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Advanced Model Order Reduction Techniques in VLSI Design

✍ Scribed by Tan, Sheldon X.-D.; He, Lei

Publisher
Cambridge University Press
Year
2007
Tongue
English
Leaves
260
Category
Library
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✦ Synopsis

Model order reduction (MOR) techniques reduce the complexity of VLSI designs, paving the way to higher operating speeds and smaller feature sizes. This book presents a systematic introduction to, and treatment of, the key MOR methods employed in general linear circuits, using real-world examples to illustrate the advantages and disadvantages of each algorithm. Following a review of traditional projection-based techniques, coverage progresses to advanced 'state-of-the-art' MOR methods for VLSI design, including HMOR, passive truncated balanced realization (TBR) methods, efficient inductance modeling via the VPEC model, and structure-preserving MOR techniques. Where possible, numerical methods are approached from the CAD engineer's perspective, avoiding complex mathematics and allowing the reader to take on real design problems and develop more effective tools. With practical examples and over 100 illustrations, this book is suitable for researchers and graduate students of electrical and computer engineering, as well as practitioners working in the VLSI design industry.

✦ Table of Contents


Content:
Front Matter
• List of Figures
• List of Tables
• Table of Contents
1. Introduction
2. Projection-Based Model Order Reduction Algorithms
3. Truncated Balanced Realization Methods for MOR
4. Passive Balanced Truncation of Linear Systems in Descriptor Form
5. Passive Hierarchical Model Order Reduction
6. Terminal Reduction of Linear Dynamic Circuits
7. Vector-Potential Equivalent Circuit for Inductance Modeling
8. Structure-Preserving Model Order Reduction
9. Block Structure-Preserving Reduction for RLCK Circuits
10. Model Optimization and Passivity Enforcement
11. General Multi-Port Circuit Realization
12. Reduction for Multi-Terminal Interconnect Circuits
13. Passive Modeling by Signal Waveform Shaping
• References
Index

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