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Multimode scan: Test per clock BIST for IP cores

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ACM Transactions on Design Automation of Electronic Systems (TODAES) archive
Volume 8 , Issue 4 (October 2003) table of contents

Pages: 491 - 505

Year of Publication: 2003

ISSN:1084-4309

Authors

Adit D. Singh	Auburn University, AL
Markus Seuring	AMD, Dresden, Germany
Michael Gössel	Universität Potsdam, Germany
Egor S. Sogomonyan	Russian Academy of Sciences, Moscow, Potsdam, Germany

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ACM New York, NY, USA

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ABSTRACT

Built-in self-test (BIST) is an attractive design-for-test methodology for core-based SoC design because of the minimal need for test access when tests are generated and evaluated within the core itself. However, the scan based logic BIST approach being widely considered for this application suffers from two significant weaknesses: slow test-per-scan execution, and a limited capability for detecting realistic timing and delay faults, critical in deep submicron technologies. The new multimode scan based approach presented here supports test-per-clock BIST, which runs orders of magnitude faster, and also provides significantly better delay fault coverage.

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	Fulvio Corno , Paolo Prinetto , Matteo Sonza Reorda, Making the Circular Self-Test Path Technique Effective for Real Circuits, Proceedings of the IEEE International Test Conference on TEST: The Next 25 Years, p.949-957, October 02-06, 1994
	2	Thomas G. Foote , Dale E. Hoffman , William V. Huott , Timothy J. Koprowski , Bryan J. Robbins , Mary P. Kusko, Testing the 400-MHz IBM Generation-4 CMOS Chip, Proceedings of the IEEE International Test Conference, p.106-114, November 03-05, 1997
	3	Sybille Hellebrand , Janusz Rajski , Steffen Tarnick , Srikanth Venkataraman , Bernard Courtois, Built-In Test for Circuits with Scan Based on Reseeding of Multiple-Polynomial Linear Feedback Shift Registers, IEEE Transactions on Computers, v.44 n.2, p.223-233, February 1995 [doi>10.1109/12.364534]
	4	Graham Hetherington , Tony Fryars , Nagesh Tamarapalli , Mark Kassab , Abu Hassan , Janusz Rajski, Logic BIST for Large Industrial Designs: Real Issues and Case Studies, Proceedings of the 1999 IEEE International Test Conference, p.358, September 28-30, 1999
	5	Koenemann, B., Mucha, J., and Zwiehoff, G. 1979. Built-in logic block observation techniques. In Proceedings of the International Test Conference. 37--41.
	6	Krasniewski, A. and Pilarski, S. 1989. Circular self-test path: A low-cost bist technique for vlsi circuits. IEEE Trans. Comput.-Aided Des. 8, 1 (Jan.), 46--55.
	7	Savir, J. and Patil, S. 1994. Broad-side delay test. IEEE Trans. Computer-Aided Design. 1057--1064.
	8	Adit D. Singh , Egor S. Sogomonyan , Michael Gössel , Markus Seuring, Testability Evaluation of Sequential Designs Incorporating the Multi-Mode Scannable Memory Element, Proceedings of the 1999 IEEE International Test Conference, p.286, September 28-30, 1999
	9	E. S. Sogomonyan , A. D. Singh , M. Goessel, A Multi-Mode Scannable Memory Element for High Test Application Efficiency and Delay Testing, Journal of Electronic Testing: Theory and Applications, v.15 n.1-2, p.87-96, August-October 1999 [doi>10.1023/A:1008328101088]
	10	C. E. Stroud, An automated BIST approach for general sequential logic synthesis, Proceedings of the 25th ACM/IEEE conference on Design automation, p.3-8, June 12-15, 1988, Atlantic City, New Jersey, United States