Mathematics of Machine Learning

<p><strong>Build a solid foundation in the core math behind machine learning algorithms with this comprehensive guide to linear algebra calculus and probability explained through practical Python examples</strong></p><p><strong>Purchase of the print or Kindle book includes a free PDF eBook</strong></p><p><strong>Key Features:</strong></p><p>- Master linear algebra calculus and probability theory for ML</p><p>- Bridge the gap between theory and real-world applications</p><p>- Learn Python implementations of core mathematical concepts</p><p><strong>Book Description:</strong></p><p>Mathematics of Machine Learning provides a rigorous yet accessible introduction to the mathematical underpinnings of machine learning designed for engineers developers and data scientists ready to elevate their technical expertise. With this book you'll explore the core disciplines of linear algebra calculus and probability theory essential for mastering advanced machine learning concepts.</p><p>PhD mathematician turned ML engineer Tivadar Danka-known for his intuitive teaching style that has attracted 100k+ followers-guides you through complex concepts with clarity providing the structured guidance you need to deepen your theoretical knowledge and enhance your ability to solve complex machine learning problems. Balancing theory with application this book offers clear explanations of mathematical constructs and their direct relevance to machine learning tasks. Through practical Python examples you'll learn to implement and use these ideas in real-world scenarios such as training machine learning models with gradient descent or working with vectors matrices and tensors.</p><p>By the end of this book you'll have gained the confidence to engage with advanced machine learning literature and tailor algorithms to meet specific project requirements.</p><p><strong>What You Will Learn:</strong></p><p>- Understand core concepts of linear algebra including matrices eigenvalues and decompositions</p><p>- Grasp fundamental principles of calculus including differentiation and integration</p><p>- Explore advanced topics in multivariable calculus for optimization in high dimensions</p><p>- Master essential probability concepts like distributions Bayes' theorem and entropy</p><p>- Bring mathematical ideas to life through Python-based implementations</p><p><strong>Who this book is for:</strong></p><p>This book is for aspiring machine learning engineers data scientists software developers and researchers who want to gain a deeper understanding of the mathematics that drives machine learning. A foundational understanding of algebra and Python and basic familiarity with machine learning tools are recommended.</p><p><strong>Table of Contents</strong></p><p>- Vectors and vector spaces</p><p>- The geometric structure of vector spaces</p><p>- Linear algebra in practice spaces: measuring distances</p><p>- Linear transformations</p><p>- Matrices and equations</p><p>- Eigenvalues and eigenvectors</p><p>- Matrix factorizations</p><p>- Matrices and graphs</p><p>- Functions</p><p>- Numbers sequences and series</p><p>- Topology limits and continuity</p><p>- Differentiation</p><p>- Optimization</p><p>- Integration</p><p>- Multivariable functions</p><p>- Derivatives and gradients</p><p>- Optimization in multiple variables</p><p>- What is probability?</p><p>- Random variables and distributions</p><p>- The expected value</p><p>- The maximum likelihood estimation</p><p>- It's just logic</p><p>- The structure of mathematics</p><p>- Basics of set theory</p><p>- Complex numbers</p>