AbstractThis paper is concerned with parallel alternating-type iterative methods for solving large sparse linear systems of the form Au = b arising in the numerical solution of partial differential equations by finite difference methods. Examples of alternating-type methods include the alternating direction implicit (ADI) method and the unsymmetric SOR (USSOR) method. Each iteration of an alternating-type method involves the use of two parameters, say ϱ and ϱ′. We consider parallel alternating-type methods where, given an initial vector u(0), the positive integer m, and two sets of m parameters “ϱi” and “ϱ′j”, one carries out m2 single iterations in parallel, each involving one pair (ϱi,ϱ′j) of the parameters. It is shown that in some cases...
Additive iterative methods of complete approximation for stationary problems of mathematical physics...
: Alternating direction iterative (ADI) methods do not usually work well on parallel computers due t...
In this review paper, we consider some important developments and trends in algorithm design for t...
AbstractThis paper is concerned with parallel alternating-type iterative methods for solving large s...
This paper is concerned with parallel alternating-type iterative methods for solving large sparse li...
We consider the problem of solving large sparse linear systems where the coefficient matrix is possi...
The so-called parallel multisplitting nonstationary iterative Model A was introduced by Bru, Elsner,...
AbstractWe establish some comparison theorems for parallel multisplitting AOR type iteration matrice...
PARALLEL IMPLEMENTATION OF AN ALTERNATING-TYPE ADI METHOD by Wan Chen, M.A. The University of Texas ...
AbstractThe alternating direction implicit (ADI) iterative method is an efficient iterative method t...
AbstractWe study the adoption of iterative methods for numerically solving linear systems of the for...
AbstractThis paper considers the convergence problem of parallel asynchronous block-iterative comput...
Abstract. The so-called parallel multisplitting nonstationary iterative Mo-del A was introduced by B...
In this paper, we investigate two parallel alternating methods for solving the system of linear equa...
AbstractWe present a class of relaxed parallel multisplitting algorithms, called the parallel multis...
Additive iterative methods of complete approximation for stationary problems of mathematical physics...
: Alternating direction iterative (ADI) methods do not usually work well on parallel computers due t...
In this review paper, we consider some important developments and trends in algorithm design for t...
AbstractThis paper is concerned with parallel alternating-type iterative methods for solving large s...
This paper is concerned with parallel alternating-type iterative methods for solving large sparse li...
We consider the problem of solving large sparse linear systems where the coefficient matrix is possi...
The so-called parallel multisplitting nonstationary iterative Model A was introduced by Bru, Elsner,...
AbstractWe establish some comparison theorems for parallel multisplitting AOR type iteration matrice...
PARALLEL IMPLEMENTATION OF AN ALTERNATING-TYPE ADI METHOD by Wan Chen, M.A. The University of Texas ...
AbstractThe alternating direction implicit (ADI) iterative method is an efficient iterative method t...
AbstractWe study the adoption of iterative methods for numerically solving linear systems of the for...
AbstractThis paper considers the convergence problem of parallel asynchronous block-iterative comput...
Abstract. The so-called parallel multisplitting nonstationary iterative Mo-del A was introduced by B...
In this paper, we investigate two parallel alternating methods for solving the system of linear equa...
AbstractWe present a class of relaxed parallel multisplitting algorithms, called the parallel multis...
Additive iterative methods of complete approximation for stationary problems of mathematical physics...
: Alternating direction iterative (ADI) methods do not usually work well on parallel computers due t...
In this review paper, we consider some important developments and trends in algorithm design for t...