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Mastering PyTorch

You're reading from   Mastering PyTorch Build powerful neural network architectures using advanced PyTorch 1.x features

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Product type Paperback
Published in Feb 2021
Publisher Packt
ISBN-13 9781789614381
Length 450 pages
Edition 1st Edition
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Author (1):
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Ashish Ranjan Jha Ashish Ranjan Jha
Author Profile Icon Ashish Ranjan Jha
Ashish Ranjan Jha
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Table of Contents (20) Chapters Close

Preface 1. Section 1: PyTorch Overview
2. Chapter 1: Overview of Deep Learning using PyTorch FREE CHAPTER 3. Chapter 2: Combining CNNs and LSTMs 4. Section 2: Working with Advanced Neural Network Architectures
5. Chapter 3: Deep CNN Architectures 6. Chapter 4: Deep Recurrent Model Architectures 7. Chapter 5: Hybrid Advanced Models 8. Section 3: Generative Models and Deep Reinforcement Learning
9. Chapter 6: Music and Text Generation with PyTorch 10. Chapter 7: Neural Style Transfer 11. Chapter 8: Deep Convolutional GANs 12. Chapter 9: Deep Reinforcement Learning 13. Section 4: PyTorch in Production Systems
14. Chapter 10: Operationalizing PyTorch Models into Production 15. Chapter 11: Distributed Training 16. Chapter 12: PyTorch and AutoML 17. Chapter 13: PyTorch and Explainable AI 18. Chapter 14: Rapid Prototyping with PyTorch 19. Other Books You May Enjoy

Building a neural network with CNNs and LSTMs

A CNN-LSTM network architecture consists of a convolutional layer(s) for extracting features from the input data (image), followed by an LSTM layer(s) to perform sequential predictions. This kind of model is both spatially and temporally deep. The convolutional part of the model is often used as an encoder that takes in an input image and outputs high-dimensional features or embeddings.

In practice, the CNN used for these hybrid networks is often pre-trained on, say, an image classification task. The last hidden layer of the pre-trained CNN model is then used as an input to the LSTM component, which is used as a decoder to generate text.

When we are dealing with textual data, we need to transform the words and other symbols (punctuation, identifiers, and more) – together referred to as tokens – into numbers. We do so by representing each token in the text with a unique corresponding number. In the following sub-section...

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