Analysis of Reachable Sensitisable Paths in Sequential Circuits with SAT and Craig Interpolation

Analysis of Reachable Sensitisable Paths in Sequential Circuits with SAT and Craig Interpolation

Test pattern generation for sequential circuits benefits from scanning strategies as these allow the justification of arbitrary circuit states. However, some of these states may be unreachable during normal operation. This results in non-functional operation which may lead to abnormal circuit behavi...

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Hauptverfasser: Sauer, M., Kupferschmid, S., Czutro, A., Reddy, S., Becker, B.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
ATPG
bmc
Circuit faults
craig
Delay
Integrated circuit modeling
Interpolation
justification
Logic gates
longest path
reachability
sensitisable path
sequential circuit
Sequential circuits
small delay fault
Transfer functions
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Beschreibung
Zusammenfassung:Test pattern generation for sequential circuits benefits from scanning strategies as these allow the justification of arbitrary circuit states. However, some of these states may be unreachable during normal operation. This results in non-functional operation which may lead to abnormal circuit behaviour and result in over-testing. In this work, we present a versatile approach that combines a highly adaptable SAT-based path-enumeration algorithm with a model-checking solver for invariant properties that relies on the theory of Craig interpolants to prove the unreachability of circuit states. The method enumerates a set of longest sensitisable paths and yields test sequences of minimal length able to sensitise the found paths starting from a given circuit state. We present detailed experimental results on the reach ability of sensitisable paths in ITC 99 circuits.
ISSN:1063-9667
2380-6923
DOI:10.1109/VLSID.2012.101