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<i>hypre</i> : A Library of High Performance Preconditioners

hypre : A Library of High Performance Preconditioners

Book SeriesLecture Notes in Computer Science
PublisherSpringer Berlin / Heidelberg
ISSN0302-9743 (Print) 1611-3349 (Online)
VolumeVolume 2331/2009
BookComputational Science — ICCS 2002
DOI10.1007/3-540-47789-6
Copyright2009
ISBN978-3-540-43594-5
DOI10.1007/3-540-47789-6_66
Pages632-641
Subject CollectionComputer Science
SpringerLink DateTuesday, January 01, 2002
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hypre: A Library of High Performance Preconditioners

Robert D. Falgout7 and Ulrike Meier Yang7

(7)  Lawrence Livermore National Laboratory, Center for Applied Scientific Computing, P.O.Box 808, L-560, Livermore, CA, 94551
Abstract
hypre is a software library for the solution of large, sparse linear systems on massively parallel computers. Its emphasis is on modern powerful and scalable preconditioners. hypre provides various conceptual interfaces to enable application users to access the library in the way they naturally think about their problems. This paper presents the conceptual interfaces in hypre. An overview of the preconditioners that are available in hypre is given, including some numerical results that show the efficiency of the library.
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Referenced by
7 newer articles

  1. Boyle, Jonathan (2009) HSL_MI20: An efficient AMG preconditioner for finite element problems in 3D. International Journal for Numerical Methods in Engineering
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  2. Kumfert, G (2006) How the common component architecture advances computational science. Journal of Physics Conference Series 46
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  3. Hernandez, V. (2004) High-quality computational tools for linear-algebra problems in FEM electromagnetic simulation [EM Programmer's Notebook]. IEEE Antennas and Propagation Magazine 46(6)
    [CrossRef]
  4. Terrel, A.R. (2008) Automated FEM discretizations for the Stokes equation. Bit Numerical Mathematics
    [CrossRef]
  5. Alber, David M. (2006) Modifying CLJP to select grid hierarchies with lower operator complexities and better performance. Numerical Linear Algebra with Applications 13(2-3)
    [CrossRef]
  6. Armstrong, Rob (2006) The CCA component model for high-performance scientific computing. Concurrency and Computation Practice and Experience 18(2)
    [CrossRef]
  7. Ham, F. E. (2006) Multiple semi-coarsened multigrid method with application to large eddy simulation. International Journal for Numerical Methods in Fluids 50(5)
    [CrossRef]
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