Approximate counting and NP search problems

IF 0.9 1区 数学 Q1 LOGIC Journal of Mathematical Logic Pub Date : 2018-12-27 DOI:10.1142/s021906132250012x
L. Kolodziejczyk, Neil Thapen
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引用次数: 3

Abstract

We study a new class of NP search problems, those which can be proved total using standard combinatorial reasoning based on approximate counting. Our model for this kind of reasoning is the bounded arithmetic theory [Formula: see text] of [E. Jeřábek, Approximate counting by hashing in bounded arithmetic, J. Symb. Log. 74(3) (2009) 829–860]. In particular, the Ramsey and weak pigeonhole search problems lie in the new class. We give a purely computational characterization of this class and show that, relative to an oracle, it does not contain the problem CPLS, a strengthening of PLS. As CPLS is provably total in the theory [Formula: see text], this shows that [Formula: see text] does not prove every [Formula: see text] sentence which is provable in bounded arithmetic. This answers the question posed in [S. Buss, L. A. Kołodziejczyk and N. Thapen, Fragments of approximate counting, J. Symb. Log. 79(2) (2014) 496–525] and represents some progress in the program of separating the levels of the bounded arithmetic hierarchy by low-complexity sentences. Our main technical tool is an extension of the “fixing lemma” from [P. Pudlák and N. Thapen, Random resolution refutations, Comput. Complexity, 28(2) (2019) 185–239], a form of switching lemma, which we use to show that a random partial oracle from a certain distribution will, with high probability, determine an entire computation of a [Formula: see text] oracle machine. The introduction to the paper is intended to make the statements and context of the results accessible to someone unfamiliar with NP search problems or with bounded arithmetic.
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近似计数和NP搜索问题
我们研究了一类新的NP搜索问题,这些问题可以用基于近似计数的标准组合推理证明为全。我们的这种推理模型是[E.]的有界算术理论[公式:见文本]。Jeřábek,用有界算术中的哈希近似计数,J. Symb。地质学报,74(3)(2009)829-860]。特别地,Ramsey和弱鸽子洞搜索问题存在于新类中。我们给出了该类的一个纯粹的计算表征,并表明,相对于一个oracle,它不包含cpl问题,一个强化的PLS。由于cpl在理论[公式:见文]中是可证明的total,这表明[公式:见文]并不能证明在有界算术中可证明的每个[公式:见文]句子。这就回答了[S]中提出的问题。Buss, l.a. Kołodziejczyk和N. Thapen,片段的近似计数,J. Symb。Log. 79(2)(2014) 496-525],代表了用低复杂度句子分离有界算术层次的程序的一些进展。我们的主要技术工具是[P. 11]中的“固定引理”的扩展。Pudlák和N. Thapen,随机解析反驳,计算机。复杂度,28(2)(2019)185-239],一种转换引理的形式,我们用它来证明来自某个分布的随机部分oracle将以高概率确定oracle机器的整个计算[公式:见文本]。论文的引言旨在使不熟悉NP搜索问题或有界算法的人可以访问结果的陈述和上下文。
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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来源期刊
Journal of Mathematical Logic
Journal of Mathematical Logic MATHEMATICS-LOGIC
CiteScore
1.60
自引率
11.10%
发文量
23
审稿时长
>12 weeks
期刊介绍: The Journal of Mathematical Logic (JML) provides an important forum for the communication of original contributions in all areas of mathematical logic and its applications. It aims at publishing papers at the highest level of mathematical creativity and sophistication. JML intends to represent the most important and innovative developments in the subject.
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