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

Product type Paperback

Published in Feb 2021

Publisher Packt

ISBN-13 9781789614381

Length 450 pages

Edition 1st Edition

Languages

Python

Tools

PyTorch

Concepts

Deep Learning

Author (1):

Ashish Ranjan Jha

View More author details

Table of Contents (20) Chapters

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

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Chapter 4: Deep Recurrent Model Architectures

Neural networks are powerful machine learning tools that are used to help us learn complex patterns between the inputs (X) and outputs (y) of a dataset. In the previous chapter, we discussed convolutional neural networks, which learn a one-to-one mapping between X and y; that is, each input, X, is independent of the other inputs and each output, y, is independent of the other outputs of the dataset.

In this chapter, we will discuss a class of neural networks that can model sequences where X (or y) is not just a single independent data point, but a temporal sequence of data points [X1, X2, .. Xt] (or [y1, y2, .. yt]). Note that X2 (which is the data point at time step 2) is dependent on X1, X3 is dependent on X2 and X1, and so on.

Such networks are classified as recurrent neural networks (RNNs). These networks are capable of modeling the temporal aspect of data by including additional weights in the model that create cycles in the...