hypre

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


References in zbMATH (referenced in 306 articles , 1 standard article )

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  1. Bailey, Teresa S.; Adams, Marvin L.; Yang, Brian; Zika, Michael R.: A piecewise linear finite element discretization of the diffusion equation for arbitrary polyhedral grids (2008)
  2. Berndt, Markus; Moulton, J. David; Hansen, Glen: Efficient nonlinear solvers for Laplace-Beltrami smoothing of three-dimensional unstructured grids (2008)
  3. Desjardins, Olivier; Blanquart, Guillaume; Balarac, Guillaume; Pitsch, Heinz: High order conservative finite difference scheme for variable density low Mach number turbulent flows (2008)
  4. Desjardins, Olivier; Moureau, Vincent; Pitsch, Heinz: An accurate conservative level set/ghost fluid method for simulating turbulent atomization (2008)
  5. Hadri, Bilel; Garbey, Marc: A fast Navier Stokes flow simulation tool for image based CFD (2008)
  6. Heil, Matthias; Hazel, Andrew L.; Boyle, Jonathan: Solvers for large-displacement fluid-structure interaction problems: Segregated versus monolithic approaches (2008)
  7. Klawonn, Axel; Pavarino, Luca F.; Rheinbach, Oliver: Spectral element FETI-DP and BDDC preconditioners with multi-element subdomains (2008)
  8. Philip, Bobby; Chacón, Luis; Pernice, Michael: Implicit adaptive mesh refinement for 2D reduced resistive magnetohydrodynamics (2008)
  9. Sala, Marzio; Stanley, Kendall S.; Heroux, Michael A.: On the design of interfaces to sparse direct solvers. (2008)
  10. Teranishi, Keita; Raghavan, Padma; Sun, Jun; Michaleris, Panagiotis: An evaluation of limited-memory sparse linear solvers for thermo-mechanical applications (2008)
  11. Terrel, A. R.; Scott, L. R.; Knepley, M. G.; Kirby, R. C.: Automated FEM discretizations for the Stokes equation (2008)
  12. You, Donghyun; Ham, Frank; Moin, Parviz: Discrete conservation principles in large-eddy simulation with application to separation control over an airfoil (2008)
  13. Alber, David M.; Olson, Luke N.: Parallel coarse-grid selection. (2007)
  14. Fattebert, J.-L.; Hornung, R. D.; Wissink, A. M.: Finite element approach for density functional theory calculations on locally-refined meshes (2007)
  15. Griffith, Boyce E.; Hornung, Richard D.; McQueen, David M.; Peskin, Charles S.: An adaptive, formally second order accurate version of the immersed boundary method (2007)
  16. Heys, J. J.; Lee, E.; Manteuffel, T. A.; McCormick, S. F.: An alternative least-squares formulation of the Navier-Stokes equations with improved mass conservation (2007)
  17. Klawonn, Axel; Rheinbach, Oliver: Inexact FETI-DP methods (2007)
  18. Knyazev, A. V.; Argentati, M. E.; Lashuk, I.; Ovtchinnikov, E. E.: Block locally optimal preconditioned eigenvalue xolvers (BLOPEX) in hypre and PETSC (2007)
  19. Läuter, Matthias; Handorf, Dörthe; Rakowsky, Natalja; Behrens, Jörn; Frickenhaus, Stephan; Best, Meike; Dethloff, Klaus; Hiller, Wolfgang: A parallel adaptive barotropic model of the atmosphere (2007)
  20. Moureau, V.; Minot, P.; Pitsch, H.; Bérat, C.: A ghost-fluid method for large eddy simulations of premixed combustion in complex geometries (2007)

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