Compact Distributed RLC Interconnect Models — Part II : Coupled Line Transient Expressions and Peak Crosstalk in Multilevel Networks

@inproceedings{Davis2000CompactDR,
  title={Compact Distributed RLC Interconnect Models — Part II : Coupled Line Transient Expressions and Peak Crosstalk in Multilevel Networks},
  author={Jeffrey A. Davis and James D. Meindl},
  year={2000}
}
Novel compact expressions that describe the transient response of high-speed resistance, inductance, and capacitance ( ) coupled interconnects are rigorously derived. These new distributed models reveal that peak crosstalk voltage is over 60% larger for 3 GHz high-speed interconnects than predicted by current distributed models. Simplified forms of the compact models enable physical insight and accurate estimation of peak crosstalk voltage between two and three distributed interconnects. 
Highly Cited
This paper has 106 citations. REVIEW CITATIONS

Citations

Publications citing this paper.
Showing 1-10 of 67 extracted citations

106 Citations

01020'01'04'08'12'16
Citations per Year
Semantic Scholar estimates that this publication has 106 citations based on the available data.

See our FAQ for additional information.

References

Publications referenced by this paper.
Showing 1-8 of 8 references

Assoc., “The National Technology Roadmap for Semiconductors,

  • Semiconduct. Ind
  • 1997
Highly Influential
4 Excerpts

On-chip interconnects—Giga hertz and beyond,

  • K. Lee
  • Proc. Int. Interconnect Technology Conf
  • 1998
Highly Influential
7 Excerpts

Closed-form expressions for interconnect delay, coupling, and crosstalk in VLSIs,”IEEE

  • T. Sakurai
  • Trans. Electron Devices ,
  • 1993
Highly Influential
7 Excerpts

Circuits

  • H. B. Bakoglu
  • Interconnections, and Packaging for VLSI. Reading…
  • 1999
2 Excerpts

Paul,Analysis of Multi-conductor Transmission Lines

  • C R.
  • 1994
1 Excerpt

Closed - form expressions for interconnect delay , coupling , and crosstalk in VLSIs

  • J. A. Davis, J. D. Meindl
  • IEEE Trans . Electron Devices
  • 1993

Similar Papers

Loading similar papers…