posted on 2023-11-29, 18:07authored byMarijn J. H. Heule, Benjamin Kiesl, Armin Biere
We introduce proof systems for propositional logic that admit short proofs of hard formulas as well as the succinct expression of most techniques used by modern SAT solvers. Our proof systems allow the derivation of clauses
that are not necessarily implied, but which are redundant in the sense that their addition preserves satisfiability. To guarantee that these added clauses are redundant, we consider various efficiently decidable redundancy criteria which we obtain by first characterizing clause redundancy in terms of a semantic implication relationship and then restricting this relationship so that it becomes decidable in polynomial time. As the restricted implication relation is based on unit propagation—a core technique of SAT solvers—it allows efficient proof checking too. The resulting proof systems are surprisingly strong, even without the introduction of new variables—a key feature of short proofs presented in the proof-complexity literature. We demonstrate the strength of our proof systems on the famous pigeon hole formulas by providing short clausal proofs without new variables.
History
Preferred Citation
Marijn Heule, Benjamin Kiesl and Armin Biere. Strong Extension-Free Proof Systems. In: Journal of Automated Reasoning. 2019.
Primary Research Area
Reliable Security Guarantees
Legacy Posted Date
2019-07-03
Journal
Journal of Automated Reasoning
Open Access Type
Green
Sub Type
Article
BibTeX
@article{cispa_all_2942,
title = "Strong Extension-Free Proof Systems",
author = "Heule, Marijn J. H. and Kiesl, Benjamin and Biere, Armin",
journal="{Journal of Automated Reasoning}",
year="2019",
}