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Topics in Computational Number Theory Inspired by Peter L. Montgomery

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Topics in Computational Number Theory Inspired by Peter L. Montgomery

Topics in Computational Number Theory Inspired by Peter L. Montgomery

Joppe W. Bos, NXP Semiconductors, Belgium
Arjen K. Lenstra, EPFL, Lausanne, Switzerland
October 2017
Hardback
9781107109353
NZD$245.95
inc GST
Hardback
USD
eBook
    Description

    Peter L. Montgomery has made significant contributions to computational number theory, introducing many basic tools such as Montgomery multiplication, Montgomery simultaneous inversion, Montgomery curves, and the Montgomery ladder. This book features state-of-the-art research in computational number theory related to Montgomery's work and its impact on computational efficiency and cryptography. Topics cover a wide range of topics such as Montgomery multiplication for both hardware and software implementations; Montgomery curves and twisted Edwards curves as proposed in the latest standards for elliptic curve cryptography; and cryptographic pairings. This book provides a comprehensive overview of integer factorization techniques, including dedicated chapters on polynomial selection, the block Lanczos method, and the FFT extension for algebraic-group factorization algorithms. Graduate students and researchers in applied number theory and cryptography will benefit from this survey of Montgomery's work.

    • Provides a comprehensive overview of Peter L. Montgomery's contributions to number field and cryptography
    • Serves as a textbook for a wide range of computational number theory topics
    • Includes contributions by leading experts on each topic

    Product details

    October 2017
    Hardback
    9781107109353
    276 pages
    235 × 156 × 19 mm
    0.52kg
    Available

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    Contents

    Table of Contents

    • 1. Introduction Joppe W. Bos, Arjen K. Lenstra, Herman te Riele and Daniel Shumow
    • 2. Montgomery arithmetic from a software perspective Joppe W. Bos and Peter L. Montgomery
    • 3. Hardware aspects of Montgomery modular multiplication Colin D. Walter
    • 4. Montgomery curves and the Montgomery ladder Daniel J. Bernstein and Tanja Lange
    • 5. General purpose integer factoring Arjen K. Lenstra
    • 6. Polynomial selection for the number field sieve Thorsten Kleinjung
    • 7. The block lanczos algorithm Emmanuel Thomé
    • 8. FFT extension for algebraic-group factorization algorithms Richard P. Brent, Alexander Kruppa and Paul Zimmermann
    • 9. Cryptographic pairings Kristin Lauter and Michael Naehrig.
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      Contributors

    • Joppe W. Bos, Arjen K. Lenstra, Herman te Riele, Daniel Shumow, Peter L. Montgomery, Colin D. Walter, Daniel J. Bernstein, Tanja Lange, Thorsten Kleinjung, Emmanuel Thomé, Richard P. Brent, Alexander Kruppa, Paul Zimmermann, Kristin Lauter, Michael Naehrig

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