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Why machines learn: the elegant math behind modern AI
Ananthaswamy A., Penguin Random House, New York, NY, 2024. 480 pp. Type: Book (9780593185742)
Date Reviewed: Nov 18 2024

Anil Ananthaswamy’s Why machines learn provides a captivating deep dive into the mathematical principles that power modern machine learning and artificial intelligence (AI). The book offers a rich, narrative-driven exploration of the foundational mathematics--such as linear algebra and calculus--behind the AI systems that are reshaping our world.

Ananthaswamy skillfully bridges the gap between complex mathematical concepts and their real-world applications. From determining mortgage approvals to identifying cancerous tumors, machine learning systems are transforming critical industries, including medicine, chemistry, biology, and even physics. Ananthaswamy also touches on AI’s expanding influence across various fields, suggesting that these mathematical ideas may hold the key to understanding not only AI but natural intelligence as well.

What makes this book stand out is its approachable yet profound explanation of the math that drives machine learning. The narrative touches on centuries-old mathematical concepts, tracing their evolution and demonstrating how, with advancements in computer science and hardware (particularly 1990s video game chips), these ideas sparked the AI revolution we are witnessing today. Readers will gain a comprehensive understanding of the powerful capabilities and limitations of AI, which is essential for ensuring its responsible use.

Why machines learn is ideal for anyone fascinated by AI, whether they are newcomers or seasoned experts. The book reveals the elegant and timeless mathematical underpinnings of today’s most cutting-edge technology, inviting readers to contemplate the possibility of shared mathematical foundations between human and artificial intelligence. Similar books include [1,2,3].

This book explores the mathematical beauty and principles behind how machines learn, offering clear insights into core AI concepts. Each chapter provides a blend of theory, applications, and thought-provoking ideas.

Machines thrive by identifying patterns in the chaos of data. Chapter 1, “Desperately Seeking Patterns,” dives into how algorithms detect trends, anomalies, and relationships, forming the basis of machine learning. Concepts like clustering, feature extraction, and pattern recognition are highlighted.

Data is the lifeblood of AI, represented in numbers and structures. Chapter 2, “We Are All Just Numbers Here,” explains the role of numerical representation, scaling, and encoding in preparing data for machine learning, emphasizing its importance in producing accurate results.

Optimization is at the heart of machine learning. Chapter 3, “The Bottom of the Bowl,” explores how algorithms find the “bottom of the bowl” (optimal solutions) using calculus-driven techniques like gradient descent, which powers neural networks and other models.

Probabilistic reasoning enables machines to make predictions under uncertainty. Chapter 4, “In All Probability,” unpacks probability distributions, Bayes’ theorem, and their role in decision-making processes, showcasing how machines manage risk and ambiguity.

Delve into the philosophical and mathematical principles driving machine learning. Chapter 5, “Why Machines Learn,” explores the why behind AI, linking it to human curiosity and the universal quest for knowledge while also addressing its ethical dimensions.

Matrices are the unsung heroes of AI, powering computations and transformations. Chapter 6, “There’s Magic in Them Matrices,” explains matrix operations, eigenvalues, and their applications in areas like dimensionality reduction and neural network computations.

Kernel methods extend machine learning’s capabilities, enabling models to capture complex relationships in data. Chapter 7, “The Great Kernel Rope Trick,” demystifies support vector machines, kernel tricks, and their use in separating data in high-dimensional spaces.

This concise yet engaging book blends mathematical rigor with real-world applications, making it an essential guide for anyone curious about the elegant math behind modern AI.

More reviews about this item: Amazon, Goodreads

Reviewer:  Wael Badawy Review #: CR147844
1) Domingos, P. The master algorithm: how the quest for the ultimate learning machine will remake our world. Basic Books, New York, NY, 2015.
2) Serrano, L. G. Grokking machine learning.Manning Publications, Shelter Island, NY, 2021.
3) Goodfellow, I.; Bengio, Y.; Courville, A. Deep learning. The MIT Press, Cambridge, MA, 2016.
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