This paper presents a parallel multigrid algorithm for solving semiconductor device equations in twodimensions and its implementation on a MIMD parallel machine with distributed memory. The numerical experiments of a GaAs MESFET device simulation demonstrate the combined high efficiency of the domain decomposition method and the multigrid method. The parallel multigrid method using 16 processors is up to 60 times faster dian a single-grid iterative solver using a processor. I
This paper presents a parallel Multigrid solver for the computation of steady compressible inviscid ...
view, opinions and/or findings contained in this report are those of the author(s) and should not be...
Abstract: Making multigrid algorithms run efficiently on large parallel computers is a challenge. Wi...
This paper discusses various aspects of the parallel simulation of semiconductor devices on mesh con...
The multigrid algorithm is a fast and efficient (in fact provably optimal) method for solving a wide...
Modeling of semiconductor devices leads to a nonlinear singular perturbed system of partial differen...
A parallel multigrid method for the resolution of elliptic partial differential equations has been i...
AbstractThis paper studies a multigrid method for the solution of the semiconductor device simulatio...
This paper presents a multigrid approach using adaptive local refinements for the two-dimensional si...
Using 3D device solver STRIDE, large-scale 3D simulations of semiconductor devices have been success...
The halfsweep multigrid algorithm, introduced by Othman et al in 1998 for solving a linear system, i...
Abstract. Algebraic multigrid methods for large, sparse linear systems are a necessity in many compu...
The multigrid method has been shown to be the most effective general method for solving the multi-di...
In the paper, the parallelization of multi-grid methods for solving second-order elliptic boundary v...
This paper describes a numerical technique used for 2D device simulation. It is demonstrated that th...
This paper presents a parallel Multigrid solver for the computation of steady compressible inviscid ...
view, opinions and/or findings contained in this report are those of the author(s) and should not be...
Abstract: Making multigrid algorithms run efficiently on large parallel computers is a challenge. Wi...
This paper discusses various aspects of the parallel simulation of semiconductor devices on mesh con...
The multigrid algorithm is a fast and efficient (in fact provably optimal) method for solving a wide...
Modeling of semiconductor devices leads to a nonlinear singular perturbed system of partial differen...
A parallel multigrid method for the resolution of elliptic partial differential equations has been i...
AbstractThis paper studies a multigrid method for the solution of the semiconductor device simulatio...
This paper presents a multigrid approach using adaptive local refinements for the two-dimensional si...
Using 3D device solver STRIDE, large-scale 3D simulations of semiconductor devices have been success...
The halfsweep multigrid algorithm, introduced by Othman et al in 1998 for solving a linear system, i...
Abstract. Algebraic multigrid methods for large, sparse linear systems are a necessity in many compu...
The multigrid method has been shown to be the most effective general method for solving the multi-di...
In the paper, the parallelization of multi-grid methods for solving second-order elliptic boundary v...
This paper describes a numerical technique used for 2D device simulation. It is demonstrated that th...
This paper presents a parallel Multigrid solver for the computation of steady compressible inviscid ...
view, opinions and/or findings contained in this report are those of the author(s) and should not be...
Abstract: Making multigrid algorithms run efficiently on large parallel computers is a challenge. Wi...