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Deep Learning with Theano

You're reading from   Deep Learning with Theano Perform large-scale numerical and scientific computations efficiently

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Product type Paperback
Published in Jul 2017
Publisher Packt
ISBN-13 9781786465825
Length 300 pages
Edition 1st Edition
Tools
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Author (1):
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Christopher Bourez Christopher Bourez
Author Profile Icon Christopher Bourez
Christopher Bourez
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Table of Contents (15) Chapters Close

Preface 1. Theano Basics FREE CHAPTER 2. Classifying Handwritten Digits with a Feedforward Network 3. Encoding Word into Vector 4. Generating Text with a Recurrent Neural Net 5. Analyzing Sentiment with a Bidirectional LSTM 6. Locating with Spatial Transformer Networks 7. Classifying Images with Residual Networks 8. Translating and Explaining with Encoding – decoding Networks 9. Selecting Relevant Inputs or Memories with the Mechanism of Attention 10. Predicting Times Sequences with Advanced RNN 11. Learning from the Environment with Reinforcement 12. Learning Features with Unsupervised Generative Networks 13. Extending Deep Learning with Theano Index

Recurrent Highway Networks

So, let's apply the highway network design to deep transition recurrent networks, which leads to the definition of Recurrent Highway Networks (RHN), and predict the output Recurrent Highway Networks given Recurrent Highway Networks the input of the transition:

Recurrent Highway Networks

The transition is built with multiple steps of highway connections:

Recurrent Highway Networks
Recurrent Highway Networks

Here the transform gate is as follows:

Recurrent Highway Networks

And, to reduce the number of weights, the carry gate is taken as the complementary to the transform gate:

Recurrent Highway Networks

For faster computation on a GPU, it is better to compute the linear transformation on inputs over different time steps Recurrent Highway Networks and Recurrent Highway Networks in a single big matrix multiplication, all-steps input matrices Recurrent Highway Networks and Recurrent Highway Networks at once, since the GPU will use a better parallelization, and provide these inputs to the recurrency:

y_0 = shared_zeros((batch_size, hidden_size))
y, _ = theano.scan(deep_step_fn, sequences = [i_for_H, i_for_T],
            outputs_info = [y_0], non_sequences = [noise_s])

With a deep transition between each step:

def deep_step_fn(i_for_H_t, i_for_T_t, y_tm1...
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