AbstractThe use of implicit methods for numerically solving stiff systems of differential equations requires the solution of systems of nonlinear equations. Normally these are solved by a Newtontype process, in which we have to solve systems of linear equations. The Jacobian of the derivative function determines the structure of the matrices of these linear systems. Since it often occurs that the components of the derivative function only depend on a small number of variables, the system can be considerably sparse. Hence, it can be worth the effort to use a sparse matrix solver instead of a dense LU-decomposition. This paper reports on experiences with the direct sparse matrix solvers MA28 by Duff [1], Y12M by Zlatev et al. [2] and one spec...
Many computationally intensive problems in engineering and science, such as those driven by Partial ...
AbstractThis paper considers the effect of partial pivoting in automatic ordinary differential equat...
In this review paper, we consider some important developments and trends in algorithm design for t...
The use of implicit methods for numerically solving stiff systems of differential equations requires...
AbstractThe use of implicit methods for numerically solving stiff systems of differential equations ...
Gary Kumfert and Alex Pothen have improved the quality and run time of two ordering algorithms for m...
Abstract- The basic problems in developing parallel direct solvers of sparse systems of linear equat...
Sparse linear system of equations often arises after discretization of the partial differential equa...
We consider the use of software for the direct solution of sparse linear equations within a stiff in...
In this paper we review the parallel solution of sparse linear systems, usually deriving by the disc...
The paper deals with parallel approach for the numerical solution of large, sparse, non-symmetric sy...
This paper describes implementations of eight algorithms of Newton and quasi-Newton type for solving...
AbstractA natural approach for giving a positive answer to the need of faster ODE solvers consists i...
The need to solve large sparse linear systems of equations efficiently lies at the heart of many app...
We present an overview of parallel direct methods for solving sparse systems of linear equations, fo...
Many computationally intensive problems in engineering and science, such as those driven by Partial ...
AbstractThis paper considers the effect of partial pivoting in automatic ordinary differential equat...
In this review paper, we consider some important developments and trends in algorithm design for t...
The use of implicit methods for numerically solving stiff systems of differential equations requires...
AbstractThe use of implicit methods for numerically solving stiff systems of differential equations ...
Gary Kumfert and Alex Pothen have improved the quality and run time of two ordering algorithms for m...
Abstract- The basic problems in developing parallel direct solvers of sparse systems of linear equat...
Sparse linear system of equations often arises after discretization of the partial differential equa...
We consider the use of software for the direct solution of sparse linear equations within a stiff in...
In this paper we review the parallel solution of sparse linear systems, usually deriving by the disc...
The paper deals with parallel approach for the numerical solution of large, sparse, non-symmetric sy...
This paper describes implementations of eight algorithms of Newton and quasi-Newton type for solving...
AbstractA natural approach for giving a positive answer to the need of faster ODE solvers consists i...
The need to solve large sparse linear systems of equations efficiently lies at the heart of many app...
We present an overview of parallel direct methods for solving sparse systems of linear equations, fo...
Many computationally intensive problems in engineering and science, such as those driven by Partial ...
AbstractThis paper considers the effect of partial pivoting in automatic ordinary differential equat...
In this review paper, we consider some important developments and trends in algorithm design for t...