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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

Pipeline 1: Collecting and preparing the documents

The code in this section retrieves the metadata we need from Wikipedia, retrieves the documents, cleans them, and aggregates them to be ready for insertion into the Deep Lake vector store. This process is illustrated in the following figure:

Figure 7.4: Pipeline 1 flow chart

Pipeline 1 includes two notebooks:

  • Wikipedia_API.ipynb, in which we will implement the Wikipedia API to retrieve the URLs of the pages related to the root page of the topic we selected, including the citations for each page. As mentioned, the topic is “marketing” in our case.
  • Knowledge_Graph_Deep_Lake_LlamaIndex_OpenAI_RAG.ipynb, in which we will implement all three pipelines. In Pipeline 1, it will fetch the URLs provided by the Wikipedia_API notebook, clean them, and load and aggregate them for upserting.

We will begin by implementing the Wikipedia API.

Retrieving Wikipedia data and metadata

Let’...

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