Interactive presentation: Pulse propagation for the detection of small delay defects

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Interactive presentation: Pulse propagation for the detection of small delay defects

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Design, Automation, and Test in Europe archive
Proceedings of the conference on Design, automation and test in Europe table of contents

Nice, France

SESSION: Variation tolerant mixed signal test table of contents

Pages: 1295 - 1300

Year of Publication: 2007

ISBN:978-3-9810801-2-4

Authors

M. Favalli	DI - Univ. of Ferrara
C. Metra	DEIS - Univ. of Bologna

Sponsors

: IEEE Council on Electronic Design Automation (CEDA)
SIGDA: ACM Special Interest Group on Design Automation
: The EDA Consortium
EDAA : European Design and Automation Association
RAS : RAS
: The IEEE Computer Society TTTC
: ECSI

Publisher

EDA Consortium San Jose, CA, USA

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Downloads (6 Weeks): 0, Downloads (12 Months): 6, Citation Count: 0

Additional Information:

abstract references cited by collaborative colleagues

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ABSTRACT

This paper addresses the problems related to resistive opens and bridging faults which cannot be detected using delay fault testing because they lie out of the most critical paths. Even if the induced defect is not large enough to result in timing violations, these faults may give rise to reliability problems. To detect them, we propose a testing method that is based on the propagation of pulses within the faulty circuit and that exploits the degraded capabity of faulty paths to propagate pulses. The effectiveness of the proposed method is analyzed at the electrical level and compared with the use of reduced clock period which can detect the same class of faults. Results show similar performance in the case of resistive opens and better performance in the case of bridgings. Moreover, the proposed approach is not affected by problems on the clock distribution network.

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	Keith Baker , Guido Gronthoud , Maurice Lousberg , Ivo Schanstra , Charles Hawkins, Defect-Based Delay Testing of Resistive Vias-Contacts A Critical Evaluation, Proceedings of the 1999 IEEE International Test Conference, p.467, September 28-30, 1999
	2	Michele Favalli , Piero Olivo , Bruno Riccò, Dynamic effects in the detection of bridging faults in CMOS ICs, Journal of Electronic Testing: Theory and Applications, v.3 n.3, p.197-205, Aug. 1992 [doi>10.1007/BF00134730]
	3	P. Nigh, "The importance of on-line testing to enhance high-reliability performance," in Proc. of ITC, p. 1281, 2003.
	4	Bipul C. Paul , Kunhyuk Kang , Haldun Kufluoglu , Muhammad Ashraful Alam , Kaushik Roy, Temporal performance degradation under NBTI: estimation and design for improved reliability of nanoscale circuits, Proceedings of the conference on Design, automation and test in Europe: Proceedings, March 06-10, 2006, Munich, Germany
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	7	A. Singh, "A self-timed structural test methodology for timing anomalies due to defects and process variations," in Proc. of ITC, pp. (5.1) 1--6, 2005.
	8	K. Bowman et al., "Impact of die-to-die and within-die parameter fluctuations for the maximum clock frequency distribution for Gigascale integration," IEEE JSSC, vol. 37, no. 2, pp. 183--190, 2002.
	9	Cecilia Metra , Michele Favalli , Bruno Riccò, Self-Checking Detection and Diagnosis of Transient, Delay, and Crosstalk Faults Affecting Bus Lines, IEEE Transactions on Computers, v.49 n.6, p.560-574, June 2000 [doi>10.1109/12.862216]
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CITED BY

Michele Favalli , Cecilia Metra, Testing resistive opens and bridging faults through pulse propagation, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, v.28 n.6, p.915-925, June 2009

Collaborative Colleagues:

M. Favalli: colleagues

C. Metra: colleagues

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