Diagnosing Silicon Failures Based on Functional Test Patterns

Diagnosing Silicon Failures Based on Functional Test Patterns

Identifying the root-cause of silicon failures is crucial for silicon debug and yield improvement. However, due to the low visibility of silicon data, root-cause identification tends to be a painful process. In this paper, we develop a systematic framework to diagnose silicon failures under function...

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Bibliographische Detailangaben
Hauptverfasser: Chia-Chih Yen, Ten Lin, Lin, H., Kai Yang, Tayung Liu, Yu-Chin Hsu
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Circuit testing
Clocks
Data engineering
Design engineering
design for debug
Design for disassembly
Failure analysis
Fault diagnosis
Silicon
Silicon debug
Software performance
Software testing
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Beschreibung
Zusammenfassung:Identifying the root-cause of silicon failures is crucial for silicon debug and yield improvement. However, due to the low visibility of silicon data, root-cause identification tends to be a painful process. In this paper, we develop a systematic framework to diagnose silicon failures under functional test patterns. We propose a novel scan-dump approach to isolate critical cycles. Within the critical cycles, we apply logic-reasoning techniques including active-path-tracing (AP) and what-if (WI) analysis to automatically extract and rank failure candidates. We apply our framework on an industrial circuit and demonstrate the promising results.
ISSN:1550-4093
2332-5674
DOI:10.1109/MTV.2006.9