos, max_dim);
    if (can_split_x) {
      if (x_broadcast_pos[0] == 0) {
        FastCommonCUDAF(x_broadcast_pos, false);
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        fast_broadcast_x = true;
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      }
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    } else if (x_broadcast_pos.size() == 1) {
      FastBroadCastOneCUDAF(x_broadcast_pos, max_dim, true);
      can_split_x = true;
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      fast_broadcast_x = true;
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    }
    VLOG(3) << "CommonBroadcast can_split_y:" << can_split_y
            << " can_split_x:" << can_split_x;
    // if both x and y into fast path then return
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    if (fast_broadcast_x && fast_broadcast_y) {
      fast_broadcast = true;
    }
    if (can_split_y && can_split_x && fast_broadcast) return;
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  }
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  // Should remove memory copy, use reg instead.
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  if (fast_broadcast) {
    return;
  }
1006 1007 1008 1009 1010 1011 1012 1013 1014 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035
  int x_blocks = 0;
  int x_threads = 0;
  ComputeBroadcastKernelSize(x_dims_array, out_dims_array, &x_blocks,
                             &x_threads, max_dim);
  int y_blocks = 0;
  int y_threads = 0;
  ComputeBroadcastKernelSize(y_dims_array, out_dims_array, &y_blocks,
                             &y_threads, max_dim);

  auto x_strides_array_tmp = memory::Alloc(ctx, bytes);
  int *x_strides_array_gpu =
      reinterpret_cast<int *>(x_strides_array_tmp->ptr());
  memory::Copy(gplace, x_strides_array_gpu, cplace, x_strides_array.data(),
               bytes, ctx.stream());

  auto y_strides_array_tmp = memory::Alloc(ctx, bytes);
  int *y_strides_array_gpu =
      reinterpret_cast<int *>(y_strides_array_tmp->ptr());
  memory::Copy(gplace, y_strides_array_gpu, cplace, y_strides_array.data(),
               bytes, ctx.stream());

  auto out_dims_array_tmp = memory::Alloc(ctx, bytes);
  int *out_dims_array_gpu = reinterpret_cast<int *>(out_dims_array_tmp->ptr());
  memory::Copy(gplace, out_dims_array_gpu, cplace, out_dims_array, bytes,
               ctx.stream());

  const int out_size = std::accumulate(out_dims_array, out_dims_array + max_dim,
                                       1, std::multiplies<int>());
  int x_block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, x_threads);
  int y_block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, y_threads);
1036
  if (dx) {
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    auto x_strides_order_tmp = memory::Alloc(ctx, bytes);
    int *x_strides_order_gpu =
        reinterpret_cast<int *>(x_strides_order_tmp->ptr());
    memory::Copy(gplace, x_strides_order_gpu, cplace, x_strides_order.data(),
                 bytes, ctx.stream());

    auto x_dims_order_tmp = memory::Alloc(ctx, bytes);
    int *x_dims_order_gpu = reinterpret_cast<int *>(x_dims_order_tmp->ptr());
    memory::Copy(gplace, x_dims_order_gpu, cplace, x_dims_order.data(), bytes,
                 ctx.stream());
    CommonGradBroadcastCUDAKernel<
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        T, DX_OP, Tout><<<x_blocks, x_block_size, 0, ctx.stream()>>>(
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        x_strides_array_gpu, y_strides_array_gpu, out_dims_array_gpu,
        x_strides_order_gpu, x_dims_order_gpu, x_data, y_data, out_data,
        dout_data, dx_data, out_size, max_dim, x_threads, dx_op);
  }
1053
  if (dy) {
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    auto y_strides_order_tmp = memory::Alloc(ctx, bytes);
    int *y_strides_order_gpu =
        reinterpret_cast<int *>(y_strides_order_tmp->ptr());
    memory::Copy(gplace, y_strides_order_gpu, cplace, y_strides_order.data(),
                 bytes, ctx.stream());

    auto y_dims_order_tmp = memory::Alloc(ctx, bytes);
    int *y_dims_order_gpu = reinterpret_cast<int *>(y_dims_order_tmp->ptr());
    memory::Copy(gplace, y_dims_order_gpu, cplace, y_dims_order.data(), bytes,
                 ctx.stream());
    CommonGradBroadcastCUDAKernel<
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        T, DY_OP, Tout><<<y_blocks, y_block_size, 0, ctx.stream()>>>(
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        x_strides_array_gpu, y_strides_array_gpu, out_dims_array_gpu,
        y_strides_order_gpu, y_dims_order_gpu, x_data, y_data, out_data,
        dout_data, dy_data, out_size, max_dim, y_threads, dy_op);
  }
}

1072
#endif  // __NVCC__ or __HIPCC__
1073

1074
inline framework::DDim trim_trailing_singular_dims(
1075
    const framework::DDim &dims) {
1076
  return pten::funcs::trim_trailing_singular_dims(dims);
1077 1078
}

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template <typename T, typename DX_OP, typename DY_OP, typename Tout = T>
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struct ElemwiseGradNoBroadcast {
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  const T *x_;
  const T *y_;
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  const Tout *out_;
  const Tout *dout_;
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  HOSTDEVICE void operator()(size_t i) {
    if (dx_ != nullptr) {
      dx_[i] = dx_op_(x_[i], y_[i], out_[i], dout_[i]);
    }
    if (dy_ != nullptr) {
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      dy_[i] = dy_op_(x_[i], y_[i], out_[i], dout_[i]);
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    }
  }

  DX_OP dx_op_;
  DY_OP dy_op_;
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  T *dx_;
  T *dy_;
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};

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template <typename T, typename DX_OP, typename DY_OP, typename Tout = T>
static void ElemwiseGradBroadcast1CPU(const T *x, const T *y, const Tout *out,
                                      const Tout *dout, int h, int w,
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                                      bool is_xsize_larger, DX_OP dx_op,
1105
                                      DY_OP dy_op, T *dx, T *dy) {
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  if (is_xsize_larger) {
    for (int i = 0; i < h; ++i) {
      for (int j = 0; j < w; ++j) {
        int x_offset = i * w + j;
        if (dx != nullptr) {
          dx[x_offset] =
              dx_op(x[x_offset], y[j], out[x_offset], dout[x_offset]);
        }
        if (dy != nullptr) {
          T tmp = dy_op(x[x_offset], y[j], out[x_offset], dout[x_offset]);
          if (i == 0) {
            dy[j] = tmp;
          } else {
            dy[j] += tmp;
          }
        }
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      }
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    }
  } else {  // x.dims < y.dims, broadcast for x.
    for (int i = 0; i < h; ++i) {
      for (int j = 0; j < w; ++j) {
        int y_offset = i * w + j;
        if (dy != nullptr) {
          dy[y_offset] =
              dy_op(x[j], y[y_offset], out[y_offset], dout[y_offset]);
        }
        if (dx != nullptr) {
          T tmp = dx_op(x[j], y[y_offset], out[y_offset], dout[y_offset]);
          if (i == 0) {
            dx[j] = tmp;
          } else {
            dx[j] += tmp;
          }
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        }
      }
    }
  }
}
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1145
#if defined(__NVCC__) || defined(__HIPCC__)
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template <typename T, typename DX_OP, typename DY_OP, typename Tout = T>
1148
static void ElemwiseGradBroadcast1CUDA(gpuStream_t stream, const T *x,
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                                       const T *y, const Tout *out,
                                       const Tout *dout, int h, int w,
                                       bool is_xsize_larger, DX_OP dx_op,
                                       DY_OP dy_op, T *dx, T *dy) {
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  // For small case use 1D block
  constexpr int half_walf = 16;
  if (w < half_walf || h < half_walf) {
    int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, h);
    int gird_size = w;
    ElemwiseGradBroadcast1CUDAKernel<<<gird_size, block_size, 0, stream>>>(
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        x, y, out, dout, h, w, is_xsize_larger, dx_op, dy_op, dx, dy);
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  } else {
    // suppose perfoemance improves with h increased.
    dim3 block_size = dim3(BLOCK_X, BLOCK_Y);
    int grid_size = (w + BLOCK_X - 1) / BLOCK_X;
    FastElemwiseGradBroadcast1CUDAKernel<<<grid_size, block_size, 0, stream>>>(
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        x, y, out, dout, h, w, is_xsize_larger, dx_op, dy_op, dx, dy);
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  }
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}

#endif

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template <typename T, typename DX_OP, typename DY_OP, typename Tout = T>
static void ElemwiseGradBroadcast2CPU(const T *x, const T *y, const Tout *out,
                                      const Tout *dout, int pre, int n,
                                      int post, bool is_xsize_larger,
                                      DX_OP dx_op, DY_OP dy_op, T *dx, T *dy) {
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  if (is_xsize_larger) {
    for (int i = 0; i < pre; ++i) {
      for (int j = 0; j < n; ++j) {
        for (int k = 0; k < post; ++k) {
          int x_offset = i * n * post + j * post + k;
          if (dx != nullptr) {
            dx[x_offset] =
                dx_op(x[x_offset], y[j], out[x_offset], dout[x_offset]);
          }
          if (dy != nullptr) {
            T tmp = dy_op(x[x_offset], y[j], out[x_offset], dout[x_offset]);
            if (i == 0 && k == 0) {
              dy[j] = tmp;
            } else {
              dy[j] += tmp;
            }
          }
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        }
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      }
    }
  } else {  // x.dims < y.dims, broadcast for x.
    for (int i = 0; i < pre; ++i) {
      for (int j = 0; j < n; ++j) {
        for (int k = 0; k < post; ++k) {
          int y_offset = i * n * post + j * post + k;
          if (dy != nullptr) {
            dy[y_offset] =
                dy_op(x[j], y[y_offset], out[y_offset], dout[y_offset]);
          }
          if (dx != nullptr) {
            T tmp = dx_op(x[j], y[y_offset], out[y_offset], dout[y_offset]);
            if (i == 0 && k == 0) {
              dx[j] = tmp;
            } else {
              dx[j] += tmp;
            }
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          }
        }
      }
    }
  }
}

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#if defined(__NVCC__) || defined(__HIPCC__)
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template <typename T, typename DX_OP, typename DY_OP, typename Tout = T>
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static __global__ void ElemwiseGradBroadcast2CUDAKernel(
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    const T *x, const T *y, const Tout *out, const Tout *dout, int pre, int n,
1223
    int post, bool is_xsize_larger, DX_OP dx_op, DY_OP dy_op, T *dx, T *dy) {
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  int tid = threadIdx.x;
  int j = blockIdx.x;

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  T val(0);
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  int ttid = tid;

1230 1231 1232 1233 1234
  if (is_xsize_larger) {
    while (true) {
      int i = ttid / post;
      int k = ttid % post;
      if (i >= pre) break;
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      int x_offset = i * n * post + j * post + k;
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      if (dx != nullptr) {
        dx[x_offset] = dx_op(x[x_offset], y[j], out[x_offset], dout[x_offset]);
      }

      if (dy != nullptr) {
        val += dy_op(x[x_offset], y[j], out[x_offset], dout[x_offset]);
      }

      ttid += ELEMWISE_MAX_BLOCK_DIM;
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    }

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    if (dy) {
      int h = pre * post;
      h = h > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : h;
      val = paddle::platform::reduceSum(val, tid, h);
      if (threadIdx.x == 0) {
        dy[j] = val;
      }
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    }
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  } else {  // x.dims < y.dims, broadcast for x.
    while (true) {
      int i = ttid / post;
      int k = ttid % post;
      if (i >= pre) break;
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      int y_offset = i * n * post + j * post + k;
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      if (dy != nullptr) {
        dy[y_offset] = dy_op(x[j], y[y_offset], out[y_offset], dout[y_offset]);
      }

      if (dx != nullptr) {
        val += dx_op(x[j], y[y_offset], out[y_offset], dout[y_offset]);
      }

      ttid += ELEMWISE_MAX_BLOCK_DIM;
    }

    if (dx) {
      int h = pre * post;
      h = h > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : h;
      val = paddle::platform::reduceSum(val, tid, h);
      if (threadIdx.x == 0) {
        dx[j] = val;
      }
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    }
  }
}

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template <typename T, typename DX_OP, typename DY_OP, typename Tout = T>
1288
static void ElemwiseGradBroadcast2CUDA(gpuStream_t stream, const T *x,
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                                       const T *y, const Tout *out,
                                       const Tout *dout, int pre, int n,
                                       int post, bool is_xsize_larger,
                                       DX_OP dx_op, DY_OP dy_op, T *dx, T *dy) {
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  int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, pre * post);
  int gird_size = n;
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  ElemwiseGradBroadcast2CUDAKernel<<<gird_size, block_size, 0, stream>>>(
1296
      x, y, out, dout, pre, n, post, is_xsize_larger, dx_op, dy_op, dx, dy);
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}

#endif

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template <typename DeviceContext, typename T, typename DX_OP, typename DY_OP,
          typename Tout = T>
1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318
void CommonElementwiseBroadcastBackward(
    const framework::ExecutionContext &ctx, const framework::DDim &x_dims,
    const framework::DDim &y_dims, const framework::Tensor &x,
    const framework::Tensor &y, const framework::Tensor &out,
    const framework::Tensor &dout, int axis, framework::Tensor *dx,
    framework::Tensor *dy, DX_OP dx_op, DY_OP dy_op) {
  int max_dim = std::max(x_dims.size(), y_dims.size());
  axis = (axis == -1 ? std::abs(x_dims.size() - y_dims.size()) : axis);
  std::vector<int> x_dims_array(max_dim);
  std::vector<int> y_dims_array(max_dim);
  std::vector<int> out_dims_array(max_dim);
  GetBroadcastDimsArrays(x_dims, y_dims, x_dims_array.data(),
                         y_dims_array.data(), out_dims_array.data(), max_dim,
                         axis);
  // for inplace strategy. memset will make dx and dout clear and get wrong
  // result.
1319
  if (dx && dx->IsSharedBufferWith(dout)) {
1320 1321
    dx->clear();
    dx->mutable_data<T>(x_dims, ctx.GetPlace());
1322 1323
  }

1324 1325 1326 1327
  VLOG(3) << "CommonElementwiseBroadcastBackward xdims:"
          << framework::make_ddim(x_dims_array)
          << " ydim:" << framework::make_ddim(y_dims_array);

1328
  if (platform::is_gpu_place(ctx.GetPlace())) {
1329
#if defined(__NVCC__) || defined(__HIPCC__)
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    CommonGradBroadcastCUDA<T, DX_OP, DY_OP, Tout>(
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        x, y, out, dout, dx, dy, x_dims_array.data(), y_dims_array.data(),
        out_dims_array.data(), max_dim,
        ctx.template device_context<platform::CUDADeviceContext>(), dx_op,
        dy_op);
#endif
  } else {
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    CommonGradBroadcastCPU<T, DX_OP, DY_OP, Tout>(
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        x, y, out, dout, dx, dy, x_dims_array.data(), y_dims_array.data(),
        out_dims_array.data(), max_dim,
        ctx.template device_context<platform::CPUDeviceContext>(), dx_op,
        dy_op);
1342 1343 1344
  }
}

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template <typename DeviceContext, typename T, typename DX_OP, typename DY_OP,
          typename Tout = T>
1347
void ElemwiseGradComputeNoBroadcast(
1348 1349 1350 1351 1352
    const framework::ExecutionContext &ctx, const framework::DDim &x_dim,
    const framework::DDim &y_dim, const framework::Tensor &x,
    const framework::Tensor &y, const framework::Tensor &out,
    const framework::Tensor &dout, int axis, framework::Tensor *dx,
    framework::Tensor *dy, DX_OP dx_op, DY_OP dy_op) {
1353
  size_t N = static_cast<size_t>(framework::product(x_dim));
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#if !defined(_WIN32)
1355 1356
  platform::ForRange<DeviceContext> for_range(
      ctx.template device_context<DeviceContext>(), N);
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#else
  platform::ForRange<DeviceContext> for_range(
      ctx.device_context<DeviceContext>(), N);
#endif  // !_WIN32
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  for_range(ElemwiseGradNoBroadcast<T, DX_OP, DY_OP, Tout>{
      x.data<T>(), y.data<T>(), out.data<Tout>(), dout.data<Tout>(), dx_op,
      dy_op, dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
1364 1365 1366
      dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace())});
}

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template <typename DeviceContext, typename T, typename DX_OP, typename DY_OP,
          typename Tout = T>
1369
void ElemwiseGradComputeWithBroadcast(
1370 1371
    const framework::ExecutionContext &ctx, const framework::DDim &x_dims,
    const framework::DDim &y_dims, const framework::Tensor &x,
1372 1373 1374
    const framework::Tensor &y, const framework::Tensor &out,
    const framework::Tensor &dout, int axis, framework::Tensor *dx,
    framework::Tensor *dy, DX_OP dx_op, DY_OP dy_op) {
1375
  bool is_xsize_larger = true;
1376

1377 1378 1379 1380 1381
  int max_dim = x_dims.size();
  if (x_dims.size() < y_dims.size()) {
    is_xsize_larger = false;
    max_dim = y_dims.size();
  }
1382

1383
  axis = (axis == -1 ? std::abs(x_dims.size() - y_dims.size()) : axis);
1384 1385 1386 1387 1388 1389 1390 1391 1392
  PADDLE_ENFORCE_GE(
      axis, 0,
      platform::errors::InvalidArgument(
          "Axis should be great than or equal to 0, but received axis is %d.",
          axis));
  PADDLE_ENFORCE_LT(axis, max_dim,
                    platform::errors::InvalidArgument(
                        "Axis should be less than %d, but received axis is %d.",
                        max_dim, axis));
1393 1394 1395 1396 1397

  int pre, n, post, is_run_common_broadcast, axis_trim = 0;
  if (is_xsize_larger) {
    auto y_dims_trimed = trim_trailing_singular_dims(y_dims);
    axis_trim = (y_dims_trimed.size() == 0) ? x_dims.size() : axis;
1398 1399
    pten::funcs::get_mid_dims(x_dims, y_dims_trimed, axis_trim, &pre, &n, &post,
                              &is_run_common_broadcast);
1400 1401 1402
  } else {
    auto x_dims_trimed = trim_trailing_singular_dims(x_dims);
    axis_trim = (x_dims_trimed.size() == 0) ? y_dims.size() : axis;
1403 1404
    pten::funcs::get_mid_dims(y_dims, x_dims_trimed, axis_trim, &pre, &n, &post,
                              &is_run_common_broadcast);
1405 1406 1407
  }
  // special case for common backward implementation.
  if (is_run_common_broadcast) {
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    CommonElementwiseBroadcastBackward<DeviceContext, T, DX_OP, DY_OP, Tout>(
1409 1410 1411 1412
        ctx, x_dims, y_dims, x, y, out, dout, axis, dx, dy, dx_op, dy_op);
    return;
  }
  if (post == 1) {
1413
    if (platform::is_gpu_place(ctx.GetPlace())) {
1414
#if defined(__NVCC__) || defined(__HIPCC__)
1415 1416
      ElemwiseGradBroadcast1CUDA(
          ctx.template device_context<DeviceContext>().stream(), x.data<T>(),
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          y.data<T>(), out.data<Tout>(), dout.data<Tout>(), pre, n,
          is_xsize_larger, dx_op, dy_op,
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          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()));
#endif
    } else {
      ElemwiseGradBroadcast1CPU(
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          x.data<T>(), y.data<T>(), out.data<Tout>(), dout.data<Tout>(), pre, n,
1425
          is_xsize_larger, dx_op, dy_op,
1426
          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
1427 1428 1429 1430
          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()));
    }
  } else {
    if (platform::is_gpu_place(ctx.GetPlace())) {
1431
#if defined(__NVCC__) || defined(__HIPCC__)
1432 1433
      ElemwiseGradBroadcast2CUDA(
          ctx.template device_context<DeviceContext>().stream(), x.data<T>(),
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          y.data<T>(), out.data<Tout>(), dout.data<Tout>(), pre, n, post,
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          is_xsize_larger, dx_op, dy_op,
          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
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          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()));
#endif
    } else {
      ElemwiseGradBroadcast2CPU(
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          x.data<T>(), y.data<T>(), out.data<Tout>(), dout.data<Tout>(), pre, n,
          post, is_xsize_larger, dx_op, dy_op,
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          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()));
    }
  }
}

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template <typename Functor, typename DeviceContext, typename T,
          typename OutType = T>
void CommonElementwiseBroadcastForward(
    const framework::ExecutionContext &ctx, const framework::Tensor *x,
    const framework::Tensor *y, framework::Tensor *z,
    const framework::DDim &x_dims, const framework::DDim &y_dims, Functor func,
    int axis, const bool is_xsize_larger = true) {
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  z->mutable_data<OutType>(ctx.GetPlace());
  auto pt_x = paddle::experimental::MakePtenDenseTensor(*x);
  auto pt_y = paddle::experimental::MakePtenDenseTensor(*y);
  auto pt_z = paddle::experimental::MakePtenDenseTensor(*z);
  const auto &dev_ctx = ctx.template device_context<DeviceContext>();
  pten::CommonElementwiseBroadcastForward(dev_ctx, *pt_x.get(), *pt_y.get(),
                                          pt_z.get(), x_dims, y_dims, func,
                                          axis, is_xsize_larger);
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}

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template <typename DeviceContext, typename T, typename DX_OP, typename DY_OP,
          typename Tout = T>
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void ElemwiseGradCompute(const framework::ExecutionContext &ctx,
                         const framework::Tensor &x, const framework::Tensor &y,
                         const framework::Tensor &out,
                         const framework::Tensor &dout, int axis,
                         framework::Tensor *dx, framework::Tensor *dy,
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                         DX_OP dx_op, DY_OP dy_op) {
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  const framework::DDim &x_dim = x.dims();
  const framework::DDim &y_dim = y.dims();
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  if (x.dims() == y.dims()) {
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    ElemwiseGradComputeNoBroadcast<DeviceContext, T, DX_OP, DY_OP, Tout>(
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        ctx, x_dim, y_dim, x, y, out, dout, axis, dx, dy, dx_op, dy_op);
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  } else {
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    ElemwiseGradComputeWithBroadcast<DeviceContext, T, DX_OP, DY_OP, Tout>(
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        ctx, x_dim, y_dim, x, y, out, dout, axis, dx, dy, dx_op, dy_op);
  }
}

// NOTE(dzhwinter): Only used in elementwise_add, elementwise_sub.
// explicit gradient can cut off X, Y, Out from gradient op
// In elementwise_add, elementwise_sub, we use dout as fake X, Y, Out to reuse
// elementwise code.
template <typename DeviceContext, typename T, typename DX_OP, typename DY_OP>
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void ElemwiseExplicitGradCompute(const framework::ExecutionContext &ctx,
                                 const framework::Tensor &x,
                                 const framework::Tensor &y,
                                 const framework::Tensor &out,
                                 const framework::Tensor &dout, int axis,
                                 framework::Tensor *dx, framework::Tensor *dy,
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                                 DX_OP dx_op, DY_OP dy_op) {
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  const framework::DDim &x_dim = x.dims();
  const framework::DDim &y_dim = y.dims();
  if (x.dims() == y.dims()) {
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    ElemwiseGradComputeNoBroadcast<DeviceContext, T, DX_OP, DY_OP>(
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        ctx, x_dim, y_dim, dout, dout, out, dout, axis, dx, dy, dx_op, dy_op);
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  } else {
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    ElemwiseGradComputeWithBroadcast<DeviceContext, T, DX_OP, DY_OP>(
        ctx, x_dim, y_dim, dout, dout, out, dout, axis, dx, dy, dx_op, dy_op);
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  }
}
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// It is a common implementation to compute binary calculation with the support
// of broadcast, supporting both CPU and GPU.
// - CPU implementation cannot support the case when x needs broadcast, thus
//   this function need to be called with XxxFunctor and XxxInverseFunctor,
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//   like AddFunctor and InverseAddFunctor.
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// - GPU implementation supports all the broadcast cases, thus there is no need
//   to define and call with XxxInverseFunctor.
// TODO(liuyiqun): optimize the CPU implementation to support all broadcast
// cases and avoid the need of XxxInverseFunctor.
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template <typename Functor, typename DeviceContext, typename T,
          typename OutType = T>
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void ElementwiseComputeEx(const framework::ExecutionContext &ctx,
                          const framework::Tensor *x,
                          const framework::Tensor *y, int axis, Functor func,
                          framework::Tensor *z) {
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  z->mutable_data<OutType>(ctx.GetPlace());
  auto pt_x = paddle::experimental::MakePtenDenseTensor(*x);
  auto pt_y = paddle::experimental::MakePtenDenseTensor(*y);
  auto pt_z = paddle::experimental::MakePtenDenseTensor(*z);
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  if (platform::is_gpu_place(ctx.GetPlace())) {
#if defined(__NVCC__) || defined(__HIPCC__)
    std::vector<const framework::Tensor *> ins = {x, y};
    std::vector<framework::Tensor *> outs = {z};
    z->mutable_data<OutType>(ctx.GetPlace());

    const auto &dev_ctx =
        ctx.template device_context<platform::CUDADeviceContext>();
    LaunchElementwiseCudaKernel<ElementwiseType::kBinary, T, OutType>(
        dev_ctx, ins, &outs, axis, func);
#endif
    return;
  }

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  const auto &dev_ctx =
      ctx.template device_context<platform::CPUDeviceContext>();
  pten::ElementwiseCompute<Functor, T, OutType>(
      dev_ctx, *pt_x.get(), *pt_y.get(), axis, func, pt_z.get());
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}

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// FusedElemwiseAndAct
// --- forward
template <typename T, typename CompoundFunctor, bool KeepIntermediateOut>
struct FusedElemwiseAndActNoBroadcast {
  HOSTDEVICE void operator()(size_t i) {
    T y_val = y_[i];
    T x_val = x_[i];
    if (KeepIntermediateOut) {
      T intermeidiate_out = compound_functor_.GetIntermediateOut(x_val, y_val);
      intermediate_out_[i] = intermeidiate_out;
      out_[i] =
          compound_functor_.GetOutUseIntermediateOut(x_val, intermeidiate_out);
    } else {
      out_[i] = compound_functor_.GetOut(x_val, y_val);
    }
  }

  const T *x_;
  const T *y_;
  CompoundFunctor compound_functor_;
  T *out_;
  T *intermediate_out_;
};

// FusedElemwiseAndActBroadcast1:
// In this case, X and Y can be reshaped to a matrix.
// For example shape(X) = (2, 3, 4, 5), shape(Y) = (4, 5) and axis = -1 or 2,
// X can be reshaped to (6, 20) and Y can be reshaped to (1, 20)
template <typename T, typename CompoundFunctor, bool BcastY,
          bool KeepIntermediateOut, bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActBroadcast1CPU(const T *x, const T *y,
                                             CompoundFunctor compound_functor,
                                             int h, int w, T *out,
                                             T *intermediate_out) {
  for (int i = 0; i < h; ++i) {
    for (int j = 0; j < w; ++j) {
      int offset = i * w + j;

      T y_val = BcastY ? y[j] : y[offset];
      T x_val = BcastY ? x[offset] : x[j];
      int64_t intermediate_out_offset;
      if (KeepIntermediateOut) {
        T intermeidiate_out = compound_functor.GetIntermediateOut(x_val, y_val);

        if (SameShapeOfIntermediateOutAndOut) {
          // for the case of f1(f2(x, y))
          intermediate_out_offset = offset;
        } else if (BcastY) {
          intermediate_out_offset = j;
        } else {
          intermediate_out_offset = offset;
        }

        intermediate_out[intermediate_out_offset] = intermeidiate_out;
        out[offset] =
            compound_functor.GetOutUseIntermediateOut(x_val, intermeidiate_out);
      } else {
        out[offset] = compound_functor.GetOut(x_val, y_val);
      }
    }
  }
}

// FusedElemwiseAndActBroadcast2
// In this case, X and Y can be reshaped to a matrix.
// For example shape(X) = (2, 3, 4, 5), shape(Y) = (3, 4) and axis = 1,
// X can be reshaped to (2, 12, 5) and Y can be reshaped to (1, 12, 1)
// pre = 2, n = 12, post = 5
template <typename T, typename CompoundFunctor, bool BcastY,
          bool KeepIntermediateOut, bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActBroadcast2CPU(const T *x, const T *y, int pre,
                                             int n, int post,
                                             CompoundFunctor compound_functor,
                                             T *out, T *intermediate_out) {
  for (int i = 0; i < pre; ++i) {
    for (int j = 0; j < n; ++j) {
      for (int k = 0; k < post; ++k) {
        int offset = i * n * post + j * post + k;

        T y_val = BcastY ? y[j] : y[offset];
        T x_val = BcastY ? x[offset] : x[j];
        int64_t intermediate_out_offset;

        if (KeepIntermediateOut) {
          T intermeidiate_out =
              compound_functor.GetIntermediateOut(x_val, y_val);

          if (SameShapeOfIntermediateOutAndOut) {
            // for the case of f1(f2(x, y))
            intermediate_out_offset = offset;
          } else if (BcastY) {
            intermediate_out_offset = j;
          } else {
            intermediate_out_offset = offset;
          }

          intermediate_out[intermediate_out_offset] = intermeidiate_out;
          out[offset] = compound_functor.GetOutUseIntermediateOut(
              x_val, intermeidiate_out);
        } else {
          out[offset] = compound_functor.GetOut(x_val, y_val);
        }
      }
    }
  }
}

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#if defined(__NVCC__) || defined(__HIPCC__)
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template <typename T, typename CompoundFunctor, bool BcastY,
          bool KeepIntermediateOut, bool SameShapeOfIntermediateOutAndOut>
static __global__ void FusedElemwiseAndActBroadcast1CUDAKernel(
    const T *x, const T *y, int h, int w, CompoundFunctor compound_functor,
    T *out, T *intermediate_out) {
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  int i = blockIdx.x;
  int j = threadIdx.x;
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  while (j < w) {
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    int offset = i * w + j;

    T y_val = BcastY ? y[j] : y[offset];
    T x_val = BcastY ? x[offset] : x[j];
    int64_t intermediate_out_offset;

    if (KeepIntermediateOut) {
      T intermeidiate_out = compound_functor.GetIntermediateOut(x_val, y_val);

      if (SameShapeOfIntermediateOutAndOut) {
        // for the case of f1(f2(x, y))
        intermediate_out_offset = offset;
      } else if (BcastY) {
        intermediate_out_offset = j;
      } else {
        intermediate_out_offset = offset;
      }

      intermediate_out[intermediate_out_offset] = intermeidiate_out;
      out[offset] =
          compound_functor.GetOutUseIntermediateOut(x_val, intermeidiate_out);
    } else {
      out[offset] = compound_functor.GetOut(x_val, y_val);
    }

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    j += ELEMWISE_MAX_BLOCK_DIM;
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  }
}

template <typename T, typename CompoundFunctor, bool BcastY,
          bool KeepIntermediateOut, bool SameShapeOfIntermediateOutAndOut>
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static void FusedElemwiseAndActBroadcast1CUDA(gpuStream_t stream, const T *x,
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                                              const T *y,
                                              CompoundFunctor compound_functor,
                                              int h, int w, T *out,
                                              T *intermediate_out) {
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  int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, w);
  int gird_size = h;
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  FusedElemwiseAndActBroadcast1CUDAKernel<
      T, CompoundFunctor, BcastY, KeepIntermediateOut,
      SameShapeOfIntermediateOutAndOut><<<gird_size, block_size, 0, stream>>>(
      x, y, h, w, compound_functor, out, intermediate_out);
}

template <typename T, typename CompoundFunctor, bool BcastY,
          bool KeepIntermediateOut, bool SameShapeOfIntermediateOutAndOut>
static __global__ void FusedElemwiseAndActBroadcast2CUDAKernel(
    const T *x, const T *y, CompoundFunctor compound_functor, int pre, int n,
    int post, T *out, T *intermediate_out) {
  int tid = threadIdx.x;
  int j = blockIdx.x;

  while (true) {
    int i = tid / post;
    int k = tid % post;
    if (i >= pre) break;

    int offset = i * n * post + j * post + k;

    T y_val = BcastY ? y[j] : y[offset];
    T x_val = BcastY ? x[offset] : x[j];
    int64_t intermediate_out_offset;

    if (KeepIntermediateOut) {
      T intermeidiate_out = compound_functor.GetIntermediateOut(x_val, y_val);

      if (SameShapeOfIntermediateOutAndOut) {
        // for the case of f1(f2(x, y))
        intermediate_out_offset = offset;
      } else if (BcastY) {
        intermediate_out_offset = j;
      } else {
        intermediate_out_offset = offset;
      }

      intermediate_out[intermediate_out_offset] = intermeidiate_out;
      out[offset] =
          compound_functor.GetOutUseIntermediateOut(x_val, intermeidiate_out);
    } else {
      out[offset] = compound_functor.GetOut(x_val, y_val);
    }

    tid += ELEMWISE_MAX_BLOCK_DIM;
  }
}

template <typename T, typename CompoundFunctor, bool BcastY,
          bool KeepIntermediateOut, bool SameShapeOfIntermediateOutAndOut>
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static void FusedElemwiseAndActBroadcast2CUDA(gpuStream_t stream, const T *x,
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                                              const T *y, int pre, int n,
                                              int post,
                                              CompoundFunctor compound_functor,
                                              T *out, T *intermediate_out) {
  int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, pre * post);
  int gird_size = n;

  FusedElemwiseAndActBroadcast2CUDAKernel<
      T, CompoundFunctor, BcastY, KeepIntermediateOut,
      SameShapeOfIntermediateOutAndOut><<<gird_size, block_size, 0, stream>>>(
      x, y, compound_functor, pre, n, post, out, intermediate_out);
}

#endif

template <typename DeviceContext, typename T, typename CompoundFunctor,
          bool KeepIntermediateOut>
void FusedElemwiseAndActComputeNoBroadcast(
    const framework::ExecutionContext &ctx, const framework::DDim &x_dim,
    const framework::Tensor &x, const framework::Tensor &y,
    CompoundFunctor compound_functor, framework::Tensor *out,
    framework::Tensor *intermediate_out) {
  size_t N = static_cast<size_t>(framework::product(x_dim));

  platform::ForRange<DeviceContext> for_range(
      ctx.template device_context<DeviceContext>(), N);

  for_range(
      FusedElemwiseAndActNoBroadcast<T, CompoundFunctor, KeepIntermediateOut>{
          x.data<T>(), y.data<T>(), compound_functor,
          out->mutable_data<T>(ctx.GetPlace()),
          intermediate_out == nullptr
              ? nullptr
              : intermediate_out->mutable_data<T>(ctx.GetPlace())});
}

template <typename DeviceContext, typename T, typename CompoundFunctor,
          bool BcastY, bool KeepIntermediateOut,
          bool SameShapeOfIntermediateOutAndOut>
void FusedElemwiseAndActComputeWithBroadcast(
    const framework::ExecutionContext &ctx, const framework::DDim &x_dim,
    const framework::DDim &y_dim_untrimed, const framework::Tensor &x,
    const framework::Tensor &y, CompoundFunctor compound_functor, int axis,
    framework::Tensor *out, framework::Tensor *intermediate_out) {
  axis = (axis == -1 ? x_dim.size() - y_dim_untrimed.size() : axis);
  auto y_dim = trim_trailing_singular_dims(y_dim_untrimed);
  axis = (y_dim.size() == 0) ? x_dim.size() : axis;

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  int pre, n, post, is_run_common_broadcast;
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  pten::funcs::get_mid_dims(x_dim, y_dim, axis, &pre, &n, &post,
                            &is_run_common_broadcast);
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  if (post == 1) {
    int h = pre;
    int w = n;
    if (platform::is_gpu_place(ctx.GetPlace())) {
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#if defined(__NVCC__) || defined(__HIPCC__)
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      FusedElemwiseAndActBroadcast1CUDA<T, CompoundFunctor, BcastY,
                                        KeepIntermediateOut,
                                        SameShapeOfIntermediateOutAndOut>(
          ctx.template device_context<DeviceContext>().stream(), x.data<T>(),
          y.data<T>(), compound_functor, h, w,
          out->mutable_data<T>(ctx.GetPlace()),
          intermediate_out == nullptr
              ? nullptr
              : intermediate_out->mutable_data<T>(ctx.GetPlace()));
#endif
    } else {
      FusedElemwiseAndActBroadcast1CPU<T, CompoundFunctor, BcastY,
                                       KeepIntermediateOut,
                                       SameShapeOfIntermediateOutAndOut>(
          x.data<T>(), y.data<T>(), compound_functor, h, w,
          out->mutable_data<T>(ctx.GetPlace()),
          intermediate_out == nullptr
              ? nullptr
              : intermediate_out->mutable_data<T>(ctx.GetPlace()));
    }
  } else {
    if (platform::is_gpu_place(ctx.GetPlace())) {
1831
#if defined(__NVCC__) || defined(__HIPCC__)
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      FusedElemwiseAndActBroadcast2CUDA<T, CompoundFunctor, BcastY,
                                        KeepIntermediateOut,
                                        SameShapeOfIntermediateOutAndOut>(
          ctx.template device_context<DeviceContext>().stream(), x.data<T>(),
          y.data<T>(), pre, n, post, compound_functor,
          out->mutable_data<T>(ctx.GetPlace()),
          intermediate_out == nullptr
              ? nullptr
              : intermediate_out->mutable_data<T>(ctx.GetPlace()));
#endif
    } else {
      FusedElemwiseAndActBroadcast2CPU<T, CompoundFunctor, BcastY,
                                       KeepIntermediateOut,
                                       SameShapeOfIntermediateOutAndOut>(
          x.data<T>(), y.data<T>(), pre, n, post, compound_functor,
          out->mutable_data<T>(ctx.GetPlace()),
          intermediate_out == nullptr
              ? nullptr
              : intermediate_out->mutable_data<T>(ctx.GetPlace()));
    }
  }
}

// --- backward
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template <typename T, typename DX_OP, typename DY_OP, typename DIntermediate_OP,
          bool UseIntermediateOut>
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struct FusedElemwiseAndActGradNoBroadcast {
  HOSTDEVICE void operator()(size_t i) {
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    T zero = static_cast<T>(0);
    T x_val = (x_ == nullptr) ? zero : x_[i];
    T y_val = (y_ == nullptr) ? zero : y_[i];
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    T out_val = out_[i];
    T dout_val = dout_[i];
    T intermediate_out_val = UseIntermediateOut
                                 ? intermediate_out_[i]
                                 : dx_op_.GetIntermediateOut(x_val, y_val);
1868
    if (dx_ != nullptr) {
1869 1870
      dx_[i] = dx_op_.UseIntermediateOut(x_val, y_val, intermediate_out_val,
                                         out_val, dout_val);
1871 1872
    }
    if (dy_ != nullptr) {
1873 1874
      dy_[i] = dy_op_.UseIntermediateOut(x_val, y_val, intermediate_out_val,
                                         out_val, dout_val);
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    }
    if (dintermediate_ != nullptr) {
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      dintermediate_[i] = dintermediate_op_.UseIntermediateOut(
          x_val, intermediate_out_val, out_val, dout_val);
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    }
  }

  const T *x_;
  const T *y_;
  const T *intermediate_out_;
  const T *out_;
  const T *dout_;
  DX_OP dx_op_;
  DY_OP dy_op_;
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  DIntermediate_OP dintermediate_op_;
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  T *dx_;
  T *dy_;
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  T *dintermediate_;
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};

template <typename DeviceContext, typename T, typename DX_OP, typename DY_OP,
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          typename DIntermediate_OP, bool UseIntermediateOut>
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void FusedElemwiseAndActGradComputeNoBroadcast(
    const framework::ExecutionContext &ctx, const framework::DDim &x_dim,
    const framework::DDim &y_dim, const framework::Tensor *x,
    const framework::Tensor *y, const framework::Tensor *intermediate_out,
    const framework::Tensor *out, const framework::Tensor *dout, int axis,
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    framework::Tensor *dx, framework::Tensor *dy,
    framework::Tensor *dintermediate, DX_OP dx_op, DY_OP dy_op,
    DIntermediate_OP dintermediate_op) {
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  size_t N = static_cast<size_t>(framework::product(x_dim));
  platform::ForRange<DeviceContext> for_range(
      ctx.template device_context<DeviceContext>(), N);
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  const T *x_data = nullptr;
  const T *y_data = nullptr;
  if (x->IsInitialized()) x_data = x->data<T>();
  if (y->IsInitialized()) y_data = y->data<T>();

  for_range(FusedElemwiseAndActGradNoBroadcast<
            T, DX_OP, DY_OP, DIntermediate_OP, UseIntermediateOut>{
      x_data, y_data, intermediate_out ? intermediate_out->data<T>() : nullptr,
      out->data<T>(), dout->data<T>(), dx_op, dy_op, dintermediate_op,
      dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
      dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()),
      dintermediate == nullptr ? nullptr : dintermediate->mutable_data<T>(
                                               ctx.GetPlace())});
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}

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template <typename T, typename DX_OP, typename DY_OP, typename DIntermediate_OP,
          bool UseIntermediateOut, bool BcastY,
          bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActGradBroadcast1CPU(
    const T *x, const T *y, const T *intermediate_out, const T *out,
    const T *dout, int h, int w, DX_OP dx_op, DY_OP dy_op,
    DIntermediate_OP dintermediate_op, T *dx, T *dy, T *d_intermediate) {
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  int64_t tmp_out_idx, x_idx, y_idx;
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  T zero = static_cast<T>(0);
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  for (int i = 0; i < h; ++i) {
    for (int j = 0; j < w; ++j) {
      int offset = i * w + j;

      tmp_out_idx = BcastY ? j : offset;
      y_idx = BcastY ? j : offset;
      x_idx = BcastY ? offset : j;
1939 1940
      T x_val = (x == nullptr) ? zero : x[x_idx];
      T y_val = (y == nullptr) ? zero : y[y_idx];
1941 1942 1943 1944 1945 1946 1947

      if (SameShapeOfIntermediateOutAndOut) {
        tmp_out_idx = offset;
      }

      if (dx != nullptr) {
        T tmp = UseIntermediateOut
1948
                    ? dx_op.UseIntermediateOut(x_val, y_val,
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                                               intermediate_out[tmp_out_idx],
                                               out[offset], dout[offset])
1951
                    : dx_op.Recompute(x_val, y_val, out[offset], dout[offset]);
1952 1953 1954 1955 1956 1957 1958 1959 1960 1961 1962 1963 1964

        if (BcastY) {
          dx[x_idx] = tmp;
        } else {
          if (i == 0) {
            dx[x_idx] = tmp;
          } else {
            dx[x_idx] += tmp;
          }
        }
      }
      if (dy != nullptr) {
        T tmp = UseIntermediateOut
1965
                    ? dy_op.UseIntermediateOut(x_val, y_val,
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                                               intermediate_out[tmp_out_idx],
                                               out[offset], dout[offset])
1968
                    : dy_op.Recompute(x_val, y_val, out[offset], dout[offset]);
1969 1970 1971 1972 1973 1974 1975 1976 1977 1978
        if (BcastY) {
          if (i == 0) {
            dy[y_idx] = tmp;
          } else {
            dy[y_idx] += tmp;
          }
        } else {
          dy[y_idx] = tmp;
        }
      }
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      if (d_intermediate != nullptr) {
        T tmp = UseIntermediateOut
                    ? dintermediate_op.UseIntermediateOut(
1982
                          x_val, intermediate_out[tmp_out_idx], out[offset],
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                          dout[offset])
1984 1985
                    : dintermediate_op.Recompute(x_val, y_val, out[offset],
                                                 dout[i]);
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        if (SameShapeOfIntermediateOutAndOut) {
          d_intermediate[tmp_out_idx] = tmp;
        } else {
          if (i == 0) {
            d_intermediate[tmp_out_idx] = tmp;
          } else {
            d_intermediate[tmp_out_idx] += tmp;
          }
        }
      }
1996 1997 1998 1999
    }
  }
}

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template <typename T, typename DX_OP, typename DY_OP, typename DIntermediate_OP,
          bool UseIntermediateOut, bool BcastY,
          bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActGradBroadcast2CPU(
    const T *x, const T *y, const T *intermediate_out, const T *out,
    const T *dout, int pre, int n, int post, DX_OP dx_op, DY_OP dy_op,
    DIntermediate_OP dintermediate_op, T *dx, T *dy, T *d_intermediate) {
2007
  int64_t tmp_out_idx, x_idx, y_idx;
2008
  T zero = static_cast<T>(0);
2009 2010 2011 2012 2013 2014 2015 2016 2017
  for (int i = 0; i < pre; ++i) {
    for (int j = 0; j < n; ++j) {
      for (int k = 0; k < post; ++k) {
        int offset = i * n * post + j * post + k;

        tmp_out_idx = BcastY ? j : offset;
        y_idx = BcastY ? j : offset;
        x_idx = BcastY ? offset : j;

2018 2019 2020
        T x_val = (x == nullptr) ? zero : x[x_idx];
        T y_val = (y == nullptr) ? zero : y[y_idx];

2021 2022 2023 2024 2025
        if (SameShapeOfIntermediateOutAndOut) {
          tmp_out_idx = offset;
        }

        if (dx != nullptr) {
2026 2027 2028 2029 2030 2031
          T tmp =
              UseIntermediateOut
                  ? dx_op.UseIntermediateOut(x_val, y_val,
                                             intermediate_out[tmp_out_idx],
                                             out[offset], dout[offset])
                  : dx_op.Recompute(x_val, y_val, out[offset], dout[offset]);
2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043

          if (BcastY) {
            dx[x_idx] = tmp;
          } else {
            if (i == 0 && k == 0) {
              dx[x_idx] = tmp;
            } else {
              dx[x_idx] += tmp;
            }
          }
        }
        if (dy != nullptr) {
2044 2045 2046 2047 2048 2049
          T tmp =
              UseIntermediateOut
                  ? dy_op.UseIntermediateOut(x_val, y_val,
                                             intermediate_out[tmp_out_idx],
                                             out[offset], dout[offset])
                  : dy_op.Recompute(x_val, y_val, out[offset], dout[offset]);
2050 2051 2052 2053 2054 2055 2056 2057 2058 2059
          if (BcastY) {
            if (i == 0 && k == 0) {
              dy[y_idx] = tmp;
            } else {
              dy[y_idx] += tmp;
            }
          } else {
            dy[y_idx] = tmp;
          }
        }
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        if (d_intermediate != nullptr) {
          T tmp = UseIntermediateOut
                      ? dintermediate_op.UseIntermediateOut(
2063 2064 2065 2066
                            x_val, intermediate_out[tmp_out_idx], out[offset],
                            dout[offset])
                      : dintermediate_op.Recompute(x_val, y_val, out[offset],
                                                   dout[i]);
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          if (SameShapeOfIntermediateOutAndOut) {
            d_intermediate[tmp_out_idx] = tmp;
          } else {
            if (i == 0) {
              d_intermediate[tmp_out_idx] = tmp;
            } else {
              d_intermediate[tmp_out_idx] += tmp;
            }
          }
        }
2077 2078 2079 2080 2081
      }
    }
  }
}

2082
#if defined(__NVCC__) || defined(__HIPCC__)
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template <typename T, typename DX_OP, typename DY_OP, typename DIntermediate_OP,
          bool UseIntermediateOut, bool BcastY,
          bool SameShapeOfIntermediateOutAndOut>
2086 2087
static __global__ void FusedElemwiseAndActGradBroadcast1CUDAKernel(
    const T *x, const T *y, const T *intermediate_out, const T *out,
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    const T *dout, int h, int w, DX_OP dx_op, DY_OP dy_op,
    DIntermediate_OP dintermediate_op, T *dx, T *dy, T *d_intermediate) {
2090 2091 2092 2093 2094 2095
  __shared__ T sdata[BLOCK_Y][BLOCK_X];
  size_t idx = threadIdx.x + BLOCK_X * blockIdx.x;
  size_t width_stride = gridDim.x * BLOCK_X;

  size_t full_w = ROUNDUP(w, BLOCK_X);

2096
  T zero = static_cast<T>(0);
2097

2098 2099 2100 2101 2102
  for (size_t j = idx; j < full_w; j += width_stride) {
    T val(0), inter_val(0);
    if (j < w) {
      for (size_t i = threadIdx.y; i < h; i += BLOCK_Y) {
        size_t offset = i * w + j;
2103

2104 2105 2106 2107 2108
        size_t tmp_out_idx = BcastY ? j : offset;
        size_t y_idx = BcastY ? j : offset;
        size_t x_idx = BcastY ? offset : j;
        T x_val = (x == nullptr) ? zero : x[x_idx];
        T y_val = (y == nullptr) ? zero : y[y_idx];
2109

2110 2111 2112
        if (SameShapeOfIntermediateOutAndOut) {
          tmp_out_idx = offset;
        }
2113

2114 2115 2116
        if (dx != nullptr) {
          T tmp =
              UseIntermediateOut
2117 2118 2119 2120
                  ? dx_op.UseIntermediateOut(x_val, y_val,
                                             intermediate_out[tmp_out_idx],
                                             out[offset], dout[offset])
                  : dx_op.Recompute(x_val, y_val, out[offset], dout[offset]);
2121

2122 2123 2124 2125 2126 2127 2128 2129 2130
          if (BcastY) {
            dx[x_idx] = tmp;
          } else {
            val += tmp;
          }
        }
        if (dy != nullptr) {
          T tmp =
              UseIntermediateOut
2131 2132 2133 2134
                  ? dy_op.UseIntermediateOut(x_val, y_val,
                                             intermediate_out[tmp_out_idx],
                                             out[offset], dout[offset])
                  : dy_op.Recompute(x_val, y_val, out[offset], dout[offset]);
2135 2136 2137 2138 2139 2140 2141 2142 2143 2144 2145 2146 2147 2148 2149 2150 2151 2152 2153
          if (BcastY) {
            val += tmp;
          } else {
            dy[y_idx] = tmp;
          }
        }
        if (d_intermediate != nullptr) {
          T tmp = UseIntermediateOut
                      ? dintermediate_op.UseIntermediateOut(
                            y[y_idx], intermediate_out[tmp_out_idx],
                            out[offset], dout[offset])
                      : dintermediate_op.Recompute(x_val, y_val, out[offset],
                                                   dout[offset]);
          if (SameShapeOfIntermediateOutAndOut) {
            d_intermediate[tmp_out_idx] = tmp;
          } else {
            inter_val += tmp;
          }
        }
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      }
    }
2156

2157 2158 2159 2160 2161 2162 2163 2164 2165
    // transpose, for ReduceSum with wrap
    sdata[threadIdx.y][threadIdx.x] = val;
    __syncthreads();
    val = sdata[threadIdx.x][threadIdx.y];
#pragma unroll
    for (int i = BLOCK_X >> 1; i > 0; i >>= 1) {
      // reduce sum with wrap
      val += platform::CudaShuffleXorSync(0xFFFFFFFF, val, i);
    }
2166

2167 2168 2169 2170
    size_t idx_j = j + threadIdx.y;
    if (BcastY) {
      if (dy) {
        if (threadIdx.x == 0 && (idx_j < w)) dy[idx_j] = val;
2171
      }
2172 2173 2174
    } else {
      if (dx) {
        if (threadIdx.x == 0 && (idx_j < w)) dx[idx_j] = val;
2175 2176
      }
    }
2177 2178 2179 2180 2181 2182 2183 2184 2185 2186 2187 2188

    if (!SameShapeOfIntermediateOutAndOut) {
      if (d_intermediate) {
        sdata[threadIdx.y][threadIdx.x] = inter_val;
        __syncthreads();
        inter_val = sdata[threadIdx.x][threadIdx.y];
#pragma unroll
        for (int i = BLOCK_X >> 1; i > 0; i >>= 1) {
          // reduce sum with wrap
          inter_val += platform::CudaShuffleXorSync(0xFFFFFFFF, inter_val, i);
        }
        if (threadIdx.x == 0 && (idx_j < w)) d_intermediate[idx_j] = inter_val;
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      }
    }
2191
  }  // end for
2192 2193
}

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template <typename T, typename DX_OP, typename DY_OP, typename DIntermediate_OP,
          bool UseIntermediateOut, bool BcastY,
          bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActGradBroadcast1CUDA(
2198 2199 2200 2201 2202 2203 2204 2205 2206 2207 2208 2209
    const framework::ExecutionContext &ctx, const T *x, const T *y,
    const T *intermediate_out, const T *out, const T *dout, int h, int w,
    DX_OP dx_op, DY_OP dy_op, DIntermediate_OP dintermediate_op, T *dx, T *dy,
    T *d_intermediate) {
  gpuStream_t stream = ctx.cuda_device_context().stream();

  dim3 blocks(BLOCK_X, BLOCK_Y);
  int max_gpu_threads = ctx.cuda_device_context().GetMaxPhysicalThreadCount();
  int max_blocks = std::max(max_gpu_threads / (BLOCK_X * BLOCK_Y), 1);
  int theory_block = (w + BLOCK_X - 1) / BLOCK_X;
  dim3 grids(std::min(theory_block, max_blocks));

2210
  FusedElemwiseAndActGradBroadcast1CUDAKernel<
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      T, DX_OP, DY_OP, DIntermediate_OP, UseIntermediateOut, BcastY,
2212
      SameShapeOfIntermediateOutAndOut><<<grids, blocks, 0, stream>>>(
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      x, y, intermediate_out, out, dout, h, w, dx_op, dy_op, dintermediate_op,
      dx, dy, d_intermediate);
2215 2216
}

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template <typename T, typename DX_OP, typename DY_OP, typename DIntermediate_OP,
          bool UseIntermediateOut, bool BcastY,
          bool SameShapeOfIntermediateOutAndOut>
2220 2221
static __global__ void FusedElemwiseAndActGradBroadcast2CUDAKernel(
    const T *x, const T *y, const T *intermediate_out, const T *out,
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    const T *dout, int pre, int n, int post, DX_OP dx_op, DY_OP dy_op,
    DIntermediate_OP dintermediate_op, T *dx, T *dy, T *d_intermediate) {
2224 2225 2226
  int tid = threadIdx.x;
  int j = blockIdx.x;

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  T val(0), inter_val(0);
2228 2229
  int ttid = tid;
  int64_t tmp_out_idx, x_idx, y_idx;
2230
  T zero = static_cast<T>(0);
2231 2232 2233 2234 2235 2236 2237 2238 2239 2240
  while (true) {
    int i = ttid / post;
    int k = ttid % post;
    if (i >= pre) break;

    int offset = i * n * post + j * post + k;

    tmp_out_idx = BcastY ? j : offset;
    y_idx = BcastY ? j : offset;
    x_idx = BcastY ? offset : j;
2241 2242
    T x_val = (x == nullptr) ? zero : x[x_idx];
    T y_val = (y == nullptr) ? zero : y[y_idx];
2243 2244 2245 2246 2247 2248

    if (SameShapeOfIntermediateOutAndOut) {
      tmp_out_idx = offset;
    }

    if (dx != nullptr) {
2249 2250 2251 2252 2253
      T tmp = UseIntermediateOut
                  ? dx_op.UseIntermediateOut(x_val, y_val,
                                             intermediate_out[tmp_out_idx],
                                             out[offset], dout[offset])
                  : dx_op.Recompute(x_val, y_val, out[offset], dout[offset]);
2254 2255 2256 2257 2258 2259 2260 2261

      if (BcastY) {
        dx[x_idx] = tmp;
      } else {
        val += tmp;
      }
    }
    if (dy != nullptr) {
2262 2263 2264 2265 2266
      T tmp = UseIntermediateOut
                  ? dy_op.UseIntermediateOut(x_val, y_val,
                                             intermediate_out[tmp_out_idx],
                                             out[offset], dout[offset])
                  : dy_op.Recompute(x_val, y_val, out[offset], dout[offset]);
2267 2268 2269 2270 2271 2272
      if (BcastY) {
        val += tmp;
      } else {
        dy[y_idx] = tmp;
      }
    }
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    if (d_intermediate != nullptr) {
      T tmp = UseIntermediateOut
                  ? dintermediate_op.UseIntermediateOut(
2276
                        y_val, intermediate_out[tmp_out_idx], out[offset],
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                        dout[offset])
2278
                  : dintermediate_op.Recompute(x_val, y_val, out[offset],
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                                               dout[offset]);
      if (SameShapeOfIntermediateOutAndOut) {
        d_intermediate[tmp_out_idx] = tmp;
      } else {
        inter_val += tmp;
      }
    }
2286 2287 2288
    ttid += ELEMWISE_MAX_BLOCK_DIM;
  }

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  int h = pre * post;
  h = h > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : h;
2291 2292 2293 2294 2295 2296 2297 2298 2299 2300 2301 2302 2303 2304 2305
  if (BcastY) {
    if (dy) {
      val = paddle::platform::reduceSum(val, tid, h);
      if (threadIdx.x == 0) {
        dy[j] = val;
      }
    }
  } else {
    if (dx) {
      val = paddle::platform::reduceSum(val, tid, h);
      if (threadIdx.x == 0) {
        dx[j] = val;
      }
    }
  }
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  if (!SameShapeOfIntermediateOutAndOut) {
    if (d_intermediate) {
      inter_val = paddle::platform::reduceSum(inter_val, tid, h);
      if (threadIdx.x == 0) {
        d_intermediate[j] = inter_val;
      }
    }
  }
2314 2315
}

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template <typename T, typename DX_OP, typename DY_OP, typename DIntermediate_OP,
          bool UseIntermediateOut, bool BcastY,
          bool SameShapeOfIntermediateOutAndOut>
2319
static void FusedElemwiseAndActGradBroadcast2CUDA(
2320
    gpuStream_t stream, const T *x, const T *y, const T *intermediate_out,
2321
    const T *out, const T *dout, int pre, int n, int post, DX_OP dx_op,
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    DY_OP dy_op, DIntermediate_OP dintermediate_op, T *dx, T *dy,
    T *dintermediate) {
2324 2325 2326
  int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, pre * post);
  int gird_size = n;
  FusedElemwiseAndActGradBroadcast2CUDAKernel<
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      T, DX_OP, DY_OP, DIntermediate_OP, UseIntermediateOut, BcastY,
2328
      SameShapeOfIntermediateOutAndOut><<<gird_size, block_size, 0, stream>>>(
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      x, y, intermediate_out, out, dout, pre, n, post, dx_op, dy_op,
      dintermediate_op, dx, dy, dintermediate);
2331 2332 2333 2334
}
#endif

template <typename DeviceContext, typename T, typename DX_OP, typename DY_OP,
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          typename DIntermediate_OP, bool UseIntermediateOut, bool BcastY,
2336 2337 2338 2339 2340 2341
          bool SameShapeOfIntermediateOutAndOut>
void FusedElemwiseAndActGradComputeWithBroadcast(
    const framework::ExecutionContext &ctx, const framework::DDim &x_dim,
    const framework::DDim &y_dim_untrimed, const framework::Tensor *x,
    const framework::Tensor *y, const framework::Tensor *intermediate_out,
    const framework::Tensor *out, const framework::Tensor *dout, int axis,
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    framework::Tensor *dx, framework::Tensor *dy,
    framework::Tensor *dintermediate, DX_OP dx_op, DY_OP dy_op,
    DIntermediate_OP dintermediate_op) {
2345 2346 2347 2348
  axis = (axis == -1 ? x_dim.size() - y_dim_untrimed.size() : axis);
  auto y_dim = trim_trailing_singular_dims(y_dim_untrimed);
  axis = (y_dim.size() == 0) ? x_dim.size() : axis;

2349
  int pre, n, post, is_run_common_broadcast;
2350 2351
  pten::funcs::get_mid_dims(x_dim, y_dim, axis, &pre, &n, &post,
                            &is_run_common_broadcast);
2352 2353 2354 2355
  const T *x_data = nullptr;
  const T *y_data = nullptr;
  if (x->IsInitialized()) x_data = x->data<T>();
  if (y->IsInitialized()) y_data = y->data<T>();
2356 2357 2358
  if (post == 1) {
    int h = pre;
    int w = n;
2359

2360
    if (platform::is_gpu_place(ctx.GetPlace())) {
2361
#if defined(__NVCC__) || defined(__HIPCC__)
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      FusedElemwiseAndActGradBroadcast1CUDA<T, DX_OP, DY_OP, DIntermediate_OP,
                                            UseIntermediateOut, BcastY,
2364
                                            SameShapeOfIntermediateOutAndOut>(
2365
          ctx, x_data, y_data,
2366
          intermediate_out == nullptr ? nullptr : intermediate_out->data<T>(),
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          out->data<T>(), dout->data<T>(), h, w, dx_op, dy_op, dintermediate_op,
2368
          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
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          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()),
          dintermediate == nullptr ? nullptr : dintermediate->mutable_data<T>(
                                                   ctx.GetPlace()));
2372 2373
#endif
    } else {
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      FusedElemwiseAndActGradBroadcast1CPU<T, DX_OP, DY_OP, DIntermediate_OP,
                                           UseIntermediateOut, BcastY,
2376
                                           SameShapeOfIntermediateOutAndOut>(
2377
          x_data, y_data,
2378
          intermediate_out == nullptr ? nullptr : intermediate_out->data<T>(),
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          out->data<T>(), dout->data<T>(), h, w, dx_op, dy_op, dintermediate_op,
2380
          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
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          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()),
          dintermediate == nullptr ? nullptr : dintermediate->mutable_data<T>(
                                                   ctx.GetPlace()));
2384 2385 2386
    }
  } else {
    if (platform::is_gpu_place(ctx.GetPlace())) {
2387
#if defined(__NVCC__) || defined(__HIPCC__)
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      FusedElemwiseAndActGradBroadcast2CUDA<T, DX_OP, DY_OP, DIntermediate_OP,
                                            UseIntermediateOut, BcastY,
2390
                                            SameShapeOfIntermediateOutAndOut>(
2391
          ctx.template device_context<DeviceContext>().stream(), x_data, y_data,
2392 2393
          intermediate_out == nullptr ? nullptr : intermediate_out->data<T>(),
          out->data<T>(), dout->data<T>(), pre, n, post, dx_op, dy_op,
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          dintermediate_op,
2395
          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
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          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()),
          dintermediate == nullptr ? nullptr : dintermediate->mutable_data<T>(
                                                   ctx.GetPlace()));
2399 2400
#endif
    } else {
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      FusedElemwiseAndActGradBroadcast2CPU<T, DX_OP, DY_OP, DIntermediate_OP,
                                           UseIntermediateOut, BcastY,
2403
                                           SameShapeOfIntermediateOutAndOut>(
2404
          x_data, y_data,
2405 2406
          intermediate_out == nullptr ? nullptr : intermediate_out->data<T>(),
          out->data<T>(), dout->data<T>(), pre, n, post, dx_op, dy_op,
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          dintermediate_op,
2408
          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
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          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()),
          dintermediate == nullptr ? nullptr : dintermediate->mutable_data<T>(
                                                   ctx.GetPlace()));
2412 2413 2414 2415 2416
    }
  }
}

template <typename DeviceContext, typename T, typename DX_OP, typename DY_OP,
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          typename DIntermediate_OP, bool UseIntermediateOut,
          bool SameShapeOfIntermediateOutAndOut>
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void FusedElemwiseAndActGradComputeEx(
    const framework::ExecutionContext &ctx, const framework::Tensor *x,
    const framework::Tensor *y, const framework::Tensor *out,
    const framework::Tensor *intermediate_out, const framework::Tensor *dout,
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    int axis, framework::Tensor *dx, framework::Tensor *dy,
    framework::Tensor *dintermediate, DX_OP dx_op, DY_OP dy_op,
    DIntermediate_OP dintermediate_op) {
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  const framework::DDim &x_dim = x->dims();
  const framework::DDim &y_dim = y->dims();
  if (UseIntermediateOut) {
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    PADDLE_ENFORCE_NOT_NULL(
        intermediate_out,
        platform::errors::InvalidArgument("Intermediate out is null pointer."));
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  }
  if (x_dim == y_dim) {
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    FusedElemwiseAndActGradComputeNoBroadcast<
        DeviceContext, T, DX_OP, DY_OP, DIntermediate_OP, UseIntermediateOut>(
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        ctx, x_dim, y_dim, x, y, intermediate_out, out, dout, axis, dx, dy,
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        dintermediate, dx_op, dy_op, dintermediate_op);
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  } else {  // Y is a scalar
    bool bcast_y = x_dim.size() >= y_dim.size();
    if (x_dim.size() == y_dim.size()) {
      for (int i = 0; i < x_dim.size(); ++i) {
        if (x_dim[i] < y_dim[i]) {
          bcast_y = false;
          break;
        }
      }
    }

    // z = f1(x, f2(y))
    // z = f1(f2(x, y))
    if (bcast_y) {  // Y should be broadcast.
      FusedElemwiseAndActGradComputeWithBroadcast<
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          DeviceContext, T, DX_OP, DY_OP, DIntermediate_OP, UseIntermediateOut,
          true /*BcastY*/, SameShapeOfIntermediateOutAndOut>(
          ctx, x_dim, y_dim, x, y, intermediate_out, out, dout, axis, dx, dy,
          dintermediate, dx_op, dy_op, dintermediate_op);
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    } else {
      FusedElemwiseAndActGradComputeWithBroadcast<
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          DeviceContext, T, DX_OP, DY_OP, DIntermediate_OP, UseIntermediateOut,
          false /*BcastY*/, SameShapeOfIntermediateOutAndOut>(
          ctx, y_dim, x_dim, x, y, intermediate_out, out, dout, axis, dx, dy,
          dintermediate, dx_op, dy_op, dintermediate_op);
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    }
  }
}

template <typename DeviceContext, typename T, typename CompoundFunctor,
          bool KeepIntermediateOut, bool SameShapeOfIntermediateOutAndOut>
void FusedElemwiseAndActComputeEx(const framework::ExecutionContext &ctx,
                                  const framework::Tensor &x,
                                  const framework::Tensor &y, int axis,
                                  CompoundFunctor compound_functor,
                                  framework::Tensor *out,
                                  framework::Tensor *intermediate_out) {
  if (KeepIntermediateOut) {
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    PADDLE_ENFORCE_NOT_NULL(
        intermediate_out,
        platform::errors::InvalidArgument(
            "The save_intermediate_out is opened, intermediate "
            "out is null pointer."));
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  }

  const framework::DDim &x_dim = x.dims();
  const framework::DDim &y_dim = y.dims();
  if (x.dims() == y.dims()) {
    FusedElemwiseAndActComputeNoBroadcast<DeviceContext, T, CompoundFunctor,
                                          KeepIntermediateOut>(
        ctx, x_dim, x, y, compound_functor, out, intermediate_out);
  } else {
    // Whether the shape of Y is a continuous subsequence of X,
    // For more information please refer to the op's introduction.
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    bool bcast_y = x.numel() >= y.numel();
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    // z = f1(x, f2(y))
    // z = f1(f2(x, y))
    if (bcast_y) {  // Y should be broadcast.
      // In this case,
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      // for 'f2(y)', the shape of intermediate_out should be equal to the
      // shape
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      // of Y.
      // for 'f2(x, y)', the shape of intermediate_out should be equal to the
      // shape of Out.
      // the shape of Out should be equal to the shape of X.
      FusedElemwiseAndActComputeWithBroadcast<
          DeviceContext, T, CompoundFunctor, true /*BcastY*/,
          KeepIntermediateOut, SameShapeOfIntermediateOutAndOut>(
          ctx, x_dim /*OutShape*/, y_dim, x, y, compound_functor, axis, out,
          intermediate_out);
    } else {
      // In this case,
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      // for 'f2(y)', the shape of intermediate_out should be equal to the
      // shape
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      // of Out.
      // for 'f2(x, y)', the shape of intermediate_out should be equal to the
      // shape of Out.
      // the shape of Out should be equal to the shape of Y.
      FusedElemwiseAndActComputeWithBroadcast<
          DeviceContext, T, CompoundFunctor, false /*BcastY*/,
          KeepIntermediateOut, SameShapeOfIntermediateOutAndOut>(
          ctx, y_dim /*OutShape*/, x_dim, x, y, compound_functor, axis, out,
          intermediate_out);
    }
  }
}
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template <typename DeviceContext, typename T>
static inline void GetDoubleGradSafeTensor(
    const framework::ExecutionContext &ctx, const framework::Tensor *x,
    const framework::Tensor *ddx, framework::Tensor *ddx_safe) {
  if (ddx) {
    *ddx_safe = *ddx;
  } else {
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    auto &dev_ctx = ctx.template device_context<DeviceContext>();
    *ddx_safe = ctx.AllocateTmpTensor<T, DeviceContext>(x->dims(), dev_ctx);
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    math::SetConstant<DeviceContext, T> set_zero;
    set_zero(ctx.template device_context<DeviceContext>(), ddx_safe,
             static_cast<T>(0));
  }
}

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// for broadcast backwards
static inline std::vector<int> GetReduceDim(const framework::DDim &in,
                                            const framework::DDim &out,
                                            int axis) {
  axis =
      (axis == -1 ? std::abs(static_cast<int>(out.size() - in.size())) : axis);
  std::vector<int> dims;
  for (int i = 0; i < axis; ++i) {
    dims.push_back(i);
  }
  for (int i = 0; i < in.size(); ++i) {
    if (out[i + axis] != in[i]) {
      dims.push_back(i + axis);
    }
  }
  for (int i = axis + in.size(); i < out.size(); ++i) {
    dims.push_back(i);
  }
  return dims;
}
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#if defined(__NVCC__) || defined(__HIPCC__)
template <typename T>
void ReduceWrapper(const platform::CUDADeviceContext &dev_ctx, int axis,
                   framework::Tensor *src, framework::Tensor *dst) {
  std::vector<int> reduce_dims = GetReduceDim(dst->dims(), src->dims(), axis);
  TensorReduceFunctorImpl<T, T, kps::AddFunctor, kps::IdentityFunctor<T>>(
      *src, dst, kps::IdentityFunctor<T>(), reduce_dims, dev_ctx.stream());
}

template <ElementwiseType ET, typename T, typename Functor>
void GetGradXAndYOut(const platform::CUDADeviceContext &dev_ctx,
                     const platform::Place &place, int axis,
                     std::vector<const framework::Tensor *> ins,
                     const framework::Tensor *dout, framework::Tensor *dx,
                     framework::Tensor *dy, Functor func) {
  framework::Tensor tmp_dx;
  framework::Tensor tmp_dy;
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  dx->mutable_data<T>(place);
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  dy->mutable_data<T>(place);
  std::vector<framework::Tensor *> outs;
  if (dx->dims() == dout->dims() && dy->dims() == dout->dims()) {
    outs = {dx, dy};
  } else if (dx->dims() != dout->dims() && dy->dims() == dout->dims()) {
    tmp_dx.mutable_data<T>(dout->dims(), place);
    outs = {&tmp_dx, dy};
  } else if (dx->dims() == dout->dims() && dy->dims() != dout->dims()) {
    tmp_dy.mutable_data<T>(dout->dims(), place);
    outs = {dx, &tmp_dy};
  } else if (dx->dims() != dout->dims() && dy->dims() != dout->dims()) {
    tmp_dy.mutable_data<T>(dout->dims(), place);
    tmp_dx.mutable_data<T>(dout->dims(), place);
    outs = {&tmp_dx, &tmp_dy};
  }

  LaunchElementwiseCudaKernel<ET, T, T, decltype(func), 2>(dev_ctx, ins, &outs,
                                                           axis, func);

  if (dx->dims() != dout->dims() && dy->dims() == dout->dims()) {
    ReduceWrapper<T>(dev_ctx, axis, &tmp_dx, dx);
  } else if (dx->dims() == dout->dims() && dy->dims() != dout->dims()) {
    ReduceWrapper<T>(dev_ctx, axis, &tmp_dy, dy);
  } else if (dx->dims() != dout->dims() && dy->dims() != dout->dims()) {
    ReduceWrapper<T>(dev_ctx, axis, &tmp_dx, dx);
    ReduceWrapper<T>(dev_ctx, axis, &tmp_dy, dy);
  }
}

template <ElementwiseType ET, typename T, typename Functor>
void GetGradXOrYOut(const platform::CUDADeviceContext &dev_ctx,
                    const platform::Place &place, int axis,
                    std::vector<const framework::Tensor *> ins,
                    const framework::Tensor *dout, framework::Tensor *dxy,
                    Functor func) {
  framework::Tensor tmp_dxy;
  dxy->mutable_data<T>(place);

  std::vector<framework::Tensor *> outs;
  if (dxy->dims() != dout->dims()) {
    tmp_dxy.mutable_data<T>(dout->dims(), place);
    outs = {&tmp_dxy};
  } else {
    outs = {dxy};
  }

  LaunchElementwiseCudaKernel<ET, T, T>(dev_ctx, ins, &outs, axis, func);
  if (dxy->dims() != dout->dims()) {
    ReduceWrapper<T>(dev_ctx, axis, &tmp_dxy, dxy);
  }
}

#endif

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}  // namespace operators
}  // namespace paddle