Composable Linear Solvers for Multiphysics

Jed Brown; Lois Curfman McInnes; Barry Smith; Matthew G. Knepley; David A. May

doi:10.1109/ISPDC.2012.16

I
ISPDC
2012
2012 11th International Symposium on Parallel and Distributed Computing
Abstract - Composable Linear Solvers for Multiphysics

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2012 11th International Symposium on Parallel and Distributed Computing

Composable Linear Solvers for Multiphysics

Munich, Germany Germany

June 25-June 29

ISBN: 978-1-4673-2599-8

	ASCII Text	x
	Jed Brown, Matthew G. Knepley, David A. May, Lois Curfman McInnes, Barry Smith, "Composable Linear Solvers for Multiphysics," Parallel and Distributed Computing, International Symposium on, pp. 55-62, 2012 11th International Symposium on Parallel and Distributed Computing, 2012.

	BibTex	x
	@article{ 10.1109/ISPDC.2012.16, author = {Jed Brown and Matthew G. Knepley and David A. May and Lois Curfman McInnes and Barry Smith}, title = {Composable Linear Solvers for Multiphysics}, journal ={Parallel and Distributed Computing, International Symposium on}, volume = {0}, year = {2012}, isbn = {978-1-4673-2599-8}, pages = {55-62}, doi = {http://doi.ieeecomputersociety.org/10.1109/ISPDC.2012.16}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Parallel and Distributed Computing, International Symposium on TI - Composable Linear Solvers for Multiphysics SN - 978-1-4673-2599-8 SP55 EP62 A1 - Jed Brown, A1 - Matthew G. Knepley, A1 - David A. May, A1 - Lois Curfman McInnes, A1 - Barry Smith, PY - 2012 KW - Jacobian matrices KW - Physics KW - Indexes KW - Ice KW - Sparse matrices KW - Runtime KW - Couplings KW - Schur complement KW - multiphysics KW - hierarchical solvers KW - composable solvers VL - 0 JA - Parallel and Distributed Computing, International Symposium on ER -

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/ISPDC.2012.16

The Portable, Extensible Toolkit for Scientific computing (PETSc), which focuses on the scalable solution of problems based on partial differential equations, now incorporates new components that allow full compos ability of solvers for multiphysics and multilevel methods. Through strong encapsulation, we achieve arbitrary, dynamic composition of hierarchical methods for coupled problems and allow customization of all components in composite solvers. For example, we support block decompositions with nested multigrid as well as multigrid on the fully coupled system with block-decomposed smoothers. This paper provides an overview of PETSc's new multiphysics capabilities, which have been used in parallel applications including lithosphere dynamics, subduction and mantle convection, ice sheet dynamics, subsurface reactive flow, fusion, mesoscale materials modeling, and power networks.

Index Terms:

Jacobian matrices,Physics,Indexes,Ice,Sparse matrices,Runtime,Couplings,Schur complement,multiphysics,hierarchical solvers,composable solvers

Citation:

Jed Brown, Matthew G. Knepley, David A. May, Lois Curfman McInnes, Barry Smith, "Composable Linear Solvers for Multiphysics," ispdc, pp.55-62, 2012 11th International Symposium on Parallel and Distributed Computing, 2012

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