Symmetry Propagation: Improved Dynamic Symmetry Breaking in SAT | Zendy

Jo Devriendt | Zendy; Bart Bogaerts | Zendy; Broes De Cat | Zendy; Marc Denecker | Zendy; Christopher Mears | Zendy

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Symmetry Propagation: Improved Dynamic Symmetry Breaking in SAT

Author(s) -

Jo Devriendt,

Bart Bogaerts,

Broes De Cat,

Marc Denecker,

Christopher Mears

Publication year - 2012

Publication title -

lirias (ku leuven)

Language(s) - English

Resource type - Conference proceedings

ISSN - 1082-3409

ISBN - 978-1-4799-0227-9

DOI - 10.1109/ictai.2012.16

Subject(s) - symmetry breaking , explicit symmetry breaking , spontaneous symmetry breaking , symmetry (geometry) , chiral symmetry breaking , rotational symmetry , global symmetry , physics , propagator , computer science , theoretical physics , mathematics , quantum mechanics , geometry , mechanics

For constraint programming, many well performing dynamic symmetry breaking techniques have been devised. For propositional satisfiability solving, dynamic symmetry breaking is still either slower or less general than static symmetry breaking. This paper presents Symmetry Propagation, which is an improvement to Lightweight Dynamic Symmetry Breaking, a dynamic symmetry breaking approach from CP. Symmetry Propagation uses any given symmetry as a propagator, and as a result is a general symmetry breaking technique. Experiments with an implementation in the SAT solver Minisat show that on many benchmarks, Symmetry Propagation outperforms the state-of-the-art static symmetry breaking method Shatter.status: publishe

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