Parallel scalability study of three dimensional additive Schwarz preconditioners in non-overlapping domain decomposition

Giraud, L.Haidar, A.Watson, Layne T.2013-06-192013-06-192007http://hdl.handle.net/10919/19610In this paper we study the parallel scalability of variants of additive Schwarz preconditioners for three dimensional non-overlapping domain decomposition methods. To alleviate the computational cost, both in terms of memory and floating-point complexity, we investigate variants based on a sparse approximation or on mixed 32- and 64-bit calculation. The robustness of the preconditioners is illustrated on a set of linear systems arising from the finite element discretization of elliptic PDEs through extensive parallel experiments on up to 1000 processors. Their efficiency from a numerical and parallel performance view point are studied.application/pdfenIn CopyrightParallel computationParallel scalability study of three dimensional additive Schwarz preconditioners in non-overlapping domain decompositionTechnical reportTR-07-03http://eprints.cs.vt.edu/archive/00000940/01/mixPC07.pdf