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Building AI Intensive Python Applications

You're reading from   Building AI Intensive Python Applications Create intelligent apps with LLMs and vector databases

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Product type Paperback
Published in Sep 2024
Publisher Packt
ISBN-13 9781836207252
Length 298 pages
Edition 1st Edition
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Table of Contents (18) Chapters Close

Preface 1. Chapter 1: Getting Started with Generative AI FREE CHAPTER 2. Chapter 2: Building Blocks of Intelligent Applications 3. Part 1: Foundations of AI: LLMs, Embedding Models, Vector Databases, and Application Design
4. Chapter 3: Large Language Models 5. Chapter 4: Embedding Models 6. Chapter 5: Vector Databases 7. Chapter 6: AI/ML Application Design 8. Part 2: Building Your Python Application: Frameworks, Libraries, APIs, and Vector Search
9. Chapter 7: Useful Frameworks, Libraries, and APIs 10. Chapter 8: Implementing Vector Search in AI Applications 11. Part 3: Optimizing AI Applications: Scaling, Fine-Tuning, Troubleshooting, Monitoring, and Analytics
12. Chapter 9: LLM Output Evaluation 13. Chapter 10: Refining the Semantic Data Model to Improve Accuracy 14. Chapter 11: Common Failures of Generative AI 15. Chapter 12: Correcting and Optimizing Your Generative AI Application 16. Other Books You May Enjoy Appendix: Further Reading: Index

Embeddings

Vector embeddings are the foundation of the semantic data model, serving as the machine-interpretable representation of ideas and relationships. Embeddings are mathematical representations of objects as points in a multi-dimensional space. They act as the glue that connects the various semantic pieces of data in an intelligent application. The distance between vectors correlates to semantic similarity. You can use this semantic similarity score to retrieve related information that would otherwise be difficult to connect. This concept holds true regardless of the specific use case, be it RAG, recommendation systems, anomaly detection, or others.

Having an embedding model better tailored to a use case can improve accuracy and performance. Experimenting with different embedding models and fine-tuning them on domain-specific data can help identify the best fit for a particular use case, further enhancing their effectiveness.

Experimenting with different embedding models...

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