AbstractIn the solution of a system of linear algebraic equations Ax=b with a large sparse coefficient matrix A, the LU-decomposition with iterative refinement (LUIR) is compared with the LU-decomposition with direct solution (LUDS), which is without iterative refinement. We verify by numerical experiments that the use of sparse matrix techniques with LUIR may result in a reduction of both the computing time and the storage requirements. The powers of a Boolean matrix strategy (PBS) is used in an effort to achieve such a reduction and in an attempt to control the sparsity. We conclude that iterative refinement procedures may be efficiently used as an option in software for the solution of sparse linear systems of equations
International audienceIn this paper, we are interested in computing the solution of an overdetermine...
AbstractAn algorithm is presented for the general solution of a set of linear equations Ax=b. The me...
This paper describes a recursive method for the LU factorization of sparse matrices. The recursive f...
AbstractIn this work, the solution of a large sparse linear system of equations with an arbitrary sp...
An over view of advanced techniques for solving large sparse linear systems of equations is presente...
The mathematical models of many practical problems lead to systems of linear algebraic equations wh...
The standard LU factorization-based solution process for linear systems can be enhanced in speed or ...
A technique for optimizing software is proposed that involves the use of a standardized set of compu...
Solving large-scale systems of linear equations [] { } {}bxA = is one of the most expensive and cr...
This book describes, in a basic way, the most useful and effective iterative solvers and appropriate...
Introduction One of the fundamental task of numerical computing is the ability to solve linear syst...
The solution of nearly square overdetermined linear systems is studied. The sparse QR technique is c...
Iterative refinement is a long-standing technique for improving the accuracy of a computed solution ...
AbstractThe main idea of this paper is in determination of the pattern of nonzero elements of the LU...
Abstract. An iterative method LSMR is presented for solving linear systems Ax = b and least-squares ...
International audienceIn this paper, we are interested in computing the solution of an overdetermine...
AbstractAn algorithm is presented for the general solution of a set of linear equations Ax=b. The me...
This paper describes a recursive method for the LU factorization of sparse matrices. The recursive f...
AbstractIn this work, the solution of a large sparse linear system of equations with an arbitrary sp...
An over view of advanced techniques for solving large sparse linear systems of equations is presente...
The mathematical models of many practical problems lead to systems of linear algebraic equations wh...
The standard LU factorization-based solution process for linear systems can be enhanced in speed or ...
A technique for optimizing software is proposed that involves the use of a standardized set of compu...
Solving large-scale systems of linear equations [] { } {}bxA = is one of the most expensive and cr...
This book describes, in a basic way, the most useful and effective iterative solvers and appropriate...
Introduction One of the fundamental task of numerical computing is the ability to solve linear syst...
The solution of nearly square overdetermined linear systems is studied. The sparse QR technique is c...
Iterative refinement is a long-standing technique for improving the accuracy of a computed solution ...
AbstractThe main idea of this paper is in determination of the pattern of nonzero elements of the LU...
Abstract. An iterative method LSMR is presented for solving linear systems Ax = b and least-squares ...
International audienceIn this paper, we are interested in computing the solution of an overdetermine...
AbstractAn algorithm is presented for the general solution of a set of linear equations Ax=b. The me...
This paper describes a recursive method for the LU factorization of sparse matrices. The recursive f...