The principles of deep learning theory : an effective theory approach to understanding neural networks / Daniel A. Roberts and Sho Yaida based on research in collaboration with Boris Hanin.
Material type:
TextPublication details: United Kingdom Cambridge University Press, 2022Description: ix,460p;. 24cmISBN: - 9781316519332
- 006.31 23/eng20220215 R639p
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Library, Independent University, Bangladesh (IUB) Reference Stacks | 006.31 R639p (Browse shelf(Opens below)) | 2022 | 01 | Not For Loan | 029571 |
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| 006.31 H933 The Hundred - page machine learning book / | 006.31 H933 The Hundred - page machine learning book / | 006.31 K439m Machine learning : a probabilistic perspective / | 006.31 R639p The principles of deep learning theory : an effective theory approach to understanding neural networks / | 006.310151 K689m Math for deep learning : what you need to know to understand neural networks / | 006.31015192 M9781p Probabilistic machine learning : advanced topics / | 006.312 H2331d 2012 Data mining : concepts and techniques / |
Includes bibliographical references and index.
"This textbook establishes a theoretical framework for understanding deep learning models of practical relevance. With an approach that borrows from theoretical physics, Roberts and Yaida provide clear and pedagogical explanations of how realistic deep neural networks actually work. To make results from the theoretical forefront accessible, the authors eschew the subject's traditional emphasis on intimidating formality without sacrificing accuracy. Straightforward and approachable, this volume balances detailed first-principle derivations of novel results with insight and intuition for theorists and practitioners alike. This self-contained textbook is ideal for students and researchers interested in artificial intelligence with minimal prerequisites of linear algebra, calculus, and informal probability theory, and it can easily fill a semester-long course on deep learning theory. For the first time, the exciting practical advances in modern artificial intelligence capabilities can be matched with a set of effective principles, providing a timeless blueprint for theoretical research in deep learning"--
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