• Title of article

    A fast parallel Björck–Pereyra-type algorithm for solving Cauchy linear equations Original Research Article

  • Author/Authors

    Tibor Boros، نويسنده , , Thomas Kailath، نويسنده , , Vadim Olshevsky، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1999
  • Pages
    29
  • From page
    265
  • To page
    293
  • Abstract
    We propose a new fast O(n2) parallel algorithm for solving Cauchy systems of linear equations. We perform an a priori rounding error analysis and obtain componentwise bounds for the forward, backward and residual errors. These bounds indicate that for the class of totally positive Cauchy matrices the new algorithm is forward and backward stable, producing a remarkably high relative accuracy. In particular, Hilbert linear systems, often considered to be too ill-conditioned to be attacked, can be rapidly solved with high precision. The results indicate a close resemblance between the numerical properties of Cauchy matrices and the much-studied Vandermonde matrices. In fact, our proposed Cauchy solver is an analog of the well-known Björck–Pereyra algorithm for Vandermonde systems. As a by-product we obtain favorably backward error bounds for the original Björck–Pereyra algorithm. Several computed examples illustrate a connection of high relative accuracy to the concepts of effective well-conditioning and total positivity.
  • Keywords
    Hilbert matrix , Vandermonde matrix , Forward error analysis , Backward error analysis , Ordering of interpolation points , Total positivity , E?ective well-conditioning , Skeel condition number , Chan±Foulser conditionnumber , Cauchy matrix , Fast algorithms , Bjorck±Pereyraalgorithm
  • Journal title
    Linear Algebra and its Applications
  • Serial Year
    1999
  • Journal title
    Linear Algebra and its Applications
  • Record number

    822865