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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

Developing a RandWireNN model from scratch

We discussed EfficientNets in Chapter 3, Deep CNN Architectures, where we explored the idea of finding the best model architecture instead of specifying it manually. RandWireNNs, or randomly wired neural networks, as the name suggests, are built on a similar concept. In this section, we will study and build our own RandWireNN model using PyTorch.

Understanding RandWireNNs

First, a random graph generation algorithm is used to generate a random graph with a predefined number of nodes. This graph is converted into a neural network by a few definitions being imposed on it, such as the following:

  • Directed: The graph is restricted to be a directed graph, and the direction of edge is considered to be the direction of data flow in the equivalent neural network.
  • Aggregation: Multiple incoming edges to a node (or neuron) are aggregated by weighted sum, where the weights are learnable.
  • Transformation: Inside each node of this graph...
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