In this paper it is investigated which pivots may be processed simultaneously when solving a set of linear equations. It is shown that for dense sets of equations all the pivots must necessarily be processed one at a time; only if the set is sufficiently sparse, some pivots may be processed simultaneously. We present parallel pivoting algorithms for MIMD computers with sufficiently many processors and a common memory. Moreover we present algorithms for MIMD computers with an arbitrary, but fixed number of processors. For both types of computers algorithms embodying an ordering strategy are given
Let A, B be two arbitrary mnnn , matrices. We present a parallel algorithm to solve the dense line...
This book is primarily intended as a research monograph that could also be used in graduate courses ...
We consider the solution of both symmetric and unsymmetric systems of sparse linear equations. A new...
In this paper it is investigated which pivots may be processed simultaneously when solving a set of ...
This paper provides an introduction to algorithms for fundamental linear algebra problems on various...
This paper provides an introduction to algorithms for fundamental linear algebra problems on various...
Parallel algorithms for triangularization of large, sparse, and unsymmetric matrices are presented. ...
This thesis presents a parallel algorithm for the direct LU factorization of general unsymmetric spa...
. Solving large nonsymmetric sparse linear systems on distributed memory multiprocessors is an activ...
We present an overview of parallel direct methods for solving sparse systems of linear equations, fo...
Many linear algebra algorithms require explicit row/column swapping mainly when pivoting operations ...
We consider the use of 1 x 1 and 2x2 pivots for direct solution of sets of linear equations whose ma...
AbstractNew techniques are presented for the manipulation of sparse matrices on parallel MIMD comput...
Gary Kumfert and Alex Pothen have improved the quality and run time of two ordering algorithms for m...
Partial pivoting strategies for the decomposition of symmetric matrices are discussed for solving sy...
Let A, B be two arbitrary mnnn , matrices. We present a parallel algorithm to solve the dense line...
This book is primarily intended as a research monograph that could also be used in graduate courses ...
We consider the solution of both symmetric and unsymmetric systems of sparse linear equations. A new...
In this paper it is investigated which pivots may be processed simultaneously when solving a set of ...
This paper provides an introduction to algorithms for fundamental linear algebra problems on various...
This paper provides an introduction to algorithms for fundamental linear algebra problems on various...
Parallel algorithms for triangularization of large, sparse, and unsymmetric matrices are presented. ...
This thesis presents a parallel algorithm for the direct LU factorization of general unsymmetric spa...
. Solving large nonsymmetric sparse linear systems on distributed memory multiprocessors is an activ...
We present an overview of parallel direct methods for solving sparse systems of linear equations, fo...
Many linear algebra algorithms require explicit row/column swapping mainly when pivoting operations ...
We consider the use of 1 x 1 and 2x2 pivots for direct solution of sets of linear equations whose ma...
AbstractNew techniques are presented for the manipulation of sparse matrices on parallel MIMD comput...
Gary Kumfert and Alex Pothen have improved the quality and run time of two ordering algorithms for m...
Partial pivoting strategies for the decomposition of symmetric matrices are discussed for solving sy...
Let A, B be two arbitrary mnnn , matrices. We present a parallel algorithm to solve the dense line...
This book is primarily intended as a research monograph that could also be used in graduate courses ...
We consider the solution of both symmetric and unsymmetric systems of sparse linear equations. A new...