The Los Alamos 3D grid toolbox handles grid maintenance chores and provides access to a sophisticated set of optimization algorithms for unstructured grids. The application of these tools to semiconductor problems is illustrated in three examples: grain growth, topographic deposition and electrostatics. These examples demonstrate adaptive smoothing, front tracking, and automatic, adaptive refinement/derefinement
Numerical solution schemes based on adaptive grid redistribution and iterative techniques are invest...
AbstractWe consider the use of adaptive mesh strategies for solution of problems exhibiting boundary...
Modeling of semiconductor devices leads to a nonlinear singular perturbed system of partial differen...
The Los Alamos 3D grid toolbox handles grid maintenance chores and provides access to a sophisticate...
To correctly capture the behavior of deforming material volumes in 3-D, the Los Alamos unstructured ...
Computable 3D grids that accurately represent complex multimaterial geometries are essential for bot...
Abstract An application of grid generation to process and device simulation of semiconductors is pre...
We present a new algorithm for the generation of 3-dimensional (3-D) grids for the simulation of sem...
The next generation of semiconductor process and device modeling codes will require 3-D mesh capabil...
In t eg ra t ed Sys tems L a b, E T H Zurich, Swi tzer land The concepts of an automatic 3d grid gen...
In this paper we describe an adaptive meshing technique which is specifically aimed at accurately so...
A 2D numerical grid generation program suitable for device and process simulation is presented. The ...
This book is an introduction to structured and unstructured grid methods in scientific computing, ad...
this paper. The semiconductor manufacturing industry has various codes for studying the two dimensio...
This paper describes how grid systems can be used in the semiconductor manufacturing to solve comput...
Numerical solution schemes based on adaptive grid redistribution and iterative techniques are invest...
AbstractWe consider the use of adaptive mesh strategies for solution of problems exhibiting boundary...
Modeling of semiconductor devices leads to a nonlinear singular perturbed system of partial differen...
The Los Alamos 3D grid toolbox handles grid maintenance chores and provides access to a sophisticate...
To correctly capture the behavior of deforming material volumes in 3-D, the Los Alamos unstructured ...
Computable 3D grids that accurately represent complex multimaterial geometries are essential for bot...
Abstract An application of grid generation to process and device simulation of semiconductors is pre...
We present a new algorithm for the generation of 3-dimensional (3-D) grids for the simulation of sem...
The next generation of semiconductor process and device modeling codes will require 3-D mesh capabil...
In t eg ra t ed Sys tems L a b, E T H Zurich, Swi tzer land The concepts of an automatic 3d grid gen...
In this paper we describe an adaptive meshing technique which is specifically aimed at accurately so...
A 2D numerical grid generation program suitable for device and process simulation is presented. The ...
This book is an introduction to structured and unstructured grid methods in scientific computing, ad...
this paper. The semiconductor manufacturing industry has various codes for studying the two dimensio...
This paper describes how grid systems can be used in the semiconductor manufacturing to solve comput...
Numerical solution schemes based on adaptive grid redistribution and iterative techniques are invest...
AbstractWe consider the use of adaptive mesh strategies for solution of problems exhibiting boundary...
Modeling of semiconductor devices leads to a nonlinear singular perturbed system of partial differen...