TensorFlow 2.0 Quick Start Guide

By : Holdroyd

2.3 (3)

Buy this Book

TensorFlow 2.0 Quick Start Guide

2.3 (3)

By: Holdroyd

Buy this Book

Overview of this book

TensorFlow is one of the most popular machine learning frameworks in Python. With this book, you will improve your knowledge of some of the latest TensorFlow features and will be able to perform supervised and unsupervised machine learning and also train neural networks. After giving you an overview of what's new in TensorFlow 2.0 Alpha, the book moves on to setting up your machine learning environment using the TensorFlow library. You will perform popular supervised machine learning tasks using techniques such as linear regression, logistic regression, and clustering. You will get familiar with unsupervised learning for autoencoder applications. The book will also show you how to train effective neural networks using straightforward examples in a variety of different domains. By the end of the book, you will have been exposed to a large variety of machine learning and neural network TensorFlow techniques.

Preface

Who this book is for

What this book covers

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Free Chapter

Section 1: Introduction to TensorFlow 2.00 Alpha

Introducing TensorFlow 2

Looking at the modern TensorFlow ecosystem

Installing TensorFlow

Housekeeping and eager operations

Providing useful TensorFlow operations

Summary

Keras, a High-Level API for TensorFlow 2

The adoption and advantages of Keras

The features of Keras

The default Keras configuration file

The Keras backend

Keras data types

Keras models

Summary

ANN Technologies Using TensorFlow 2

Presenting data to an ANN

One-hot encoding

Layers

Activation functions

Creating the model

Gradient calculations for gradient descent algorithms

Loss functions

Summary

Section 2: Supervised and Unsupervised Learning in TensorFlow 2.00 Alpha

Supervised Machine Learning Using TensorFlow 2

Supervised learning

Linear regression

Our first linear regression example

The Boston housing dataset

Logistic regression (classification)

k-Nearest Neighbors (KNN)

Summary

Unsupervised Learning Using TensorFlow 2

Autoencoders

Summary

Section 3: Neural Network Applications of TensorFlow 2.00 Alpha

Recognizing Images with TensorFlow 2

Quick Draw – image classification using TensorFlow

CIFAR 10 image classification using TensorFlow

Summary

Neural Style Transfer Using TensorFlow 2

Setting up the imports

Preprocessing the images

Viewing the original images

Using the VGG19 architecture

Creating the model

Calculating the losses

Performing the style transfer

Final displays

Summary

Recurrent Neural Networks Using TensorFlow 2

Neural network processing modes

Recurrent architectures

An application of RNNs

The code for our RNN example

Building and instantiating our model

Using our model to get predictions

Summary

TensorFlow Estimators and TensorFlow Hub

TensorFlow Estimators

TensorFlow Hub

Summary

Converting from tf1.12 to tf2

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Autoencoders

Autoencoding is a data compression and decompression algorithm implemented with an ANN. Since it is an unsupervised form of a learning algorithm, we know that only unlabeled data is required. The way it works is we generate a compressed version of the input by forcing it through a bottleneck, that is, a layer or layers that are less wide than the original input. To reconstruct the input, that is, decompress, we reverse the process. We use backpropagation to both create the representation of the input in the intermediate layer(s), and recreate the input as the output from the representation.

Autoencoding is lossy, that is, the decompressed output will be degraded in comparison to the original input. This is a similar situation to the MP3 and JPEG compression formats.

Autoencoding is data-specific, that is, only data that is similar to that which they have been trained...