Fragments of approximate counting

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Journal of Symbolic Logic 79 (2):496-525 (2014)
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Abstract

We study the long-standing open problem of giving$\forall {\rm{\Sigma }}_1^b$separations for fragments of bounded arithmetic in the relativized setting. Rather than considering the usual fragments defined by the amount of induction they allow, we study Jeřábek’s theories for approximate counting and their subtheories. We show that the$\forall {\rm{\Sigma }}_1^b$Herbrandized ordering principle is unprovable in a fragment of bounded arithmetic that includes the injective weak pigeonhole principle for polynomial time functions, and also in a fragment that includes the surjective weak pigeonhole principle for FPNPfunctions. We further give new propositional translations, in terms of random resolution refutations, for the consequences of$T_2^1$augmented with the surjective weak pigeonhole principle for polynomial time functions.

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10.1017/jsl.2013.37

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Citations of this work

Incompleteness in the Finite Domain.Pavel Pudlák - 2017 - Bulletin of Symbolic Logic 23 (4):405-441.
Feasibly constructive proofs of succinct weak circuit lower bounds.Moritz Müller & Ján Pich - 2020 - Annals of Pure and Applied Logic 171 (2):102735.

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References found in this work

Bounded arithmetic and the polynomial hierarchy.Jan Krajíček, Pavel Pudlák & Gaisi Takeuti - 1991 - Annals of Pure and Applied Logic 52 (1-2):143-153.
Dual weak pigeonhole principle, Boolean complexity, and derandomization.Emil Jeřábek - 2004 - Annals of Pure and Applied Logic 129 (1-3):1-37.
The strength of sharply bounded induction.Emil Jeřábek - 2006 - Mathematical Logic Quarterly 52 (6):613-624.

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