Exemplo n.º 1
0
double Perceptron::calculate_output(const Vector<double>& inputs) const
{
   // Control sentence (if debug)

   #ifdef __OPENNN_DEBUG__ 

   const size_t size = inputs.size();
   const size_t inputs_number = get_inputs_number();

   if(size != inputs_number)
   {
      std::ostringstream buffer;

      buffer << "OpenNN Exception: Perceptron class.\n" 
             << "double calculate_output(const Vector<double>&) const method.\n"
             << "Size must be equal to number of inputs.\n";

      throw std::logic_error(buffer.str());
   }

   #endif

   // Calculate outputs 

   return(calculate_activation(calculate_combination(inputs)));  
}
inline void gpu_train_batch(FeedForward_Network<activation, error>& network,
    arma::Mat<float> inputs, arma::Mat<float> targets, int batch_size, float learning_rate = 0.8f, float momentum = 0.8f) {

  network.resize_activation(batch_size);
  Raw_FeedForward_Network<activation, error> raw_net = convert_to_raw(network);
  Raw_FeedForward_Network<activation, error> * d_network = network_to_gpu(raw_net);

  int batches_in_train = targets.n_rows/batch_size - 1;
  for (int i = 0; i < batches_in_train; ++i) {
    arma::Mat<float> input_slice = inputs.rows(i*batch_size, (i+1) * batch_size - 1);

    Raw_Matrix raw_input = to_raw(input_slice);
    Raw_Matrix * d_input = matrix_to_gpu(raw_input);
    int num_trials = input_slice.n_rows;

    calculate_activation(num_trials, network.layer_sizes, d_network, d_input);
    //TODO make this memory shared as to not realloc
    free_gpu_matrix(d_input);

    arma::Mat<float> targets_slice = targets.rows(i*batch_size, (i+1) * batch_size - 1);

    Raw_Matrix raw_targets = to_raw(targets_slice);
    Raw_Matrix * d_targets = matrix_to_gpu(raw_targets);

    backprop(num_trials, network.layer_sizes, d_network, d_targets, learning_rate, momentum);
    free_gpu_matrix(d_targets);
  }

  network_to_cpu_free(d_network, raw_net);
  update_from_raw(network, raw_net);

}
inline arma::Mat<float> gpu_predict(FeedForward_Network<activation, error>& network,
    arma::Mat<float> inputs) {
  network.resize_activation(inputs.n_rows);
  Raw_FeedForward_Network<activation, error> raw_net = convert_to_raw(network);
  Raw_FeedForward_Network<activation, error> * d_network = network_to_gpu(raw_net);
  Raw_Matrix raw_inputs = to_raw(inputs);
  Raw_Matrix * d_inputs = matrix_to_gpu(raw_inputs);

  int num_trials = inputs.n_rows;

  calculate_activation(num_trials, network.layer_sizes, d_network, d_inputs);
  free_gpu_matrix(d_inputs);

  network_to_cpu_free(d_network, raw_net);
  update_from_raw(network, raw_net);
  return network.activations.back();
}
Exemplo n.º 4
0
double Perceptron::calculate_output(const Vector<double>& inputs, const Vector<double>& parameters) const
{
   // Control sentence (if debug)

   #ifdef __OPENNN_DEBUG__ 

   const size_t inputs_size = inputs.size();
   const size_t inputs_number = get_inputs_number();

   if(inputs_size != inputs_number)
   {
      std::ostringstream buffer;

      buffer << "OpenNN Exception: Perceptron class.\n" 
             << "double calculate_output(const Vector<double>&, const Vector<double>&) const method.\n"
             << "Size of inputs must be equal to number of inputs.\n";

      throw std::logic_error(buffer.str());
   }

   const size_t parameters_size = parameters.size();

   const size_t parameters_number = count_parameters_number();

   if(parameters_size != parameters_number)
   {
      std::ostringstream buffer;

      buffer << "OpenNN Exception: Perceptron class.\n" 
             << "double calculate_output(const Vector<double>&, const Vector<double>&) const method.\n"
             << "Size of potential parameters (" << parameters_size << ") must be equal to number of parameters (" << parameters_number << ").\n";

      throw std::logic_error(buffer.str());
   }

   #endif

   return(calculate_activation(calculate_combination(inputs, parameters)));
}
double Perceptron::calculate_output(const Vector<double>& input)
{
   // Control sentence (if debug)

   #ifdef _DEBUG 

   int size = input.get_size();

   if(size != inputs_number)
   {
      std::cerr << "Flood Error: Perceptron class." << std::endl 
                << "double calculate_output(const Vector<double>&) method." << std::endl
                << "Size must be equal to number of inputs." << std::endl;

      exit(1);
   }

   #endif

   // Calculate output 

   return(calculate_activation(calculate_combination(input)));  
}