DocumentCode
2740420
Title
Complexity analysis based on ordered resolution
Author
Basin, David ; Ganzinger, Harald
Author_Institution
Max-Planck-Inst. fur Inf., Saarbrucken, Germany
fYear
1996
fDate
27-30 Jul 1996
Firstpage
456
Lastpage
465
Abstract
We define order locality to be a property of clauses relative to a term ordering. This property is a kind of generalization of the subformula property for proofs where terms arising in proofs are bounded, under the given ordering, by terms appearing in the goal clause. We show that when a clause set is order local, then the complexity of its ground entailment problem is a function of its structure (e.g., full versus Horn clauses), and the ordering used. We prove that, in many cases, order locality is equivalent to a clause set being saturated under ordered resolution. This provides a means of using standard resolution theorem provers for testing order locality and transforming non-local clause sets into local ones. We have used the Saturate system to automatically establish complexity bounds for a number of nontrivial entailment problems relative to complexity classes which include polynomial and exponential time and co-NP
Keywords
Horn clauses; computational complexity; theorem proving; Horn clauses; Saturate system; clauses; co-NP; complexity analysis; exponential time; ground entailment; non-local clause sets; nontrivial entailment problems; order locality; ordered resolution; polynomial time; standard resolution theorem provers; subformula property; term ordering; Equations; Logic testing; Polynomials;
fLanguage
English
Publisher
ieee
Conference_Titel
Logic in Computer Science, 1996. LICS '96. Proceedings., Eleventh Annual IEEE Symposium on
Conference_Location
New Brunswick, NJ
ISSN
1043-6871
Print_ISBN
0-8186-7463-6
Type
conf
DOI
10.1109/LICS.1996.561462
Filename
561462
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