Turing's Vision

Turing's Vision

The Birth of Computer Science

By Chris Bernhardt

Turing's fascinating and remarkable theory, which now forms the basis of computer science, explained for the general reader.

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Thursday, 10 November, 2016

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Summary

Turing's fascinating and remarkable theory, which now forms the basis of computer science, explained for the general reader.

In 1936, when he was just twenty-four years old, Alan Turing wrote a remarkable paper in which he outlined the theory of computation, laying out the ideas that underlie all modern computers. This groundbreaking and powerful theory now forms the basis of computer science. In Turing's Vision, Chris Bernhardt explains the theory, Turing's most important contribution, for the general reader. Bernhardt argues that the strength of Turing's theory is its simplicity, and that, explained in a straightforward manner, it is eminently understandable by the nonspecialist. As Marvin Minsky writes, “The sheer simplicity of the theory's foundation and extraordinary short path from this foundation to its logical and surprising conclusions give the theory a mathematical beauty that alone guarantees it a permanent place in computer theory.” Bernhardt begins with the foundation and systematically builds to the surprising conclusions. He also views Turing's theory in the context of mathematical history, other views of computation (including those of Alonzo Church), Turing's later work, and the birth of the modern computer.

In the paper, “On Computable Numbers, with an Application to the Entscheidungsproblem,” Turing thinks carefully about how humans perform computation, breaking it down into a sequence of steps, and then constructs theoretical machines capable of performing each step. Turing wanted to show that there were problems that were beyond any computer's ability to solve; in particular, he wanted to find a decision problem that he could prove was undecidable. To explain Turing's ideas, Bernhardt examines three well-known decision problems to explore the concept of undecidability; investigates theoretical computing machines, including Turing machines; explains universal machines; and proves that certain problems are undecidable, including Turing's problem concerning computable numbers.

Hardcover

Out of Print ISBN: 9780262034548 208 pp. | 5.375 in x 8 in 15 b&w illus.

Paperback

$18.95 T ISBN: 9780262533515 208 pp. | 5.375 in x 8 in 15 b&w illus.

Endorsements

  • A fascinating account of Alan Turing's epic research paper, which kicked off the entire computer revolution. I'm particularly impressed by the amount of detail the author includes while keeping everything simple, transparent, and a pleasure to read.

    Ian Stewart

    author of In Pursuit of the Unknown: 17 Equations That Changed the World

  • This is a delightful introduction for the lay reader to the ideas surrounding Alan Turing's great paper of 1936.

    Scott Aaronson

    Associate Professor of Electrical Engineering and Computer Science, MIT

  • Over the past several decades, Alan Turing, known as the father of computer science, has become an intellectual and cultural icon. Chris Bernhardt has written a very clear and accessible book that explains Turing's work, showing how his ideas have developed into some of the most important ideas in computer science today.

    Noson S. Yanofsky

    author of The Outer Limits of Reason: What Science, Mathematics, and Logic Cannot Tell Us

  • The dazzling array of computer applications, from desktop to cell phone, has obscured the play of ideas that first set our modern era in motion. In this account, Bernhardt reveals the crucial contribution to these developments made by Alan Turing and other early computer scientists. A marvelous book.

    A. K. Dewdney

    Professor Emeritus, Department of Computer Science, University of Western Ontario