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A bounded arithmetic AID for Frege systems

Annals of Pure and Applied Logic 103 (1-3):155-199 (2000)

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Expander construction in VNC1.Sam Buss, Valentine Kabanets, Antonina Kolokolova & Michal Koucký - 2020 - Annals of Pure and Applied Logic 171 (7):102796.details We give a combinatorial analysis (using edge expansion) of a variant of the iterative expander construction due to Reingold, Vadhan, and Wigderson [44], and show that this analysis can be formalized in the bounded arithmetic system VNC^1 (corresponding to the “NC^1 reasoning”). As a corollary, we prove the assumption made by Jeřábek [28] that a construction of certain bipartite expander graphs can be formalized in VNC^1 . This in turn implies that every proof in Gentzen's sequent calculus LK of a (...) Download Export citation Bookmark 1 citation
On theories of bounded arithmetic for NC 1.Emil Jeřábek - 2011 - Annals of Pure and Applied Logic 162 (4):322-340.details We develop an arithmetical theory and its variant , corresponding to “slightly nonuniform” . Our theories sit between and , and allow evaluation of log-depth bounded fan-in circuits under limited conditions. Propositional translations of -formulas provable in admit L-uniform polynomial-size Frege proofs. Download Export citation Bookmark 6 citations
Quantified propositional calculus and a second-order theory for NC1.Stephen Cook & Tsuyoshi Morioka - 2005 - Archive for Mathematical Logic 44 (6):711-749.details Let H be a proof system for quantified propositional calculus (QPC). We define the Σqj-witnessing problem for H to be: given a prenex Σqj-formula A, an H-proof of A, and a truth assignment to the free variables in A, find a witness for the outermost existential quantifiers in A. We point out that the Σq1-witnessing problems for the systems G1and G1 are complete for polynomial time and PLS (polynomial local search), respectively. We introduce and study the systems G0 and G0, (...) Download Export citation Bookmark 6 citations
The equivalence of theories that characterize ALogTime.Phuong Nguyen - 2009 - Archive for Mathematical Logic 48 (6):523-549.details A number of theories have been developed to characterize ALogTime (or uniform NC 1, or just NC 1), the class of languages accepted by alternating logtime Turing machines, in the same way that Buss’s theory ${{\bf S}^{1}_{2}}$ characterizes polytime functions. Among these, ALV′ (by Clote) is particularly interesting because it is developed based on Barrington’s theorem that the word problem for the permutation group S 5 is complete for ALogTime. On the other hand, ALV (by Clote), T 0 NC 0 (...) Download Export citation Bookmark

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