This paper describes a three--dimensional simulator for semiconductor devices in stationary state developed on a message passing multiprocessor. A Gummel style nonlinear iteration was used, and the Poisson and the continuity equations were discretized using the finite element method. A new iterative scheme was introduced in order to solve the non--linear Poisson equation. The nonsymmetric continuity equations were solved using a Conjugate Gradient type method, the Bi--CGSTAB. We carried out the parallelization of these approaches and their mapping onto a multiprocessor system. We introduce a new method for the distribution of the finite element sparse matrices over the multiprocessor. This method leads to highly efficient algorithms, becaus...
view, opinions and/or findings contained in this report are those of the author(s) and should not be...
In this thesis a mathematical model was derived that describes the charge and energy transport in se...
Partially supported by CNR Sp. Proj. on Informatic systems and Parallel comput. and CNR contr. 88.00...
Eere we report on the development of a new parallel, scalable and portable 3D f ~ t e element power ...
81 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1984.A finite difference approximat...
Using 3D device solver STRIDE, large-scale 3D simulations of semiconductor devices have been success...
AbstractIn this paper, a class of nonstandard finite element methods, which we call projection finit...
AbstractThis paper studies a multigrid method for the solution of the semiconductor device simulatio...
The paper presents a study of efficiency of several algorithms for finding the solution of the three...
62 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1983.In this thesis we present seve...
In this paper, a hybrid solution method is implemented for solving the semiconductor transport equat...
This paper discusses various aspects of the parallel simulation of semiconductor devices on mesh con...
The Poisson equation is solved in a rectangular prism of semiconductor with the boundary conditions ...
Modeling of semiconductor devices leads to a nonlinear singular perturbed system of partial differen...
This paper discusses the implementation of one-factor and three-factor PDE models on GPUs. Both expl...
view, opinions and/or findings contained in this report are those of the author(s) and should not be...
In this thesis a mathematical model was derived that describes the charge and energy transport in se...
Partially supported by CNR Sp. Proj. on Informatic systems and Parallel comput. and CNR contr. 88.00...
Eere we report on the development of a new parallel, scalable and portable 3D f ~ t e element power ...
81 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1984.A finite difference approximat...
Using 3D device solver STRIDE, large-scale 3D simulations of semiconductor devices have been success...
AbstractIn this paper, a class of nonstandard finite element methods, which we call projection finit...
AbstractThis paper studies a multigrid method for the solution of the semiconductor device simulatio...
The paper presents a study of efficiency of several algorithms for finding the solution of the three...
62 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1983.In this thesis we present seve...
In this paper, a hybrid solution method is implemented for solving the semiconductor transport equat...
This paper discusses various aspects of the parallel simulation of semiconductor devices on mesh con...
The Poisson equation is solved in a rectangular prism of semiconductor with the boundary conditions ...
Modeling of semiconductor devices leads to a nonlinear singular perturbed system of partial differen...
This paper discusses the implementation of one-factor and three-factor PDE models on GPUs. Both expl...
view, opinions and/or findings contained in this report are those of the author(s) and should not be...
In this thesis a mathematical model was derived that describes the charge and energy transport in se...
Partially supported by CNR Sp. Proj. on Informatic systems and Parallel comput. and CNR contr. 88.00...