Resistance calculation from mask artwork data by finite element method

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Resistance calculation from mask artwork data by finite element method

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Annual ACM IEEE Design Automation Conference archive
Proceedings of the 22nd ACM/IEEE Design Automation Conference table of contents

Las Vegas, Nevada, United States

Pages: 305 - 311

Year of Publication: 1985

ISBN:0-8186-0635-5

Author

Erich Barke

Department of Electrical Engineering, University of Hannover, Germany FR and Siemens AG, Components Division, Balanstrasse 73, D-8000, Munich, Germany FR

Sponsor

SIGDA: ACM Special Interest Group on Design Automation

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): 6, Downloads (12 Months): 19, Citation Count: 4

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ABSTRACT

Traditional methods for resistance calculation suffer from some unfavourable features, that make them uncomfortable to use. Although requiring a lot of manual processing, they are rather inaccurate and often claim for severe artwork restrictions (e.g. orthogonal geometry)which conflict with the desire for most dense layouts. This paper describes a resistance calculation program called REX (Resistance Extractor), which is based on the well-known Finite Element Method (FEM). Highly felxible in use, it is able to process designed and parasitic resistors of any shape and material with adjustable precision. REX is part of the layout verification system ALAS, designed for mask artwork analysis of bipolar circuits.

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	Erich Barke, A layout verification system for analog bipolar integrated circuits, Proceedings of the 20th conference on Design automation, p.353-359, June 27-29, 1983, Miami Beach, Florida, United States
	2	Hall, R.M., s~stance Calculation for Thin Film Patterns", Thin Solid Films, Vol. ! (1967), pp. 277-295.
	3	Ozak~, T., Yoshida, J., Kosaka, M., "PANAMAP-I: A Mask Pattern Analysis Program for IC/LS~ - Centerline Extraction and Resistance Calculation - " Proc ISCAS 198o, pp loZo-lo26
	4	Yoshimura, H., Tansho, K., Ohwada, N., Nishide, T., "An Algorithm for Resistance Calculation from IC Mask Pattern information", Proc. ISCAS 1979, pp. 478-481.
	5	J. D. Bastian , M. Ellement , P. J. Fowler , C. E. Huang , L. P. McNamee, Symbolic Parasitic Extractor for Circuit Simulation (SPECS), Proceedings of the 20th conference on Design automation, p.346-352, June 27-29, 1983, Miami Beach, Florida, United States
	6	Horowitz, M., Dutton, R.W., "Resistance Extraction from Mask Layout Data", IEEE Trans. CAD, Vol. 2 (1983), pp. 145-15o.
	7	Green, H.E., "The Numerical Solution of Some Important Transmission-Line Problems", IEEE Trans. Microwave Theory Tech., Vol. ;3 (1965), pp. 676-692.
	8	Herskowitz, G.J., "Computer-Aided Integrated Circuit Design", Mc Graw Hill, New York 1968, ch. Io.
	9	Schneider, M,V., "Computation of Impedance and Attenuation of TEM-Lines by Finite Difference Methods", IEEE Trans. Microwave Theory Tech., Vol. 13 (1965), pp. 793-800.
	10	Okamura, Y., Muraishi, Y., Sato, T., Ikemoto, Y,, "LAS : Layout Pattern Analysis System with New Approach", Proc. ICCC 1982, pp. 3o8-311.
	11	Chawla, B.R., Gummel, H.K., "A Boundary Technique for Calculation of Distributed Resistance", IEEE Trans. Electron Devices, Vol 17 (197o), pp. 915-925.
	12	Sakkas, C.M., "Potential Distribution and Multi-Terminal DC Resistance Computation for LSI Technology~', IBM J. Res. Develop., Vol. 23 (1979), pp. 640-651.
	13	Mitsuhashi, T., ~amada, H., Yoshida, K., "An LSI Mask Artwork Verification System", Proc. ICCD 1983.
	14	Berger, H., "Modellbeschrelbung planarer ohmscher Metall-Halbleiterkontakte , PhD Thesis, RWTH Aachen, 197o.
	15	Murrmann, H., gidmann, D., "Messung des Uebergangswlderstandes zwlschen Me,all und Diffusionsschicht in Si-Planarelementen" Solid State Electronics, Vol. 12 (1969), pp. 879-886.
	16	Barke, E., "FERKEL : Technologleunabhaengiges direktivengesteuertes Frogrammsystem zur Entwurfsregelnpruefung integrlerter Schaltungen", To be published.

CITED BY 5

	Lorenz Ladage , Rainer Leupers, Resistance extraction using a routing algorithm, Proceedings of the 30th international conference on Design automation, p.38-42, June 14-18, 1993, Dallas, Texas, United States
	D. Stark , M. Horowitz, RED: resistance extraction for digital simulation, Proceedings of the 24th ACM/IEEE conference on Design automation, p.570-573, June 28-July 01, 1987, Miami Beach, Florida, United States
	Don Stark , Mark Horowitz, Analyzing CMOS power supply networks using Ariel, Proceedings of the 25th ACM/IEEE conference on Design automation, p.460-464, June 12-15, 1988, Atlantic City, New Jersey, United States
	Jerry P. Hwang, REX—a VLSI parasitic extraction tool for electromigration and signal analysis, Proceedings of the 28th conference on ACM/IEEE design automation, p.717-722, June 17-22, 1991, San Francisco, California, United States
	Syamantak Das , Shamik Sural , Amit Patra, Resistance estimation for lateral power arrays through accurate netlist generation, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, v.28 n.6, p.837-845, June 2009