DocumentCode
2728383
Title
Adaptive Debug and Diagnosis without Fault Dictionaries
Author
Holst, Stefan ; Wunderlich, Hans-Joachim
Author_Institution
Inst. fur Tech. Inf., Univ. Stuttgart, Stuttgart
fYear
2007
fDate
20-24 May 2007
Firstpage
7
Lastpage
12
Abstract
Diagnosis is essential in modern chip production to increase yield, and debug constitutes a major part in the pre-silicon development process. For recent process technologies, defect mechanisms are increasingly complex, and continuous efforts are made to model these defects by using sophisticated fault models. Traditional static approaches for debug and diagnosis with a simplified fault model are more and more limited. In this paper, a method is presented, which identifies possible faulty regions in a combinational circuit, based on its input/output behavior and independent of a fault model. The new adaptive, statistical approach combines a flexible and powerful effect-cause pattern analysis algorithm with high-resolution ATPG. We show the effectiveness of the approach through experiments with benchmark and industrial circuits.
Keywords
automatic test pattern generation; combinational circuits; fault diagnosis; integrated circuit design; integrated circuit modelling; integrated circuit testing; integrated circuit yield; logic design; logic testing; statistical analysis; VLSI; adaptive debug approach; benchmark circuits; chip diagnosis approach; chip production; circuit yield; combinational circuit; defect mechanisms; effect-cause pattern analysis algorithm; fault models; high-resolution ATPG; industrial circuits; microelectronic circuits design; pre-silicon development process; statistical approach; Algorithm design and analysis; Circuit faults; Circuit simulation; Circuit testing; Dictionaries; Failure analysis; Fault diagnosis; Predictive models; Silicon; Solid modeling; Debug; Diagnosis; Test; VLSI;
fLanguage
English
Publisher
ieee
Conference_Titel
Test Symposium, 2007. ETS '07. 12th IEEE European
Conference_Location
Freiburg
Print_ISBN
0-7695-2827-9
Type
conf
DOI
10.1109/ETS.2007.9
Filename
4221567
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