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Deep Learning for Beginners

You're reading from   Deep Learning for Beginners A beginner's guide to getting up and running with deep learning from scratch using Python

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Product type Paperback
Published in Sep 2020
Publisher Packt
ISBN-13 9781838640859
Length 432 pages
Edition 1st Edition
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Authors (2):
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Pablo Rivas Pablo Rivas
Author Profile Icon Pablo Rivas
Pablo Rivas
Dr. Pablo Rivas Dr. Pablo Rivas
Author Profile Icon Dr. Pablo Rivas
Dr. Pablo Rivas
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Table of Contents (20) Chapters Close

Preface 1. Section 1: Getting Up to Speed
2. Introduction to Machine Learning FREE CHAPTER 3. Setup and Introduction to Deep Learning Frameworks 4. Preparing Data 5. Learning from Data 6. Training a Single Neuron 7. Training Multiple Layers of Neurons 8. Section 2: Unsupervised Deep Learning
9. Autoencoders 10. Deep Autoencoders 11. Variational Autoencoders 12. Restricted Boltzmann Machines 13. Section 3: Supervised Deep Learning
14. Deep and Wide Neural Networks 15. Convolutional Neural Networks 16. Recurrent Neural Networks 17. Generative Adversarial Networks 18. Final Remarks on the Future of Deep Learning 19. Other Books You May Enjoy

A perceptron over non-linearly separable data

As we have discussed before, a perceptron will find a solution in finite time if the data is separable. However, how many iterations it will take to find a solution depends on how close the groups are to each other in the feature space.

Convergence is when the learning algorithm finds a solution or reaches a steady state that is acceptable to the designer of the learning model.

The following paragraphs will deal with convergence on different types of data: linearly separable and non-linearly separable.

Convergence on linearly separable data

For the particular dataset that we have been studying in this chapter, the separation between the two groups of data is a parameter that can be varied (this is usually a problem with real data). The parameter is class_sep and can take on a real number; for example:

X, y = make_classification(..., class_sep=2.0, ...)

This allows us to study how many iterations it takes, on average, for the perceptron algorithm...

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