Substrate Noise

Analysis and Optimization for IC Design

  • Edoardo Charbon
  • Ranjit Gharpurey
  • Paolo Miliozzi
  • Robert G. Meyer
  • Alberto Sangiovanni-Vincentelli

Table of contents

  1. Front Matter
    Pages i-xix
  2. Pages 1-9
  3. Pages 33-45
  4. Pages 47-60
  5. Pages 135-135
  6. Back Matter
    Pages 137-171

About this book


In the past decade, substrate noise has had a constant and significant impact on the design of analog and mixed-signal integrated circuits. Only recently, with advances in chip miniaturization and innovative circuit design, has substrate noise begun to plague fully digital circuits as well. To combat the effects of substrate noise, heavily over-designed structures are generally adopted, thus seriously limiting the advantages of innovative technologies.
Substrate Noise: Analysis and Optimization for IC Design addresses the main problems posed by substrate noise from both an IC and a CAD designer perspective. The effects of substrate noise on performance in digital, analog, and mixed-signal circuits are presented, along with the mechanisms underlying noise generation, injection, and transport. Popular solutions to the substrate noise problem and the trade-offs often debated by designers are extensively discussed. Non-traditional approaches as well as semi-automated techniques to combat substrate noise are also addressed.
Substrate Noise: Analysis and Optimization for IC Design will be of interest to researchers and professionals interested in signal integrity, as well as to mixed signal and RF designers.


CAD circuit design computer-aided design (CAD) integrated circuit modeling optimization simulation tables

Authors and affiliations

  • Edoardo Charbon
    • 1
  • Ranjit Gharpurey
    • 2
  • Paolo Miliozzi
    • 3
  • Robert G. Meyer
    • 4
  • Alberto Sangiovanni-Vincentelli
    • 5
  1. 1.University of CaliforniaBerkeley
  2. 2.Texas InstrumentsDallas
  3. 3.Conexant SystemsNewport Beach
  4. 4.University of CaliforniaBerkeley
  5. 5.University of CaliforniaBerkeley

Bibliographic information