Title :
Simulation of at-speed tests for stuck-at faults
Author :
Chakraborty, Tapan J. ; Agrawal, Vishwani D.
Author_Institution :
AT&T Bell Labs., Princeton, NJ, USA
fDate :
30 Apr-3 May 1995
Abstract :
We examine the detectability of stuck-at faults when test vectors are applied at the rated speed. In the presence of path delays that are comparable to the clock interval, delayed signal transitions or timing hazards influence the detection of faults. It is, therefore, possible that a stuck-at fault that is detected by a test applied at slow speed, may not be detected with high speed test application. We present a fault simulation method that takes timing effects into account without specific delay modeling. Delay-hazard robust (dh-robust) coverage of a test sequence is defined as the coverage of single stuck-at faults that are guaranteed to be detected irrespective of delays or hazards. For tests generated for slow-speed testing, the dh-robust coverage can be quite low. However, special timing considerations in test generation provide better quality tests, especially for high performance circuits
Keywords :
circuit analysis computing; delays; fault diagnosis; hazards and race conditions; integrated circuit testing; logic testing; timing; at-speed test simulation; delay-hazard robust test coverage; delayed signal transitions; fault simulation method; high performance circuits; high speed test; path delays; stuck-at fault detectability; timing considerations; timing hazards; Circuit faults; Circuit testing; Clocks; DH-HEMTs; Delay effects; Electrical fault detection; Fault detection; Hazards; Robustness; Timing;
Conference_Titel :
VLSI Test Symposium, 1995. Proceedings., 13th IEEE
Conference_Location :
Princeton, NJ
Print_ISBN :
0-8186-7000-2
DOI :
10.1109/VTEST.1995.512640
