research-article

Graph partition based path selection for testing of small delay defects

Authors:

Zijian He,

Tao Lv,

Huawei Li,

Xiaowei LiAuthors Info & Claims

ASPDAC '10: Proceedings of the 2010 Asia and South Pacific Design Automation Conference

Pages 499 - 504

Published: 18 January 2010 Publication History

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Abstract

Critical path selection plays an important role in testing of small delay defects (SDD). For some timing-balanced circuits, the numbers of candidate critical paths may be very large, and this will make Monte Carlo simulation based statistical timing analysis very inefficient. A fast path selection approach based on graph partition is proposed in this paper. First, a critical path graph (CPG) is generated to implicitly enumerate almost all candidate critical paths, and then the CPG is partitioned into several sub graphs which contain limited numbers of paths using two graph partition approaches. After that, Monte Carlo simulation is applied on each sub graph for path selection. At last, according to the partition topology of the CPG and path sets selected from each sub graph, a path set for the original CPG is generated using Union and Cartesian product operations for testing SDDs. Experimental results show that for circuits containing large numbers of candidate critical paths, the proposed path selection approach can reduce the CPU time significantly and maintain a higher probability of capturing delay failures compared to path selection methods based on general Monte Carlo simulation.

References

[1]

K. Baker, G. Gronthoud, M. Lousberg, I. Schanstra, and C. Hawkins, "Defect-based delay testing of resistive vias-contacts, a critical evaluation," Proc. IEEE ITC, pp 467--476, September 1999.

Digital Library

Google Scholar

[2]

M. A. Breuer, C. Gleason, and S. Gupta, "New validation and Test Problems for High Performance Deep Sub-Micro VLSI Circuits," Tutorial Notes, Proc. IEEE VTS, April 1997.

Google Scholar

[3]

R. C. Aitken, "Nanometer technology effects on fault models for IC testing," IEEE Computer, Vol. 32, pp. 46--51, Nov, 1999.

Digital Library

Google Scholar

[4]

K.-T Cheng, S. Dey, M Rodgers, and K. Roy, "Test challenges for deep sub-micro technologies," Proc. ACM/IEEE DAC, pp. 142--149, June 2000.

Digital Library

Google Scholar

[5]

D. Blaauw, "Statistical timing analysis: from basic principles to state of the art," IEEE Trans. CAD, vol. 27, pp. 589--607, Apr. 2008

Digital Library

Google Scholar

[6]

L. Scheffer, "The count of Monte Carlo," Proc. ACM/IEEE TAU, 2004.

Google Scholar

[7]

S. Tasiran and A. Demir, "Smart Monte Carlo for yield estimation," Proc. ACM/IEEE TAU, 2006.

Google Scholar

[8]

MR, Kanj, R. Joshi, and S. Nassif, "Mixture importance sampling and its application to the analysis of SRAM design in the presence of rare failure events," Proc. ACM/IEEE DAC, pp. 66--72, 2006.

Digital Library

Google Scholar

[9]

V. Veetil, D. Blaauw, and D. Sylvester, "Critically aware Latin hypercube sampling for efficient statistical timing analysis," Proc. ACM/IEEE, 2007.

Google Scholar

[10]

J Jaffari, M Anis, "On efficient Monte Carlo-based statistical static timing analysis of digital circuits," Proc. IEEE/ACM ICCAD, pp. 196--203, 2008.

Digital Library

Google Scholar

[11]

V. Iyengar, J. Xiong, S. Venkatesan, V. Zolotov, D. Lackey, P. Habitz, and C. Visweswariah, "Variation-aware performance verification using at-speed structural test and statistical timing," Proc. IEEE/ACM ICCAD, pp. 405--412, 2007.

Digital Library

Google Scholar

[12]

L.-C Wang, J.-J. Loiu, and K.-T. Cheng, "Critical path selection for delay fault testing based upon a statistical timing model," IEEE Trans. CAD, pp. 1550--1565, Nov. 2004.

Digital Library

Google Scholar

[13]

A. Agarwal, D. Blaauw, V. Zolotov, S. Sundareswaran, S., Zhao Min, K. Gala, R. Panda, "Statistical delay computing considering spatial correlations," Proc. ACM ASP-DAC, 2003, pp. 271--276.

Digital Library

Google Scholar

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Abolmaali SKamal MAfzali-Kusha APedram M(2018)An Efficient False Path-Aware Heuristic Critical Path Selection Method with High Coverage of the Process Variation SpaceACM Transactions on Design Automation of Electronic Systems10.1145/317786623:3(1-25)Online publication date: 23-Feb-2018
https://dl.acm.org/doi/10.1145/3177866

Graph partition based path selection for testing of small delay defects
1. Mathematics of computing
  1. Probability and statistics
    1. Probabilistic reasoning algorithms

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ASPDAC '10: Proceedings of the 2010 Asia and South Pacific Design Automation Conference

January 2010

920 pages

ISBN:9781605588377

General Chair:
Youn-Long Lin
National Tsing Hua University

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IEEE Press

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Published: 18 January 2010

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ASPDAC '10

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TICD
SIGDA

ASPDAC '10: Asia and South Pacific Design Automation Conference

January 18 - 21, 2010

Taipei, Taiwan

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Overall Acceptance Rate 466 of 1,454 submissions, 32%

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Abolmaali SKamal MAfzali-Kusha APedram M(2018)An Efficient False Path-Aware Heuristic Critical Path Selection Method with High Coverage of the Process Variation SpaceACM Transactions on Design Automation of Electronic Systems10.1145/317786623:3(1-25)Online publication date: 23-Feb-2018
https://dl.acm.org/doi/10.1145/3177866

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Path Delay Testing: Variable-Clock Versus Rated-Clock

Test compaction for small-delay defects using an effective path selection scheme

Path selection for transition path delay faults

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