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Separation results for the size of constant-depth propositional proofs

Arnold Beckmann & Samuel R. Buss

Annals of Pure and Applied Logic 136 (1-2):30-55 (2005)

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An exponential separation between the parity principle and the pigeonhole principle.Paul Beame & Toniann Pitassi - 1996 - Annals of Pure and Applied Logic 80 (3):195-228.details The combinatorial parity principle states that there is no perfect matching on an odd number of vertices. This principle generalizes the pigeonhole principle, which states that for a fixed bipartition of the vertices, there is no perfect matching between them. Therefore, it follows from recent lower bounds for the pigeonhole principle that the parity principle requires exponential-size bounded-depth Frege proofs. Ajtai previously showed that the parity principle does not have polynomial-size bounded-depth Frege proofs even with the pigeonhole principle as an (...) Download Export citation Bookmark 8 citations
(1 other version)Quantified propositional calculi and fragments of bounded arithmetic.Jan Krajíček & Pavel Pudlák - 1990 - Mathematical Logic Quarterly 36 (1):29-46.details Download Export citation Bookmark 24 citations
Interpolation theorems, lower Bounds for proof systems, and independence results for bounded arithmetic.Jan Krajíček - 1997 - Journal of Symbolic Logic 62 (2):457-486.details A proof of the (propositional) Craig interpolation theorem for cut-free sequent calculus yields that a sequent with a cut-free proof (or with a proof with cut-formulas of restricted form; in particular, with only analytic cuts) with k inferences has an interpolant whose circuit-size is at most k. We give a new proof of the interpolation theorem based on a communication complexity approach which allows a similar estimate for a larger class of proofs. We derive from it several corollaries: (1) Feasible (...) Download Export citation Bookmark 24 citations
Lower Bounds to the size of constant-depth propositional proofs.Jan Krajíček - 1994 - Journal of Symbolic Logic 59 (1):73-86.details LK is a natural modification of Gentzen sequent calculus for propositional logic with connectives ¬ and $\bigwedge, \bigvee$. Then for every d ≥ 0 and n ≥ 2, there is a set Td n of depth d sequents of total size O which are refutable in LK by depth d + 1 proof of size exp) but such that every depth d refutation must have the size at least exp). The sets Td n express a weaker form of the pigeonhole (...) principle. (shrink) Download Export citation Bookmark 21 citations
(1 other version)Quantified propositional calculi and fragments of bounded arithmetic.Jan Krajíček & Pavel Pudlák - 1990 - Zeitschrift fur mathematische Logik und Grundlagen der Mathematik 36 (1):29-46.details Download Export citation Bookmark 24 citations
Dynamic ordinal analysis.Arnold Beckmann - 2003 - Archive for Mathematical Logic 42 (4):303-334.details Dynamic ordinal analysis is ordinal analysis for weak arithmetics like fragments of bounded arithmetic. In this paper we will define dynamic ordinals – they will be sets of number theoretic functions measuring the amount of sΠ b 1(X) order induction available in a theory. We will compare order induction to successor induction over weak theories. We will compute dynamic ordinals of the bounded arithmetic theories sΣ b n (X)−L m IND for m=n and m=n+1, n≥0. Different dynamic ordinals lead to (...) Download Export citation Bookmark 7 citations

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