Efficient model order reduction including skin effect

Proceedings - Design Automation Conference

Volumn , Issue , 2003, Pages 232-237

  Mei, Shizhong ^a   Amin, Chirayu ^a   Ismail, Yehea I ^a  

^a Northwestern University   (United States)

Author keywords

Model order reduction; RLC; Simulation; Skin effect; VLSI

Indexed keywords

ELECTRIC POWER SYSTEM INTERCONNECTION; ELECTRIC RESISTANCE; INDUCTANCE; SKIN EFFECT; VLSI CIRCUITS;

INTERCONNECT RESISTANCE;

DIGITAL SIGNAL PROCESSING;

EID: 0042134902     PISSN: 0738100X     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1145/775889.775892     Document Type: Conference Paper

References (15)

1. D. A. Priore, "Inductance on silicon for sub-micron CMOS VLSI," in Proc. IEEE symp. VLSI circuits, May 1993, pp. 17-18.
2. "FD-TD modeling of digital signal propagation in 3-D circuits with passive and active loads," IEEE Trans. Microwave Theory Tech., vol. 42, pp. 1514-1523, Aug. 1994.M. P. May, A. Taflove, and J. Baron.
3. C.-S. Yen, Z. Fazarinc, and R. L. Wheeler, "Time-domain skin-effect model for transient analysis of lossy transmission lines," Proceedings of the IEEE, vol. 70, pp. 750-757, 1982.
4. T. V. Dinh, B. Cabon, and J. Chilo, "New skin-effect equivalent circuit," Electronic Letters, vol. 26, pp. 1582-1584, 1990.
5. A. R. Djordevic, T. K. Sarkar, "Closed-from formulas for frequency dependent resistance and inductance per unit length of microstrip and strip transmission lines," IEEE Transactions on Microwave Theory and Techniques, Vol. 42, pp. 241-248.
6. s," IEEE Transactions on Circuit Theory, Vol. 19, pp. 443-451, 1972.
7. L. C. Calvey and J. L. Bihan, "Coefficient algorithm for time-domain response of skin effect lossy coaxial cables with arbitrary resistive terminations," IEEE Trans. on Circuit and Systems, vol. 9, pp. 915-920, Sept. 1986.
8. E. Bogatin, M. Resso, S.Corey, "Practical characterization and analysis of lossy transmission lines," DesignCon 2001, Santa Clare, CA, Jan. 2001.
9. L. T. Pillage, R. A. Rohrer, "Asymptotic waveform evaluation for timing analysis," IEEE Trans. Computer-Aided Design, vol. 9, pp. 352-366, Apr. 1990.
10. W. C. Elmore, "The transient response of damped linear networks with particular regard to wideband amplifier," J. Appl. Phys., Vol. 19, pp. 55-63, 1948.
11. J. L. Wyatt, Circuit analysis, simulation and design. North-Holland, The Netherlands: Elsevier Science, 1987.
12. Y. I. Ismail, E. G. Friedman, and J. L. Neves, "Equivalent elmore delay for RLC trees," IEEE Transactions on Computer Aided Design of Integrated Circuits and Systems, Vol. 19, pp. 83-97, 2000.
13. S. Ramo, J. R. Whinnery, and T. V. Duzer, Fields and waves in communication electronics, New York: John Wiley & Sons, 1994.
14. L. T. Pillage, R. A. Rohrer, and C. Visweswariah, Electronic circuit and system simulation methods, McGraw-Hill, 1995.
15. P. Feldmann and R.W.Freund, "Efficient linear circuit analysis by Padé approximation via the Lanczos process," IEEE Trans. Computer-Aided Design, vol. 14, pp. 639-649, May 1995.