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Deep Neural Networks Library

Project description

It is for eliminating repeat jobs of machine learning. Also it can makes your code more beautifully and Pythonic.

Building Deep Neural Network,

import dnn
import tensorflow as tf

class MyDNN (dnn.DNN):
  n_seq_len = 24
  n_channels = 1024
  n_output = 3

  def make_place_holders (self):
      self.x = tf.placeholder ("float", [None, self.n_seq_len, self.n_channels])
      self.y = tf.placeholder ("float", [None, self.n_output])

  def make_logit (self):
      # building neural network with convolution 1d, rnn and dense layers

      # 1d convoution (-1, 24, 1024) => (-1, 12, 2048)
      conv = self.make_conv1d_layer (self.x, 2048, activation = tf.nn.relu)

      # rnn
      output = self.make_lstm (
        conv, 12, 2048, hidden_size = 4096, lstm_layers = 2, activation = tf.tanh

      # hidden dense layers
      layer = self.make_hidden_layer (output [-1], 1024, self.nn.relu)
      layer = self.make_hidden_layer (layer, 256, self.nn.relu)

      # finally, my logit
      return tf.layers.dense (inputs = layer, units = self.n_output)

  def make_label (self):
    # prediction method
      return tf.argmax (self.logit, 1)

  def make_cost (self):
      return tf.reduce_mean (tf.nn.softmax_cross_entropy_with_logits (
          logits = self.logits, labels = self.y

  def make_optimizer (self):
     return self.optimizer ("adam")

  def calculate_accuracy (self):
      correct_prediction = tf.equal (tf.argmax(self.y, 1), tf.argmax(self.logit, 1))
      return tf.reduce_mean (tf.cast (correct_prediction, "float"))

Sometimes it is very annoying to calculate complex accuracy with tensors, then can replace with calculate_complex_accuracy for calculating with numpy, python math and loop statement.

import dnn
import numpy as np

class MyDNN (dnn.DNN):
  # can get additional arguments as you need calculate accuracy
  def calculate_complex_accuracy (self, logit, y, *args, **karg):
      return np.mean ((np.argmax (logit, 1) == np.argmax (y, 1)))



import mydnn
from tqdm import tqdm

net = mydnn.MyDNN (gpu_usage = 0.4)
net.reset_dir ('./checkpoint')
net.trainable (
  decay_step=500, decay_rate=0.99,
  overfit_threshold = 0.1
net.reset_tensor_board ("./logs")
net.make_writers ('Param', 'Train', 'Valid')

train_minibatches = split.minibatch (train_xs, train_ys, 128)
valid_minibatches = split.minibatch (test_xs, test_ys, 128)

for epoch in tqdm (range (1000)): # 1000 epoch
  batch_xs, batch_ys = next (train_minibatches)
  _, lr = (
    net.optimizer, net.learning_rate,
    x = batch_xs, y = batch_ys,
    dropout_rate = 0.5
  net.write_summary ('Param', {"Learning Rate": lr})

  train_cost, train_logit = (
    net.cost, net.logit,
    x = batch_xs, y = batch_ys,
    dropout_rate = 0.0
  train_acc = net.calculate_complex_accuracy (train_logit, batch_ys)
  net.write_summary ('Train', {"Accuracy": train_acc, "Cost": train_cost})

  vaild_xs, vaild_ys = next (valid_minibatches)
  valid_cost, valid_logit = (
    net.cost, net.logit,
    x = vaild_xs, y = vaild_ys,
    dropout_rate = 0.0
  valid_acc = net.calculate_complex_accuracy (valid_logit, vaild_ys)
  net.write_summary ('Valid', {"Accuracy": valid_acc, "Cost": valid_cost})

  # check overfit or save checkpoint if cost is the new lowest cost.
  if net.is_overfit (valid_cost, './checkpoint'):

Multi Model Training

You can train complete seperated models at same time.

Not like Multi Task Training, in this case models share training data but there’re no shared layers between models. For example model A is logistic regression and B is calssification problem.

First of all, you give name to each models for saving checkpoint or tensorboard logging.

import mydnn
import dnn

net1 = mydnn.ModelA (0.3, name = 'my_model_A')
net2 = mydnn.ModelB (0.2, name = 'my_model_B')

Your checkpoint, tensorflow log and export pathes will remaped seperately to each model names like this:




Next, y should be concated. Assume ModelA use first 4, and ModelB use last 3.

# y length is 7
y = [0.5, 4.3, 5.6, 9.4, 0, 1, 0]

Then combine models into MultiDNN.

net = dnn.MultiDNN (net1, 4, net2, 3)

And rest of code is very same as a single DNN case.

If you need exclude data from specific model, you can use filter function.

def exclude (ys, xs = None):
  nxs, nys = [], []
  for i, y in enumerate (ys):
      if np.sum (y) > 0:
          nys.append (y)
          if xs is not None:
              nxs.append (xs [i])
  return np.array (nys), np.array (nxs)
net1.set_filter (exclude)

Export Model

For serving model,

import mydnn

net = mydnn.MyDNN ()
net.restore ('./checkpoint')
version = net.export (
  inputs = {'x': net.x},
  outputs={'label': net.label, 'logit': net.logit}
print ("version {} has been exported".format (version))


There’re several helper modules.

Generic DNN Model Helper

from dnn import costs, predutil

Data Processing Helper

from dnn import split, vector
import dnn.image
import dnn.text


  • 0.1: project initialized

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