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With an increasing number of complex cells in today's VLSI designs, intra-gate opens are becoming a larger and larger problem. Typically, these defects are modeled by transistor stuck-off faults (TSOF) and assumed to be detected by transition delay fault (TDF) timing tests. However, tests for TDF fail to detect a high percentage of TSOFs and even tools that target them directly are not sufficient...
Opens are known to be one of the predominant defects in nanoscale technologies. Especially with an increasing number of complex cells in today's VLSI designs intra-gate opens are becoming a major problem. The generation of tests for these faults is hard, as the timing of the circuit needs to be considered accurately to prevent the invalidation of the generated tests through hazards. Current test generation...
Cell Aware testing (CAT) has received much publicity in recent years, with several reported success stories in screening defects missed by traditional stuck-at and transition delay fault (TDF) testing. For example, at ITC 2012, Hapke et al. reported 885 DPPM test escapes in a 32 nm notebook processor part despite industrial strength stuck-at and 5-detect TDF testing. Significant additional fallout...
Recent test studies on volume production data suggest that a significant number of CMOS open defects remain undetected by commonly applied TDF timing tests, potentially leading to high defectivity in the shipped parts. This has focused attention on developing tests that explicitly target open faults, in particular transistor stuck open faults (TSOFs). However, while TSOFs cover all open faults in...
Recent studies indicate that a significant number of very large delay faults that increase circuit path delays several fold, remain difficult to detect and are only discovered by very carefully crafted and comprehensive two-pattern tests, e.g. cell aware tests. A likely source of such large delays in CMOS is stuck-open faults. These can sometimes still allow the circuit to reach the correct logic...
Hazards have been known to have the potential to invalidate tests for stuck-open faults in CMOS circuits. In this paper we show that hazards can also predictably allow the detection of stuck-open faults that may be undetectable by traditional TDF launch-on-capture (LOC) scan delay tests. Importantly, the detected open faults are not redundant, and can in fact be activated in normal functional operation...
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