gru_unit_op.h 10.3 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 "paddle/fluid/operators/activation_op.h"
#include "paddle/fluid/operators/math/math_function.h"
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#include "paddle/fluid/framework/eigen.h"
#include "paddle/fluid/framework/op_registry.h"
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namespace paddle {
namespace operators {

using Tensor = framework::Tensor;
template <typename T, int MajorType = Eigen::RowMajor,
          typename IndexType = Eigen::DenseIndex>
using EigenMatrix = framework::EigenMatrix<T, MajorType, IndexType>;

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template <typename T, int MajorType = Eigen::RowMajor,
          typename IndexType = Eigen::DenseIndex>
using EigenVector = framework::EigenVector<T, MajorType, IndexType>;

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enum GRUActivationType { identity = 0, sigmoid = 1, tanh = 2, relu = 3 };

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template <typename DeviceContext, typename T>
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class GRUUnitKernel : public framework::OpKernel<T> {
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 public:
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  template <typename Device, typename X, typename Y>
  void ActCompute(const int act_type, const Device& d, X x, Y y) const {
    if (act_type == identity)
      y.device(d) = x;
    else if (act_type == sigmoid)
      SigmoidFunctor<T>()(d, x, y);
    else if (act_type == tanh)
      TanhFunctor<T>()(d, x, y);
    else if (act_type == relu)
      ReluFunctor<T>()(d, x, y);
    else
      PADDLE_THROW("unsupported activation type");
  }

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  void Compute(const framework::ExecutionContext& context) const override {
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    auto* input = context.Input<Tensor>("Input");
    auto* hidden_prev = context.Input<Tensor>("HiddenPrev");
    auto* weight = context.Input<Tensor>("Weight");
    auto* bias = context.Input<Tensor>("Bias");
    auto* gate = context.Output<Tensor>("Gate");
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    gate->mutable_data<T>(context.GetPlace());
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    auto* reset_hidden_prev = context.Output<Tensor>("ResetHiddenPrev");
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    reset_hidden_prev->mutable_data<T>(context.GetPlace());
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    auto* hidden = context.Output<Tensor>("Hidden");
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    hidden->mutable_data<T>(context.GetPlace());

    int batch_size = input->dims()[0];
    int frame_size = hidden_prev->dims()[1];

    auto x = EigenMatrix<T>::From(*input);
    auto h_p = EigenMatrix<T>::From(*hidden_prev);
    auto g = EigenMatrix<T>::From(*gate);
    auto r_h_p = EigenMatrix<T>::From(*reset_hidden_prev);
    auto h = EigenMatrix<T>::From(*hidden);
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    auto& place =
        *context.template device_context<DeviceContext>().eigen_device();
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    // calculate unactivated gate outputs
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    if (bias) {
      auto b = EigenMatrix<T>::From(*bias);
      g.device(place) = x +
                        b.reshape(Eigen::array<int, 2>({{1, frame_size * 3}}))
                            .broadcast(Eigen::array<int, 2>({{batch_size, 1}}));
    } else {
      g.device(place) = x;
    }
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    const T* hidden_prev_data = hidden_prev->data<T>();
    const T* weight_data = weight->data<T>();
    T* gate_data = gate->data<T>();
    T* reset_hidden_prev_data = reset_hidden_prev->data<T>();
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    math::gemm<DeviceContext, T>(
        context.template device_context<DeviceContext>(), false, false,
        batch_size, 2 * frame_size, frame_size, 1, hidden_prev_data, frame_size,
        weight_data, frame_size * 2, 1, gate_data, frame_size * 3);
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    // calculate activited gate
    Eigen::array<int, 2> extents({{batch_size, frame_size}});
    Eigen::array<int, 2> u_offsets({{0, 0}});
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    ActCompute(context.Attr<int>("gate_activation"), place,
               g.slice(u_offsets, extents), g.slice(u_offsets, extents));
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    auto u = g.slice(u_offsets, extents);  // update gate
    Eigen::array<int, 2> r_offsets({{0, frame_size}});
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    ActCompute(context.Attr<int>("gate_activation"), place,
               g.slice(r_offsets, extents), g.slice(r_offsets, extents));
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    auto r = g.slice(r_offsets, extents);  // reset gate
    r_h_p.device(place) = r * h_p;         // reset previous hidden state
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    math::gemm<DeviceContext, T>(
        context.template device_context<DeviceContext>(), false, false,
        batch_size, frame_size, frame_size, 1, reset_hidden_prev_data,
        frame_size, weight_data + frame_size * frame_size * 2, frame_size, 1,
        gate_data + frame_size * 2, frame_size * 3);
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    Eigen::array<int, 2> c_offsets({{0, frame_size * 2}});
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    ActCompute(context.Attr<int>("activation"), place,
               g.slice(c_offsets, extents), g.slice(c_offsets, extents));
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    auto c = g.slice(c_offsets, extents);  // output candidate

    // calculate final output
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    h.device(place) = u * (c - h_p) + h_p;
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  }
};

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template <typename DeviceContext, typename T>
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class GRUUnitGradKernel : public framework::OpKernel<T> {
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 public:
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  template <typename Device, typename X, typename Y, typename DX, typename DY>
  void ActGradCompute(const int act_type, const Device& d, X x, Y y, DX dx,
                      DY dy) const {
    // x is dummy and won't be used even in Relu(use y instead)
    if (act_type == identity)
      dx.device(d) = dy;
    else if (act_type == sigmoid)
      SigmoidGradFunctor<T>()(d, x, y, dy, dx);
    else if (act_type == tanh)
      TanhGradFunctor<T>()(d, x, y, dy, dx);
    else if (act_type == relu)
      ReluGradFunctor<T>()(d, x, y, dy, dx);
    else
      PADDLE_THROW("unsupported activation type");
  }

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  void Compute(const framework::ExecutionContext& context) const override {
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    auto* input = context.Input<Tensor>("Input");
    auto* hidden_prev = context.Input<Tensor>("HiddenPrev");
    auto* weight = context.Input<Tensor>("Weight");
    auto* gate = context.Input<Tensor>("Gate");
    auto* reset_hidden_prev = context.Input<Tensor>("ResetHiddenPrev");
    auto* hidden_grad = context.Input<Tensor>(framework::GradVarName("Hidden"));
    auto* input_grad = context.Output<Tensor>(framework::GradVarName("Input"));
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    auto* hidden_prev_grad =
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        context.Output<Tensor>(framework::GradVarName("HiddenPrev"));
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    auto* weight_grad =
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        context.Output<Tensor>(framework::GradVarName("Weight"));
    auto* bias_grad = context.Output<Tensor>(framework::GradVarName("Bias"));
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    Tensor gate_grad;
    Tensor reset_hidden_prev_grad;

    const T* hidden_prev_data = hidden_prev->data<T>();
    const T* weight_data = weight->data<T>();
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    T* gate_grad_data =
        gate_grad.mutable_data<T>(input->dims(), context.GetPlace());
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    const T* reset_hidden_prev_data = reset_hidden_prev->data<T>();
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    T* reset_hidden_prev_grad_data = reset_hidden_prev_grad.mutable_data<T>(
        reset_hidden_prev->dims(), context.GetPlace());
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    auto h_p = EigenMatrix<T>::From(*hidden_prev);
    auto g = EigenMatrix<T>::From(*gate);
    auto d_h = EigenMatrix<T>::From(*hidden_grad);
    auto d_g = EigenMatrix<T>::From(gate_grad);
    auto d_r_h_p = EigenMatrix<T>::From(reset_hidden_prev_grad);
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    auto& place =
        *context.template device_context<DeviceContext>().eigen_device();
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    int batch_size = input->dims()[0];
    int frame_size = hidden_prev->dims()[1];

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    Eigen::array<int, 2> extents({{batch_size, frame_size}});
    Eigen::array<int, 2> u_offsets({{0, 0}});
    auto u = g.slice(u_offsets, extents);  // update gate
    Eigen::array<int, 2> r_offsets({{0, frame_size}});
    auto r = g.slice(r_offsets, extents);  // reset gate
    Eigen::array<int, 2> c_offsets({{0, frame_size * 2}});
    auto c = g.slice(c_offsets, extents);  // output candidate

    // backward for unactivated update gate
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    ActGradCompute(context.Attr<int>("gate_activation"), place, u, u,
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                   d_g.slice(u_offsets, extents), d_h * (c - h_p));
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    // backward for unactivated output candidate
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    ActGradCompute(context.Attr<int>("activation"), place, c, c,
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                   d_g.slice(c_offsets, extents), d_h * u);
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    // backward for reset_hidden_prev
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    math::gemm<DeviceContext, T>(
        context.template device_context<DeviceContext>(), false, true,
        batch_size, frame_size, frame_size, 1, gate_grad_data + frame_size * 2,
        frame_size * 3, weight_data + frame_size * frame_size * 2, frame_size,
        0, reset_hidden_prev_grad_data, frame_size);
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    // backward for unactivated reset gate
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    ActGradCompute(context.Attr<int>("gate_activation"), place, r, r,
                   d_g.slice(r_offsets, extents), d_r_h_p * h_p);
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    // backward for weight
    if (weight_grad) {
      T* weight_grad_data = weight_grad->mutable_data<T>(context.GetPlace());
      // backward for state_weight
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      math::gemm<DeviceContext, T>(
          context.template device_context<DeviceContext>(), true, false,
          frame_size, frame_size, batch_size, 1, reset_hidden_prev_data,
          frame_size, gate_grad_data + frame_size * 2, frame_size * 3, 0,
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          weight_grad_data + frame_size * frame_size * 2, frame_size);

      // backward for update_gate_weight and reset_gate_weight
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      math::gemm<DeviceContext, T>(
          context.template device_context<DeviceContext>(), true, false,
          frame_size, frame_size * 2, batch_size, 1, hidden_prev_data,
          frame_size, gate_grad_data, frame_size * 3, 0, weight_grad_data,
          frame_size * 2);
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    }
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    // backward for hidden_prev
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    if (hidden_prev_grad) {
      T* hidden_prev_grad_data =
          hidden_prev_grad->mutable_data<T>(context.GetPlace());
      auto d_h_p = EigenMatrix<T>::From(*hidden_prev_grad);
      d_h_p.device(place) = d_r_h_p * r + d_h * (u.constant(T(1)) - u);
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      math::gemm<DeviceContext, T>(
          context.template device_context<DeviceContext>(), false, true,
          batch_size, frame_size, frame_size * 2, 1, gate_grad_data,
          frame_size * 3, weight_data, frame_size * 2, 1, hidden_prev_grad_data,
          frame_size);
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    }
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    // backward for input
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    if (input_grad) {
      input_grad->mutable_data<T>(context.GetPlace());
      auto d_x = EigenMatrix<T>::From(*input_grad);
      d_x.device(place) = d_g;
    }
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    // backward for bias
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    if (bias_grad) {
      bias_grad->mutable_data<T>(context.GetPlace());
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      auto d_b = EigenVector<T>::Flatten(*bias_grad);
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      d_b.device(place) = d_g.sum(Eigen::array<int, 1>({{0}}));
    }
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  }
};

}  // namespace operators
}  // namespace paddle