An efficient methodology for extraction and simulation of transmission lines for application specific electronic modules

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An efficient methodology for extraction and simulation of transmission lines for application specific electronic modules

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International Conference on Computer Aided Design archive
Proceedings of the 1993 IEEE/ACM international conference on Computer-aided design table of contents

Santa Clara, California, United States

Pages: 58 - 65

Year of Publication: 1993

ISBN:0-8186-4490-7

Authors

S. Y. Kim	Department of Electrical & Computer Engineering, The University of Texas at Austin, Austin, Texas
E. Tuncer	Department of Electrical & Computer Engineering, The University of Texas at Austin, Austin, Texas
R. Gupta	Department of Electrical & Computer Engineering, The University of Texas at Austin, Austin, Texas
B. Krauter	Department of Electrical & Computer Engineering, The University of Texas at Austin, Austin, Texas
T. Savarino	Department of Electrical & Computer Engineering, The University of Texas at Austin, Austin, Texas
D. P. Neikirk	Department of Electrical & Computer Engineering, The University of Texas at Austin, Austin, Texas
L. T. Pillage	Department of Electrical & Computer Engineering, The University of Texas at Austin, Austin, Texas

Sponsors

IEEE-CS : Computer Society
SIGDA: ACM Special Interest Group on Design Automation

Publisher

IEEE Computer Society Press Los Alamitos, CA, USA

Bibliometrics

Downloads (6 Weeks): 4, Downloads (12 Months): 14, Citation Count: 1

Additional Information:

references cited by collaborative colleagues

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REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	U. Choudhury and A. Sangiovanni-Vincentelli. An analytical-model generator for interconnect capacitances. In Proc. Custom Integ. Ckt. Conf., May 1991.
	2	Seok-Yoon Kim , Nanda Gopal , Lawrence T. Pillage, AWE macromodels of VLSI interconnect for circuit simulation, Proceedings of the 1992 IEEE/ACM international conference on Computer-aided design, p.64-70, November 1992, Santa Clara, California, United States
	3	Tai-Yu Chou , Jay Cosentino , Zoltan J. Cendes, High-speed interconnect modeling and high-accuracy simulation using SPICE and finite element methods, Proceedings of the 30th international conference on Design automation, p.684-690, June 14-18, 1993, Dallas, Texas, United States [doi>10.1145/157485.165091]
	4	M. S. Islam, E. Tuncer, and D. P. Neikirk. Accurate quasi-static model for conductor loss in coplanar waveguide. In IEEE MTT-S Iut'l. Microwave Syrup., Jun. 1993.
	5	H. A. Wheeler. Transmission line properties of parallel strips by conformal mapping approximation. IEEE Trans. Microwave Tit. Tech., 12, May 1964.
	6	E. Tuncer and D. P. Neikirk. Highly accurate quasi-static modeling of microstrip lines over lossy substrates. IEEE M~.crowave and Guided Wave Letters, 2(10), Oct. 1992.
	7	Curtis L. Ratzlaff , Nanda Gopal , Lawrence T. Pillage, RICE: Rapid interconnect circuit evaluator, Proceedings of the 28th conference on ACM/IEEE design automation, p.555-560, June 17-22, 1991, San Francisco, California, United States [doi>10.1145/127601.127732]
	8	J. S. Roychowdhury, A. R. Newton, and D. O. Pederson. An impulse-response based linear timecomplexity algorithm for lossy interconnect simulation. In Proc. IEEE Int'l. Conf. Computer- Aided Des., Nov. 1991.
	9	J. E. Schutt-Aine and l:L. Mittra. Nonlinear transient analysis of coupled transmission lines. IEEE Trans. Ckt. Sys., 36(7), Jul. 1989.
	10	T. Dhaene and D. D. Zutter. Selection of lumped element models for coupled lossy transmission lines. IEEE Trans. Comp. Aided Design, 11, Jul. 1992.
	11	N. Gopal. Fast Evaluation of VLSI Interconnect Structures Using Moment-Matching Me~hods. PhD thesis, Univ. of Texas at Austin, Dec. 1992.
	12	J. E. Bracken , V. Raghavan , R. A. Rohrer, Extension of the asymptotic waveform evaluation technique with the method of characteristics, Proceedings of the 1992 IEEE/ACM international conference on Computer-aided design, p.71-75, November 1992, Santa Clara, California, United States
	13	D. H. Xie and M. Nakhla. Delay and crosstalk simulation of high-speed VLSI interconnects with nonlinear terminations. In Proc. IEEE Int'l. Conf. Computer-Aided Des., Nov. 1991.
	14	F. H. Branin, Jr. Transient analysis of lossless transmission lines. Proc. IEEE (Left.), 55, Nov. 1967.
	15	S. Y. Kim, N. Gopal, and L. T. Pillage. Finitepole macromodels of transmission lines for circuit simulation. In Proc. Custom integ. Ckt. Conf., May 1993.
	16	Seok-Yoon Kim, Time-domain macromodels of VLSI system interconnects, University of Texas at Austin, Austin, TX, 1993
	17	M. S. Ghausi and J. J. Kelly. Introduction to Distributed-Parameter Networks. R. E. Krieger Pub. Co., 1968.
	18	V. Dvorak. Computer simulation of signal propagation through a nonuniform transmission line. IEEE Trans. Ckt. Tit., 9, Sep. 1973.
	19	Carol V. Gura , Jacob A. Abraham, Improved methods of simulating RLC couple and uncoupled transmission lines based on the method of characteristics, Proceedings of the 25th ACM/IEEE conference on Design automation, p.300-305, June 12-15, 1988, Atlantic City, New Jersey, United States
	20	F-Y Chang. The generalized method of characteristics for waveform relaxation analysis of lossy coupled transmission lines. IEEE Trans. Microwave Th. Tech., 37(12), Dec. 1989.
	21	D. S. Gao, A. T. Yang, and S. M. Kang. Modeling simulation of interconnection dielays and crosstalks in high-speed integrated circuits. IEEE Trans. Ckt. Sys., 37(1), Jan. 1990.
	22	F-Y Chang. Transient simulation of nonuniform coupled lossy transmission lines characterized with frequency-dependent parameters- part 1: Waveform relaxation analysis. IEEE Trans. Ck~. Sys.-L 39(8), Aug. 1992.

CITED BY

Bernie Sheehan, An AWE technique for fast printed circuit board delays, Proceedings of the 33rd annual conference on Design automation, p.539-543, June 03-07, 1996, Las Vegas, Nevada, United States

Collaborative Colleagues:

S. Y. Kim: colleagues

E. Tuncer: colleagues

R. Gupta: colleagues

B. Krauter: colleagues

T. Savarino: colleagues

D. P. Neikirk: colleagues

L. T. Pillage: colleagues

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