Index

algorithm

boundary refinement: 6.4.4 Boundary Refinement Algorithm
flow-line construction: 5.5.2 The Two-Dimensional Case
quadtree-based voronoi tessellation: 6.5.1 Quadtree-divide-and-conquer Voronoi Tessellation
segment-conforming re-gridding: 6.2.3 Problem Decomposition and

Alladin

Terminology, 2.1 Some Basic Considerations

application

application development

Application Development

application-framework

Presentation Level

architectural design

architecture

Athena widgets

binding

boundary refinement

6.4 Boundary Refinement

algorithm: 6.4.4 Boundary Refinement Algorithm
criterion: 6.4.2 Refinement Criterion

Boundary-boundary triangulation

Boundary-Boundary Triangulation

bucket quadtree

6.3.2 The Bucket Quadtree

CAESAR

CAFE

4.3.2 Running External Tools

callback

callback concept

3.2.4 The Callback Concept, Reusing the Callback

circuit simulation

compact model

2 The Application-Framework Architecture, 2.4.2 Design Principles

comprehensibility

2.4.2 Design Principles

conceptual integrity

constrained Delaunay triangulation

6.4 Boundary Refinement

convex hull

6.5.2 The Merge Step

data level

ToolApplication

data level integration

8.3.1 Base System Integration

DCEL

DDCEL

degeneracies

6.5 Triangulation

Delaunay graph

Delaunay triangulation

2.1 Some Basic Considerations

design methodology management

design principles

2.4.1 Bottom-Up Design

designers

device simulation

Dirichlet region

6.5.1 Quadtree-divide-and-conquer Voronoi Tessellation

divide-and-conquer

dividing chain

6.5.2 The Merge Step

doubly connected edge list

dual doubly connected edge list

EASE

edge

Electronic CAD

framework

Presentation Level

generalized coordinates

Generalized Coordinates

graph

graphical user interface

Task Level and

IDDE

incidence

2.3.2 Why Simulation is , 8.2 Application Integration and

integration effort

interconnect simulation

6.5.3 Alternative Methods

interpolating equation

6.6.2 Architecture

Intrinsics

3.3 The VISTA Widget

iterative triangulation

LISP

4.2 Architectural Design

manager

MASTER

MECCA

methodology

Terminology

methodology developer

Minimos

Motif

node

orthogonality

2.4.2 Design Principles

P& Workbench

parameter extraction

2.3.2 Why Simulation is , 2.3.2 Why Simulation is

PBFM

2.5.3 The Data Level

PED

3.3.1 The PIF Editor

physical modeling

PIF

Data Level Aspects

PIF editor

3.3 The VISTA Widget , 3.3.1 The PIF Editor

plug and play

2.3.3 The Application-Framework Idea

point tools

2.4.2 Design Principles, 8.1 Portability

portability

PREDITOR

presentation level

Task Level and

PRIDE

problem formulation

2.3.2 Why Simulation is

process parameters

7.3 Simulation

process simulation

process simulation sequence

7.3 Simulation

profile interchange format

Data Level Aspects

Promis

1.2 Existing TCAD Systems

PROPHET

PROSE

6.3.2 The Bucket Quadtree

quadtree

ray-casting

5.6 Volume Visualization

ray-tracing

5.7 Ray-Tracing Interface

re-use

2.3.2 Why Simulation is , 2.4.2 Design Principles

Sample

SATURN

SEWB

SIMPL-IPX

simplex

5.3.1 The Simplex Idea

simplex attribute

5.3.1 The Simplex Idea

software engineering

2.3.2 Why Simulation is

STORM

supporting edge

6.5.2 The Merge Step

Suprem-4

The Tool Abstraction , 4.3.3 Linking XLISP with

SVG library

5.8 The Simple Vector

SVG widget

3.3.2 The Simple Vector

TAC

task

task flow

task level

task level integration

Data Integration

TCAD

TCAD flow

1.2 Existing TCAD Systems

TCAD systems

Tcl

Task Level Aspects

Technology CAD

tedious and redundant work

Terminology, 2.1 Some Basic Considerations

terminology

Terminology

tool

tool abstraction concept

The Tool Abstraction , 4.3.3 Linking XLISP with

tool control

tool developer

tool developers

tool integration

4.2.3 Task Level Tool

tool integrator

tool integrators

6.6.1 Background and Problem

top-down design

2.4.1 Bottom-Up Design

Trigen

typography

Typography

UIDS

UIMS

UNISAS

VATS

virtual application

4.2.3 Task Level Tool

Vista

base system: 2.5.2 The Base System, 8.3 VORONOI - an
base system: 2.5.2 The Base System, 8.3 VORONOI - an
GRS: 6.6.2 Architecture
interpolation: 6.6.2 Architecture
introduction: 1.3 VISTA
source code size: 1.3 VISTA

visual programming

8.6.1 Visual Programming

visualization

data structures: 5.4.2 Data Structures
operations: 5.4 Implementation

Vlsicap

VMAKE

2.5.2 The Base System

volume

rendering: 5.6 Volume Visualization
visualization: 5.6 Volume Visualization

Voronoi

2.5.5 Generic Services

architecture: 6.2 Architectural Design
examples: 6.7.2 Test and Demonstration
implementation aspects: 6.7 Implementation Aspects
integration: 8.3 VORONOI - an
interpolation: 6.6 Interpolation
performance: 6.7.1 Performance
practical application: 7.3 Simulation
problem decomposition: 6.2.3 Problem Decomposition and
problem definition: 6.1.3 The Generalized Problem
tessellation: 6.2.2 The Delaunay Triangulation
triangulation: 6.5 Triangulation

VVF

5.4.2 Data Structures

structure: 5.4.2 Data Structures

wafer state

2.5.5 Generic Services

widget

Application Integration and

widget set

3.3 The VISTA Widget

wrapper approach

X Toolkit

3.2.1 General Remarks, 3.3 The VISTA Widget

Xlib