A proof complexity conjecture and the Incompleteness theorem

Pub Date : 2023-09-19 DOI:10.1017/jsl.2023.69
Jan Krajíček
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Abstract

Abstract Given a sound first-order p-time theory T capable of formalizing syntax of first-order logic we define a p-time function $g_T$ that stretches all inputs by one bit and we use its properties to show that T must be incomplete. We leave it as an open problem whether for some T the range of $g_T$ intersects all infinite ${\mbox {NP}}$ sets (i.e., whether it is a proof complexity generator hard for all proof systems). A propositional version of the construction shows that at least one of the following three statements is true: 1. There is no p-optimal propositional proof system (this is equivalent to the non-existence of a time-optimal propositional proof search algorithm). 2. $E \not \subseteq P/poly$ . 3. There exists function h that stretches all inputs by one bit, is computable in sub-exponential time, and its range $Rng(h)$ intersects all infinite ${\text {NP}}$ sets.
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证明复杂性猜想和不完备性定理
摘要给定一个可靠的一阶p时间理论T,能够形式化一阶逻辑的语法,我们定义了一个p时间函数$g_T$,它将所有输入延伸1位,并利用它的性质证明了T一定是不完全的。对于某些T, $g_T$的范围是否与所有无限的${\mbox {NP}}$集合相交(即,它是否是一个对所有证明系统都很难的证明复杂性生成器),我们将其作为一个开放问题。该结构的命题版本表明,以下三个陈述中至少有一个是正确的:不存在p最优命题证明系统(这相当于不存在时间最优命题证明搜索算法)。2. $E \not \subseteq P/poly$。3.存在一个函数h,它将所有输入延展1位,在次指数时间内可计算,其值域$Rng(h)$与所有无限的${\text {NP}}$集合相交。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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