Title :
Partial scan using multi-hop state reachability analysis
Author :
Sharma, Sameer ; Hsiao, Michael S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Rutgers Univ., Piscataway, NJ, USA
Abstract :
Sequential test generators fail to yield tests for some stuck-at-faults because they are unable to reach certain states necessary for exciting/propagating these target faults. Adding scan to the circuit increases reachability of these hard-to-reach and/or previously unreachable states. In this paper, we postulated that fewer scan flip-flops are needed to make these states reachable. The states necessary for detecting the hard-to-detect faults, when reached, will facilitate reaching other hard-to-reach states in one or more hops by the sequential test generator, resulting in significantly higher fault coverage. We collect information on the hard-to-reach, aborted, and easy states in our analysis. Results from our approach have indicated that higher fault coverage can be achieved with significantly fewer scan flip-flops for some circuits
Keywords :
design for testability; fault diagnosis; flip-flops; logic testing; reachability analysis; sequential circuits; DFT; fault coverage; hard-to-detect faults; multi-hop state reachability analysis; partial scan; reachability; scan flip-flops; sequential test generators; stuck-at-faults; Automatic test pattern generation; Automatic testing; Circuit faults; Circuit testing; Electrical fault detection; Fault detection; Information analysis; Reachability analysis; Sequential analysis; Test pattern generators;
Conference_Titel :
VLSI Test Symposium, 1999. Proceedings. 17th IEEE
Conference_Location :
Dana Point, CA
Print_ISBN :
0-7695-0146-X
DOI :
10.1109/VTEST.1999.766655
