Scientific computing on vector computers
Scientific computing on vector computers
ACM Transactions on Mathematical Software (TOMS)
Factorized sparse approximate inverse preconditionings I: theory
SIAM Journal on Matrix Analysis and Applications
Parallel Preconditioning with Sparse Approximate Inverses
SIAM Journal on Scientific Computing
A Sparse Approximate Inverse Preconditioner for Nonsymmetric Linear Systems
SIAM Journal on Scientific Computing
A comparative study of sparse approximate inverse preconditioners
IMACS'97 Proceedings on the on Iterative methods and preconditioners
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We consider projection methods--a class of inherently parallel methods forcalculating approximate inverses and we consider the properties of these approximate inverses applied as explicit preconditioners of Krylov subspace methods.In the first part, we discuss a theoretical framework for general projection methods including an explicit representation of an approximate inverse given by a projection method and, importantly, a statement on the quality of the approximation of such an approximate inverse to the exact inverse in form of a minimisation property. Further, we consider strategies for the adaptive generation of sparsity patterns for general projection methods. Since these strategies depend on parameters, they are tunable with regards to the available computer architecture and to the characteristics of the considered linear system.Then, we focus on two particular projection methods, namely FSAI-projection and Plain projection proposed by C. Koschinski [Ph.D. Thesis, University of Karlsruhe, 1999] in greater detail. We compare the performance of these preconditioning techniques to both implicit and explicit state-of-the-art preconditioning methods. The results of these numerical experiments indicate that the new projection methods are competitive to the state-of-the-art preconditioning techniques.