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Methods and Applications of Error-Free Computation

  • Textbook
  • © 1984

Overview

Authors:
  1. R. T. Gregory

    1. Department of Computer Science and Department of Mathematics, University of Tennessee, Knoxville, USA

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  2. E. V. Krishnamurthy

    1. Department of Applied Mathematics, Indian Institute of Science, Bangalore, India

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    You can also search for this author in PubMed   Google Scholar

Part of the book series: Monographs in Computer Science (MCS)

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Table of contents (6 chapters)

  1. Front Matter

    Pages i-xii
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  2. Residue or Modular Arithmetic

    • R. T. Gregory, E. V. Krishnamurthy
    Pages 1-62

  3. Finite-Segment p-adic Arithmetic

    • R. T. Gregory, E. V. Krishnamurthy
    Pages 63-108

  4. Exact Computation of Generalized Inverses

    • R. T. Gregory, E. V. Krishnamurthy
    Pages 109-133

  5. Integer Solutions to Linear Equations

    • R. T. Gregory, E. V. Krishnamurthy
    Pages 134-161

  6. Iterative Matrix Inversion and the Iterative Solution of Linear Equations

    • R. T. Gregory, E. V. Krishnamurthy
    Pages 162-179

  7. The Exact Computation of the Characteristic Polynomial of a Matrix

    • R. T. Gregory, E. V. Krishnamurthy
    Pages 180-185

  8. Back Matter

    Pages 186-194
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Keywords

About this book

This book is written as an introduction to the theory of error-free computation. In addition, we include several chapters that illustrate how error-free com­ putation can be applied in practice. The book is intended for seniors and first­ year graduate students in fields of study involving scientific computation using digital computers, and for researchers (in those same fields) who wish to obtain an introduction to the subject. We are motivated by the fact that there are large classes of ill-conditioned problems, and there are numerically unstable algorithms, and in either or both of these situations we cannot tolerate rounding errors during the numerical computations involved in obtaining solutions to the problems. Thus, it is important to study finite number systems for digital computers which have the property that computation can be performed free of rounding errors. In Chapter I we discuss single-modulus and multiple-modulus residue number systems and arithmetic in these systems, where the operands may be either integers or rational numbers. In Chapter II we discuss finite-segment p-adic number systems and their relationship to the p-adic numbers of Hensel [1908]. Each rational number in a certain finite set is assigned a unique Hensel code and arithmetic operations using Hensel codes as operands is mathe­ matically equivalent to those same arithmetic operations using the cor­ responding rational numbers as operands. Finite-segment p-adic arithmetic shares with residue arithmetic the property that it is free of rounding errors.

Authors and Affiliations

  • Department of Computer Science and Department of Mathematics, University of Tennessee, Knoxville, USA

    R. T. Gregory

  • Department of Applied Mathematics, Indian Institute of Science, Bangalore, India

    E. V. Krishnamurthy

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