| Introduction
|
- How the Workplace Supports Successful Design
- Introduction to Modeling Concepts
|
| Generating Models |
- Model Properties Derived from Device Physics Theory
- Measuring Model Properties in the Laboratory
- Using Statistical Data to Characterize Component Populations
|
| Selecting Components
and Their Models |
- Using Selection Guides to Compare and Contrast Components
- Using Data Sheets to Compare and Contrast Components
- Selecting the Best Model for a Simulation
- Modeling and Simulation in the Design Process Flow
|
| About the IBIS Model |
- Key Concepts of the IBIS Specification
- Using IBIS Models in What-If Simulations
- Fixing Errors and Omissions in IBIS Models
- Using EDA Tools to Create and Validate IBIS Models from SPICE
|
| Managing Models. |
- Sources of IBIS Models
- Working with the Model Library
|
| Model Accuracy and
Verification |
- Methodology for Verifying Models
- Verifying Model Accuracy by Using Laboratory Measurements
- Balancing Accuracy Against Practicality When Correlating Simulation Results
- Deriving an Equation-Based Model From a Macromodel
|
| Future Directions in
Modeling |
- The Challenge to IBIS
- Feedback to the Model Provider Improves Model Accuracy
- Future Trends in Modeling
- Using Probability: The Ultimate Future of Simulation
|
| Glossary,
Bibliography, Index |
- Glossary
- Bibliography
- Index
|
| CD-ROM |
- Mentor Graphics Software: Visual IBIS Editor
- Sonnet
Software: Sonnet Lite
- Appendix A. Sample Data Sheets
- Appendix B. Sample IBIS Model Files
- Appendix C. Sample SPICE Models
- Appendix D. Sample S-Parameter Model
- Appendix E. Key Concepts of the IBIS Model
- Appendix F: List of
Websites
- Appendix G. List of Software Providers
- Appendix H. Production Realities
- Appendix I. IBIS Quality Checklist
- Appendix J. Device Physics
- Appendix K. Logic Selection Guides
- Appendix L. Training Presentations
|
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