We discuss the design and implementation of a suite of functions for solving symmetric indefinite linear systems associated with mixed approximation of systems of PDEs. The novel feature of our iterative solver is the incorporation of error control in the natural “energy ” norm in combination with an a posteriori estimator for the PDE approximation error. This leads to a robust and optimally efficient stopping criterion: the iteration is terminated as soon as the algebraic error is insignificant compared to the approximation error. We describe a “proof of concept ” MATLAB implementation of this algorithm, which we call EST MINRES, and we illustrate its effectiveness when integrated into the Incompressible Flow Iterative Solution Softwar
An iterative method for solving nonsymmetric indefinite linear systems is proposed. The method invol...
Iterative solution methods provide the only feasible alternative to direct methods for very large sc...
Several Krylov subspace iterative methods have been proposed for the approximation of the solution o...
We discuss the design and implementation of a suite of functions for solving symmetric indefinite li...
We discuss the design and implementation of a suite of functions for solving symmetric indefinite l...
We discuss the design and implementation of a suite of functions for solving symmetric indefinite l...
We discuss the design and implementation of a suite of functions for solving symmetric indefi-nite l...
This work discusses the design of efficient algorithms for solving symmetric indefinite linear syste...
The central theme of this thesis is the design of optimal balanced black-box stopping criteria in it...
We discuss a variety of iterative methods that are based on the Arnoldi process for solving large sp...
10.1007/s10589-006-9006-8Computational Optimization and Applications362-3221-247CPPP
We propose a two-level nested preconditioned iterative scheme for solving sparse linear systems of e...
AbstractHybrid iterative methods that combine a conjugate direction method with a simpler iteration ...
We propose a two-level nested preconditioned iterative scheme for solving sparse linear systems of e...
This paper discusses the design and implementation of efficient solution algorithms for symmetric li...
An iterative method for solving nonsymmetric indefinite linear systems is proposed. The method invol...
Iterative solution methods provide the only feasible alternative to direct methods for very large sc...
Several Krylov subspace iterative methods have been proposed for the approximation of the solution o...
We discuss the design and implementation of a suite of functions for solving symmetric indefinite li...
We discuss the design and implementation of a suite of functions for solving symmetric indefinite l...
We discuss the design and implementation of a suite of functions for solving symmetric indefinite l...
We discuss the design and implementation of a suite of functions for solving symmetric indefi-nite l...
This work discusses the design of efficient algorithms for solving symmetric indefinite linear syste...
The central theme of this thesis is the design of optimal balanced black-box stopping criteria in it...
We discuss a variety of iterative methods that are based on the Arnoldi process for solving large sp...
10.1007/s10589-006-9006-8Computational Optimization and Applications362-3221-247CPPP
We propose a two-level nested preconditioned iterative scheme for solving sparse linear systems of e...
AbstractHybrid iterative methods that combine a conjugate direction method with a simpler iteration ...
We propose a two-level nested preconditioned iterative scheme for solving sparse linear systems of e...
This paper discusses the design and implementation of efficient solution algorithms for symmetric li...
An iterative method for solving nonsymmetric indefinite linear systems is proposed. The method invol...
Iterative solution methods provide the only feasible alternative to direct methods for very large sc...
Several Krylov subspace iterative methods have been proposed for the approximation of the solution o...