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Mastering Transformers

You're reading from   Mastering Transformers The Journey from BERT to Large Language Models and Stable Diffusion

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Product type Paperback
Published in Jun 2024
Publisher Packt
ISBN-13 9781837633784
Length 462 pages
Edition 2nd Edition
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Savaş Yıldırım Savaş Yıldırım
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Savaş Yıldırım
Meysam Asgari- Chenaghlu Meysam Asgari- Chenaghlu
Author Profile Icon Meysam Asgari- Chenaghlu
Meysam Asgari- Chenaghlu
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Table of Contents (25) Chapters Close

Preface 1. Part 1: Recent Developments in the Field, Installations, and Hello World Applications
2. Chapter 1: From Bag-of-Words to the Transformers FREE CHAPTER 3. Chapter 2: A Hands-On Introduction to the Subject 4. Part 2: Transformer Models: From Autoencoders to Autoregressive Models
5. Chapter 3: Autoencoding Language Models 6. Chapter 4: From Generative Models to Large Language Models 7. Chapter 5: Fine-Tuning Language Models for Text Classification 8. Chapter 6: Fine-Tuning Language Models for Token Classification 9. Chapter 7: Text Representation 10. Chapter 8: Boosting Model Performance 11. Chapter 9: Parameter Efficient Fine-Tuning 12. Part 3: Advanced Topics
13. Chapter 10: Large Language Models 14. Chapter 11: Explainable AI (XAI) in NLP 15. Chapter 12: Working with Efficient Transformers 16. Chapter 13: Cross-Lingual and Multilingual Language Modeling 17. Chapter 14: Serving Transformer Models 18. Chapter 15: Model Tracking and Monitoring 19. Part 4: Transformers beyond NLP
20. Chapter 16: Vision Transformers 21. Chapter 17: Multimodal Generative Transformers 22. Chapter 18: Revisiting Transformers Architecture for Time Series 23. Index 24. Other Books You May Enjoy

Multimodal learning

Multimodal learning is a general topic in AI that refers to solutions where the associated data is not in a single modality (only image, only text, etc.) but instead, more than one modality is involved. As an example, consider a problem where both an image and text are involved as input or output. Another example can be a cross-modality problem where the input and output modalities are not the same.

Before jumping into multimodal learning using Transformers, it is useful to describe how they can be used for images as well. Transformers get the input in the form of a sequence but, unlike text, images are not 1D sequences. One of the approaches in this field tries to convert the image into patches. Each patch is linearly projected into a vector shape and positional encoding is applied.

Figure 1.15 shows the architecture of the Vision Transformer (ViT) and how it works:

Figure 1.15 – Vision Transformer (https://ai.googleblog.com/2020/12/transformers-for-image-recognition-at.html)

Figure 1.15 – Vision Transformer (https://ai.googleblog.com/2020/12/transformers-for-image-recognition-at.html)

Like architectures such as BERT, a classification head can be applied for tasks such as image classification. However, other use cases and applications can be drawn from this approach as well.

Using a Transformer for images or text separately can create a nice model that can understand text or images. But if we want to have a model that can understand both at the same time and create a link between text and images, it would require training both with constraints. Contrastive Language–Image Pre-training (CLIP) is one of the models that can understand images and text. It can be used for semantic search where the input can be a text/image and the output is a text/image.

The next figure shows how the CLIP model is trained by using a dual encoder:

Figure 1.16 – CLIP model contrastive pre-training (https://openai.com/blog/clip/)

Figure 1.16 – CLIP model contrastive pre-training (https://openai.com/blog/clip/)

As it is clear from the CLIP architecture, it will be very useful for zero-shot prediction for text and image modalities. DALL-E and diffusion-based models such as Stable Diffusion are in this category.

The Stable Diffusion pipeline is shown in the next figure:

Figure 1.17 – Stable Diffusion pipeline

Figure 1.17 – Stable Diffusion pipeline

The preceding diagram can also be viewed at https://www.tensorflow.org/tutorials/generative/generate_images_with_stable_diffusion, and the license is as follows: https://creativecommons.org/licenses/by/4.0/.

For example, Stable Diffusion uses a text encoder to convert text into dense vectors, and, accordingly, a diffusion model tries to create a vector representation of the respective image. The decoder tries to decode this vector representation, and finally, an image with semantic similarity to the text input is produced.

Multimodal learning not only helps us use different modalities for tasks that are always related to image-text but it can also be used in many different modalities combined with text, such as speech, numerical data, and graphs.

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Mastering Transformers - Second Edition
Published in: Jun 2024
Publisher: Packt
ISBN-13: 9781837633784
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