AbstractFor the large-scale system of linear equations with symmetric positive definite block coefficient matrix resulting from the discretization of a self-adjoint elliptic boundary-value problem, by making use of the blocked multilevel iteration idea, we construct preconditioning matrices for the coefficient matrix and set up a class of parallel hybrid algebraic multilevel iterative methods for solving this kind of system of linear equations. Theoretical analysis shows that not only do these new methods lend themselves to parallel computation, but also their convergence rates are independent of both the sizes and the level numbers of the grids, and their computational work loads are also bounded by linear functions of the step sizes of th...
AbstractA method to construct preconditioners to a symmetric, positive definite matrix based on part...
AbstractNovel parallel algorithms for the solution of large FEM linear systems arising from second o...
International audienceIn this paper we present a multilevel preconditioner based on overlapping Schw...
AbstractFor the large-scale system of linear equations with symmetric positive definite block coeffi...
AbstractFor large-scale system of linear equations with symmetric positive definite block coefficien...
AbstractA class of new hybrid algebraic multilevel preconditioning methods is presented for solving ...
AbstractTo solve a sparse linear system of equations resulting from the finite element approximation...
In this paper, we consider a new form of the arithmetic mean method for solving large block tridiago...
AbstractIn this paper, we consider a new form of the arithmetic mean method for solving large block ...
In this paper, we consider a new form of the arithmetic mean method for solving large block tridiago...
Abstract. We study the parallelization of some aspects of algebraic multilevel preconditioners for s...
AbstractLinear systems of the form Ax = b, where the matrix A is symmetric and positive definite, of...
The recent development of the high performance computer platforms shows a clear trend towards hetero...
A novel parallel preconditioner for symmetric positive definite matrices is developed coupling a gen...
AbstractAlgebraic multilevel iterations methods are preconditioning algorithms, to solve elliptic ty...
AbstractA method to construct preconditioners to a symmetric, positive definite matrix based on part...
AbstractNovel parallel algorithms for the solution of large FEM linear systems arising from second o...
International audienceIn this paper we present a multilevel preconditioner based on overlapping Schw...
AbstractFor the large-scale system of linear equations with symmetric positive definite block coeffi...
AbstractFor large-scale system of linear equations with symmetric positive definite block coefficien...
AbstractA class of new hybrid algebraic multilevel preconditioning methods is presented for solving ...
AbstractTo solve a sparse linear system of equations resulting from the finite element approximation...
In this paper, we consider a new form of the arithmetic mean method for solving large block tridiago...
AbstractIn this paper, we consider a new form of the arithmetic mean method for solving large block ...
In this paper, we consider a new form of the arithmetic mean method for solving large block tridiago...
Abstract. We study the parallelization of some aspects of algebraic multilevel preconditioners for s...
AbstractLinear systems of the form Ax = b, where the matrix A is symmetric and positive definite, of...
The recent development of the high performance computer platforms shows a clear trend towards hetero...
A novel parallel preconditioner for symmetric positive definite matrices is developed coupling a gen...
AbstractAlgebraic multilevel iterations methods are preconditioning algorithms, to solve elliptic ty...
AbstractA method to construct preconditioners to a symmetric, positive definite matrix based on part...
AbstractNovel parallel algorithms for the solution of large FEM linear systems arising from second o...
International audienceIn this paper we present a multilevel preconditioner based on overlapping Schw...