Book Image

Natural Language Processing with TensorFlow - Second Edition

By : Thushan Ganegedara
2 (1)
Book Image

Natural Language Processing with TensorFlow - Second Edition

2 (1)
By: Thushan Ganegedara

Overview of this book

Learning how to solve natural language processing (NLP) problems is an important skill to master due to the explosive growth of data combined with the demand for machine learning solutions in production. Natural Language Processing with TensorFlow, Second Edition, will teach you how to solve common real-world NLP problems with a variety of deep learning model architectures. The book starts by getting readers familiar with NLP and the basics of TensorFlow. Then, it gradually teaches you different facets of TensorFlow 2.x. In the following chapters, you then learn how to generate powerful word vectors, classify text, generate new text, and generate image captions, among other exciting use-cases of real-world NLP. TensorFlow has evolved to be an ecosystem that supports a machine learning workflow through ingesting and transforming data, building models, monitoring, and productionization. We will then read text directly from files and perform the required transformations through a TensorFlow data pipeline. We will also see how to use a versatile visualization tool known as TensorBoard to visualize our models. By the end of this NLP book, you will be comfortable with using TensorFlow to build deep learning models with many different architectures, and efficiently ingest data using TensorFlow Additionally, you’ll be able to confidently use TensorFlow throughout your machine learning workflow.
Table of Contents (15 chapters)
12
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13
Index

Improving LSTMs – generating text with words instead of n-grams

Here we will discuss ways to improve LSTMs. We have so far used bigrams as our basic unit of text. But you would get better results by incorporating words, as opposed to bigrams. This is because using words reduces the overhead of the model by alleviating the need to learn to form words from bigrams. We will discuss how we can employ word vectors in the code to generate better-quality text compared to using bigrams.

The curse of dimensionality

One major limitation stopping us from using words instead of n-grams as the input to our LSTM is that this will drastically increase the number of parameters in our model. Let’s understand this through an example. Consider that we have an input of size 500 and a cell state of size 100. This would result in a total of approximately 240K parameters (excluding the softmax layer), as shown here:

Let’s now increase the size of the input to 1000...