Adaptive Block FSAI (ABF) is a novel and promising preconditioner for the efficient parallel solution of linear systems and eigenproblems arising from subsurface applications. However, one of its main drawbacks stems from the reduced scalability, as the iteration count to converge tends to grow increasing the number of processors. Graph partitioning techniques can help improve both the preconditioner performance and scalability. Different algorithms are experimented with in a test problem arising from a groundwater flow application. The results show that coupling graph partitioning with ABF appears to be an important factor to increase significantly the preconditioner efficiency, allowing for its effective use also on massively parallel sim...
Constraint preconditioners have proved very efficient for the solution of ill-conditioned saddle poi...
Many scientific applications require the solution of large and sparse linear systems of equations us...
AbstractIntegration of the subsurface flow equation by finite elements (FE) in space and finite diff...
Adaptive Block FSAI (ABF) is a novel and promising preconditioner for the efficient parallel solutio...
Adaptive Block FSAI (ABF) is a novel preconditioner which has proved efficient for the parallel solu...
Adaptive Block FSAI (ABF) is an algebraic preconditioner for the efficient parallel solution of symm...
Adaptive block factorized sparse approximate inverse (FSAI) (ABF) is a novel al- gebraic preconditio...
An adaptive algorithm is presented to generate automatically the nonzero pattern of the block factor...
Integration of the subsurface flow equation by Finite Elements (FE) in space and Finite Differences ...
The present paper describes a parallel preconditioned algorithm for the solution of partial eigenval...
2In this paper we propose a parallel preconditioner for the CG solver based on successive applicatio...
The present paper describes a parallel preconditioned algorithm for the solution of partial eigenval...
The choice of the preconditioner is a key factor to accelerate the convergence of eigensolvers for l...
Factorized sparse approximate inverse (FSAI) preconditioners are robust algorithms for symmetric pos...
A novel parallel preconditioner combining a generalized Factored Sparse Approximate Inverse (FSAI) w...
Constraint preconditioners have proved very efficient for the solution of ill-conditioned saddle poi...
Many scientific applications require the solution of large and sparse linear systems of equations us...
AbstractIntegration of the subsurface flow equation by finite elements (FE) in space and finite diff...
Adaptive Block FSAI (ABF) is a novel and promising preconditioner for the efficient parallel solutio...
Adaptive Block FSAI (ABF) is a novel preconditioner which has proved efficient for the parallel solu...
Adaptive Block FSAI (ABF) is an algebraic preconditioner for the efficient parallel solution of symm...
Adaptive block factorized sparse approximate inverse (FSAI) (ABF) is a novel al- gebraic preconditio...
An adaptive algorithm is presented to generate automatically the nonzero pattern of the block factor...
Integration of the subsurface flow equation by Finite Elements (FE) in space and Finite Differences ...
The present paper describes a parallel preconditioned algorithm for the solution of partial eigenval...
2In this paper we propose a parallel preconditioner for the CG solver based on successive applicatio...
The present paper describes a parallel preconditioned algorithm for the solution of partial eigenval...
The choice of the preconditioner is a key factor to accelerate the convergence of eigensolvers for l...
Factorized sparse approximate inverse (FSAI) preconditioners are robust algorithms for symmetric pos...
A novel parallel preconditioner combining a generalized Factored Sparse Approximate Inverse (FSAI) w...
Constraint preconditioners have proved very efficient for the solution of ill-conditioned saddle poi...
Many scientific applications require the solution of large and sparse linear systems of equations us...
AbstractIntegration of the subsurface flow equation by finite elements (FE) in space and finite diff...