B-cubing theory: new possibilities for efficient SAT-solving

B-cubing theory: new possibilities for efficient SAT-solving

SAT (Boolean satisfiability) has become the primary Boolean reasoning engine for many EDA (electronic design automation) applications, so the efficiency of SAT-solving is of great practical importance, B-cubing is our extension and generalization of Goldberg et al. (2002) supercubing, an approach to...

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Bibliographische Detailangaben
Hauptverfasser: Babic, D., Bingham, J., Hu, A.J.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Application software
Automatic test pattern generation
Automatic testing
Computer science
Electronic design automation and methodology
Electronic equipment testing
Engines
Field programmable gate arrays
Routing
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Beschreibung
Zusammenfassung:SAT (Boolean satisfiability) has become the primary Boolean reasoning engine for many EDA (electronic design automation) applications, so the efficiency of SAT-solving is of great practical importance, B-cubing is our extension and generalization of Goldberg et al. (2002) supercubing, an approach to pruning in SAT-solving completely different from the standard approach used in leading solvers. We have built a B-cubing-based solver that is competitive with, and often outperforms, leading conventional solvers (e.g., ZChaff II) on a wide range of EDA benchmarks. However, B-cubing is hard to understand, and even the correctness of the algorithm is not obvious. This paper clarifies the theoretical basis for B-cubing proves our approach correct, and maps out other correct possibilities for further improving SAT-solving.
ISSN:1552-6674
2471-7827
DOI:10.1109/HLDVT.2005.1568836