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The Machine Learning Solutions Architect Handbook

You're reading from   The Machine Learning Solutions Architect Handbook Practical strategies and best practices on the ML lifecycle, system design, MLOps, and generative AI

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Product type Paperback
Published in Apr 2024
Publisher Packt
ISBN-13 9781805122500
Length 602 pages
Edition 2nd Edition
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Author (1):
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David Ping David Ping
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David Ping
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Table of Contents (19) Chapters Close

Preface 1. Navigating the ML Lifecycle with ML Solutions Architecture FREE CHAPTER 2. Exploring ML Business Use Cases 3. Exploring ML Algorithms 4. Data Management for ML 5. Exploring Open-Source ML Libraries 6. Kubernetes Container Orchestration Infrastructure Management 7. Open-Source ML Platforms 8. Building a Data Science Environment Using AWS ML Services 9. Designing an Enterprise ML Architecture with AWS ML Services 10. Advanced ML Engineering 11. Building ML Solutions with AWS AI Services 12. AI Risk Management 13. Bias, Explainability, Privacy, and Adversarial Attacks 14. Charting the Course of Your ML Journey 15. Navigating the Generative AI Project Lifecycle 16. Designing Generative AI Platforms and Solutions 17. Other Books You May Enjoy
18. Index

How machines learn

In Chapter 1, "Machine Learning and Machine Learning Solutions Architecture," we discussed the self-improvement capability of ML algorithms through data processing and parameter updates, leading to the generation of models akin to compiled binaries in computer source code. But how does an algorithm actually learn? In essence, ML algorithms learn by optimizing an objective function, also known as a loss function, which involves minimizing or maximizing it. An objective function can be seen as a business metric, such as the disparity between projected and actual product sales. The aim of optimization is to reduce this disparity. To achieve this, an ML algorithm iterates and processes extensive historical sales data (training data), adjusting its internal model parameters until the gaps between projected and actual values are minimized. This process of finding the optimal model parameters is referred to as optimization, with mathematical routines specifically...

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