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RAG-Driven Generative AI

You're reading from   RAG-Driven Generative AI Build custom retrieval augmented generation pipelines with LlamaIndex, Deep Lake, and Pinecone

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Product type Paperback
Published in Sep 2024
Publisher Packt
ISBN-13 9781836200918
Length 334 pages
Edition 1st Edition
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Author (1):
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Denis Rothman Denis Rothman
Author Profile Icon Denis Rothman
Denis Rothman
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Table of Contents (14) Chapters Close

Preface 1. Why Retrieval Augmented Generation? 2. RAG Embedding Vector Stores with Deep Lake and OpenAI FREE CHAPTER 3. Building Index-Based RAG with LlamaIndex, Deep Lake, and OpenAI 4. Multimodal Modular RAG for Drone Technology 5. Boosting RAG Performance with Expert Human Feedback 6. Scaling RAG Bank Customer Data with Pinecone 7. Building Scalable Knowledge-Graph-Based RAG with Wikipedia API and LlamaIndex 8. Dynamic RAG with Chroma and Hugging Face Llama 9. Empowering AI Models: Fine-Tuning RAG Data and Human Feedback 10. RAG for Video Stock Production with Pinecone and OpenAI 11. Other Books You May Enjoy
12. Index
Appendix

Summary

RAG for generative AI relies on two main components: a retriever and a generator. The retriever processes data and defines a search method, such as fetching labeled documents with keywords—the generator’s input, an LLM, benefits from augmented information when producing sequences. We went through the three main configurations of the RAG framework: naïve RAG, which accesses datasets through keywords and other entry-level search methods; advanced RAG, which introduces embeddings and indexes to improve the search methods; and modular RAG, which can combine naïve and advanced RAG as well as other ML methods.

The RAG framework relies on datasets that can contain dynamic data. A generative AI model relies on parametric data through its weights. These two approaches are not mutually exclusive. If the RAG datasets become too cumbersome, fine-tuning can prove useful. When fine-tuned models cannot respond to everyday information, RAG can come in handy. RAG frameworks also rely heavily on the ecosystem that provides the critical functionality to make the systems work. We went through the main components of the RAG ecosystem, from the retriever to the generator, for which the trainer is necessary, and the evaluator. Finally, we built an entry-level naïve, advanced, and modular RAG program in Python, leveraging keyword matching, vector search, and index-based retrieval, augmenting the input of GPT-4o.

Our next step in Chapter 2, RAG Embedding Vector Stores with Deep Lake and OpenAI, is to embed data in vectors. We will store the vectors in vector stores to enhance the speed and precision of the retrieval functions of a RAG ecosystem.

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