A library of distributed iterative linear system solvers

The paper deals with the numerical treatment of the direct frequency domain (DFD) analysis of linear mechanical systems. Attention is mainly focused on the solution of the complex system of equations needed for each analyzed frequency. Strategies for transforming the system into the ``shifted'' form

This paper is a survey of direct parallel algorithms for solving systems of linear equations. We present an up-to-date collection of algorithms for solving triangular, dense, and tridiagonal systems of equations. We state their resulting speedup over the corresponding sequential algorithms, and eva

Brugnano, L\_, A parallel solver for tridiagonal linear systems for distributed memory parallel computers, Parallel Computing 17 (1991) 1017-1023. The solution of linear tridiagonal systems is a very common problem in Numerical Analysis. Many algorithms are known for solving such linear systems on

An iterative solver for a pair of coupled partial differential equations that are related to the Maxwell equations is discussed. The convergence of the scheme depends on the choice of two parameters. When the first parameter is fixed, the scheme is seen to be a successive under-relaxation scheme in