AbstractA class of parallel decomposition-type accelerated over-relaxation methods, including four arbitrary parameters and suitable to the SIMD-systems, is established for solving the large sparse systems of linear equations in this paper, and sufficient conditions ensuring its convergence are deduced when the coefficient matrices of the linear systems of equations are respectively L-matrices, H-matrices and positive definite matrices. In particular, we investigate in detail the symmetric versions of these new methods, and deduce a series of conveniently applicable conditions for determining the convergence of hese versions when the coefficient matrices of the linear systems of equations are symmetric positive definite matrices
AbstractAn algorithm is presented for the general solution of a set of linear equations Ax=b. The me...
Paper at the Parallel Computing Conf. Verona (IT) Sep 1988Available from British Library Document Su...
The paper deals with parallel approach for the numerical solution of large, sparse, non-symmetric sy...
AbstractA class of parallel decomposition-type accelerated over-relaxation methods, including four a...
In this paper we investigate theoretically and numerically the new preconditioned method to accelera...
AbstractFor the linear complementarity problem, we set up a class of parallel matrix multisplitting ...
AbstractWe present a class of relaxed parallel multisplitting algorithms, called the parallel multis...
In this paper we consider thearithmetic mean method for solving large sparse systems of linear equat...
AbstractIn this paper we consider thearithmetic mean method for solving large sparse systems of line...
In this paper we consider the arithmetic mean method for solving large sparse systems of linear equa...
We present an overview of parallel direct methods for solving sparse systems of linear equations, fo...
AbstractThis paper describes and analyzes a simple technique that accelerates the convergence of ite...
AbstractWe set up a class of parallel nonlinear AOR method in the sense of matrix multi-splitting fo...
In this review paper, we consider some important developments and trends in algorithm design for t...
In this thesis we are concerned with iterative parallel algorithms for solving finite difference eq...
AbstractAn algorithm is presented for the general solution of a set of linear equations Ax=b. The me...
Paper at the Parallel Computing Conf. Verona (IT) Sep 1988Available from British Library Document Su...
The paper deals with parallel approach for the numerical solution of large, sparse, non-symmetric sy...
AbstractA class of parallel decomposition-type accelerated over-relaxation methods, including four a...
In this paper we investigate theoretically and numerically the new preconditioned method to accelera...
AbstractFor the linear complementarity problem, we set up a class of parallel matrix multisplitting ...
AbstractWe present a class of relaxed parallel multisplitting algorithms, called the parallel multis...
In this paper we consider thearithmetic mean method for solving large sparse systems of linear equat...
AbstractIn this paper we consider thearithmetic mean method for solving large sparse systems of line...
In this paper we consider the arithmetic mean method for solving large sparse systems of linear equa...
We present an overview of parallel direct methods for solving sparse systems of linear equations, fo...
AbstractThis paper describes and analyzes a simple technique that accelerates the convergence of ite...
AbstractWe set up a class of parallel nonlinear AOR method in the sense of matrix multi-splitting fo...
In this review paper, we consider some important developments and trends in algorithm design for t...
In this thesis we are concerned with iterative parallel algorithms for solving finite difference eq...
AbstractAn algorithm is presented for the general solution of a set of linear equations Ax=b. The me...
Paper at the Parallel Computing Conf. Verona (IT) Sep 1988Available from British Library Document Su...
The paper deals with parallel approach for the numerical solution of large, sparse, non-symmetric sy...