DocumentCode
1437180
Title
Improving path delay testability of sequential circuits
Author
Chakraborty, Tapan J. ; Agrawal, Vishwani D. ; Bushnell, Michael L.
Author_Institution
Lucent Technol. Bell Labs., Princeton, NJ, USA
Volume
8
Issue
6
fYear
2000
Firstpage
736
Lastpage
741
Abstract
We analyze the causes of low path delay fault coverage in synchronous sequential circuits and propose a method to improve testability. The three main reasons for low path delay fault coverage are found to be: (A) combinationally false (nonactivatable) paths; (B) sequentially nonactivatable paths; and (C) unobservable fault effects. Accordingly, we classify undetected faults in Groups A, B, and C. Combinationally false paths ran be made testable by modifying the circuit or resynthesizing the combinational logic as discussed by other researchers. A majority of the untestable faults are, however found in Group B, where a signal transition cannot be functionally propagated through a combinational path. A test requires two successive states necessary to create a signal transition and propagate it through the target path embedded in the sequential circuit. We study a partial scan technique in which flip-flops are scanned to break cycles and shun that a substantial increase in the coverage of path delay faults is possible.
Keywords
delays; design for testability; flip-flops; logic testing; sequential circuits; combinational logic; design for testability; fault coverage; flip-flop; partial scan design; path delay testability; signal transition; synchronous sequential circuit; Circuit analysis; Circuit faults; Circuit testing; Combinational circuits; Delay effects; Flip-flops; Logic testing; Radio access networks; Sequential analysis; Sequential circuits;
fLanguage
English
Journal_Title
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
Publisher
ieee
ISSN
1063-8210
Type
jour
DOI
10.1109/92.902268
Filename
902268
Link To Document