doc/master/Cuda_2RecurrentPropagation_8cu_source.html

// @(#)root/tmva/tmva/dnn:$Id$

// Author: Saurav Shekhar 23/06/17


/*************************************************************************

 * Copyright (C) 2017, Saurav Shekhar                                    *

 * All rights reserved.                                                  *

 *                                                                       *

 * For the licensing terms see $ROOTSYS/LICENSE.                         *

 * For the list of contributors see $ROOTSYS/README/CREDITS.             *

 *************************************************************************/


 //////////////////////////////////////////////////////////////////

 // Implementation of the functions required for the forward and //

 // backward propagation of activations through a neural network //

 // for CUDA architectures.                                      //

 //////////////////////////////////////////////////////////////////


#include "TMVA/DNN/Architectures/Cuda.h"

#include "TMVA/DNN/Architectures/Cuda/Device.h"

#include "Kernels.cuh"


namespace TMVA

{

namespace DNN

{


//____________________________________________________________________________

template<typename AFloat>

TCudaMatrix<AFloat> &  TCuda<AFloat>::RecurrentLayerBackward(TCudaMatrix<AFloat> & state_gradients_backward, // BxH

                                           TCudaMatrix<AFloat> & input_weight_gradients,

                                           TCudaMatrix<AFloat> & state_weight_gradients,

                                           TCudaMatrix<AFloat> & bias_gradients,

                                           TCudaMatrix<AFloat> & df, //DxH

                                           const TCudaMatrix<AFloat> & state, // BxH

                                           const TCudaMatrix<AFloat> & weights_input, // HxD

                                           const TCudaMatrix<AFloat> & weights_state, // HxH

                                           const TCudaMatrix<AFloat> & input,  // BxD

                                           TCudaMatrix<AFloat> & input_gradient)

{


   Fatal("TCuda::RecurrentLayerBackward", "Recurrent layers are not supported in the native Cuda architecture!!!");


#if 0

   /// LM: This needs to be fixed !


   // Compute element-wise product.

   TCuda<AFloat>::Hadamard(df, state_gradients_backward); // B x H


   // Input gradients.

   if (input_gradient.GetNoElements() > 0) {

      TCuda<AFloat>::Multiply(input_gradient, df, weights_input);

   }


   // State gradients.

   if (state_gradients_backward.GetNoElements() > 0) {

      TCuda<AFloat>::Multiply(state_gradients_backward, df, weights_state);

   }


   // Weights gradients

   if (input_weight_gradients.GetNoElements() > 0) {

      TCudaMatrix<AFloat> tmp(input_weight_gradients);

      TCuda<AFloat>::TransposeMultiply(input_weight_gradients, df, input); // H x B . B x D

      TCuda<AFloat>::ScaleAdd(input_weight_gradients, tmp, 1);

   }

   if (state_weight_gradients.GetNoElements() > 0) {

      TCudaMatrix<AFloat> tmp(state_weight_gradients);

      TCuda<AFloat>::TransposeMultiply(state_weight_gradients, df, state); // H x B . B x H

      TCuda<AFloat>::ScaleAdd(state_weight_gradients, tmp, 1);

   }


   // Bias gradients.

   if (bias_gradients.GetNoElements() > 0) {

      TCuda<AFloat>::SumColumns(bias_gradients, df);

   }

#endif


   return input_gradient;


}


} // namespace DNN

} // namespace TMVA

Cuda.h

Device.h

Kernels.cuh

Fatal
void Fatal(const char *location, const char *msgfmt,...)
Use this function in case of a fatal error. It will abort the program.
Definition TError.cxx:244

input
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void input
Definition TGWin32VirtualXProxy.cxx:142

TMVA::DNN::TCudaMatrix
TCudaMatrix Class.
Definition CudaMatrix.h:103

TMVA::DNN::TCudaMatrix::GetNoElements
size_t GetNoElements() const
Definition CudaMatrix.h:161

TMVA::DNN::TCuda::RecurrentLayerBackward
static Matrix_t & RecurrentLayerBackward(Matrix_t &state_gradients_backward, Matrix_t &input_weight_gradients, Matrix_t &state_weight_gradients, Matrix_t &bias_gradients, Matrix_t &df, const Matrix_t &state, const Matrix_t &weights_input, const Matrix_t &weights_state, const Matrix_t &input, Matrix_t &input_gradient)
Backward pass for Recurrent Networks.
Definition RecurrentPropagation.cu:29

TMVA::DNN::TCuda::Multiply
static void Multiply(Matrix_t &C, const Matrix_t &A, const Matrix_t &B)
Standard multiplication of two matrices A and B with the result being written into C.

TMVA::DNN::TCuda::SumColumns
static void SumColumns(Matrix_t &B, const Matrix_t &A, Scalar_t alpha=1.0, Scalar_t beta=0.)
Sum columns of (m x n) matrix A and write the results into the first m elements in A.

TMVA::DNN::TCuda::Hadamard
static void Hadamard(Tensor_t &A, const Tensor_t &B)
In-place Hadamard (element-wise) product of matrices A and B with the result being written into A.

TMVA::DNN::TCuda::TransposeMultiply
static void TransposeMultiply(Matrix_t &output, const Matrix_t &input, const Matrix_t &Weights, Scalar_t alpha=1.0, Scalar_t beta=0.)
Matrix multiplication of two matrices A and B^T (transposed) with the result being written into C.

TMVA::DNN::TCuda::ScaleAdd
static void ScaleAdd(Matrix_t &A, const Matrix_t &B, Scalar_t beta=1.0)
Adds a the elements in matrix B scaled by c to the elements in the matrix A.

TMVA
create variable transformations
Definition GeneticMinimizer.h:22