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Digital Timing Macromodeling for VLSI Design Verification

  • Book
  • © 1995

Overview

Authors:
  1. Jeong-Taek Kong

    1. Samsung Electronics Co., Ltd., Korea

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  2. David Overhauser

    1. Duke University, USA

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    You can also search for this author in PubMed   Google Scholar

Part of the book series: The Springer International Series in Engineering and Computer Science (SECS, volume 319)

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Table of contents (7 chapters)

  1. Front Matter

    Pages i-xxi
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  2. Introduction

    • Jeong-Taek Kong, David Overhauser
    Pages 1-13

  3. Survey of Simulation and Macromodeling Techniques

    • Jeong-Taek Kong, David Overhauser
    Pages 15-92

  4. A Nonlinear Macromodel

    • Jeong-Taek Kong, David Overhauser
    Pages 93-123

  5. Reduction Techniques for Complex Gates

    • Jeong-Taek Kong, David Overhauser
    Pages 125-169

  6. Accounting for RC-Interconnects

    • Jeong-Taek Kong, David Overhauser
    Pages 171-190

  7. Transmission Gate Modeling

    • Jeong-Taek Kong, David Overhauser
    Pages 191-198

  8. Conclusions

    • Jeong-Taek Kong, David Overhauser
    Pages 199-203

  9. Back Matter

    Pages 205-265
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Keywords

About this book

Digital Timing Macromodeling for VLSI Design Verification first of all provides an extensive history of the development of simulation techniques. It presents detailed discussion of the various techniques implemented in circuit, timing, fast-timing, switch-level timing, switch-level, and gate-level simulation. It also discusses mixed-mode simulation and interconnection analysis methods. The review in Chapter 2 gives an understanding of the advantages and disadvantages of the many techniques applied in modern digital macromodels.
The book also presents a wide variety of techniques for performing nonlinear macromodeling of digital MOS subcircuits which address a large number of shortcomings in existing digital MOS macromodels. Specifically, the techniques address the device model detail, transistor coupling capacitance, effective channel length modulation, series transistor reduction, effective transconductance, input terminal dependence, gate parasitic capacitance, the body effect, the impact of parasitic RC-interconnects, and the effect of transmission gates. The techniques address major sources of errors in existing macromodeling techniques, which must be addressed if macromodeling is to be accepted in commercial CAD tools by chip designers. The techniques presented in Chapters 4-6 can be implemented in other macromodels, and are demonstrated using the macromodel presented in Chapter 3. The new techniques are validated over an extremely wide range of operating conditions: much wider than has been presented for previous macromodels, thus demonstrating the wide range of applicability of these techniques.

Authors and Affiliations

  • Samsung Electronics Co., Ltd., Korea

    Jeong-Taek Kong

  • Duke University, USA

    David Overhauser

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