Diagnosing Arbitrary Defects in Logic Designs Using Single Location at a Time (SLAT).

A new form of logic diagnosis is described that is suitable for diagnosing falls in combinational logic. It can diagnose defects that can affect arbitrarily many elements in the integrated circuit. It operates by first identifying patterns during which only one element is affected by the defect, and then diagnosing the fails observed during the application of such patterns, one pattern at a time. Single stuck-at faults are used for this purpose, and the aggregate of stuck-at fault locations thus identified is then further analyzed to obtain the most accurate estimate of the identifies of those elements that can be affected by the defect. This approach to logic diagnosis is as effective as that of classical stuck-at fault-based diagnosis, when the latter applies, but is far more general. In particular, it can diagnose fails caused by bridges and opens as well as fails caused by regular stuck-at faults. [ABSTRACT FROM AUTHOR]