Algorithms and Certificates for Boolean CSP Refutation: Smoothed Is No Harder than Random

IF 1.2 3区 计算机科学 Q3 COMPUTER SCIENCE, THEORY & METHODS SIAM Journal on Computing Pub Date : 2024-09-05 DOI:10.1137/22m1537771
Venkatesan Guruswami, Pravesh K. Kothari, Peter Manohar
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Abstract

SIAM Journal on Computing, Ahead of Print.
Abstract. We present an algorithm for strongly refuting smoothed instances of all Boolean CSPs. The smoothed model is a hybrid between worst- and average-case input models, where the input is an arbitrary instance of the CSP with only the negation patterns of the literals re-randomized with some small probability. For an [math]-variable smoothed instance of a [math]-arity CSP, our algorithm runs in [math] time and succeeds with high probability in bounding the optimum fraction of satisfiable constraints away from 1, provided that the number of constraints is at least [math]. This matches, up to polylogarithmic factors in [math], the trade-off between running time and the number of constraints of the state-of-the-art algorithms for refuting fully random instances of CSPs [P. Raghavendra, S. Rao, and T. Schramm, Strongly refuting random CSPs below the spectral threshold, in STOC’17—Proceedings of the 49th Annual ACM SIGACT Symposium on Theory of Computing, 2017, pp. 121–131]. We also make a surprising connection between the analysis of our refutation algorithm in the significantly “randomness starved” setting of semirandom [math]-XOR and the existence of even covers in worst-case hypergraphs. We use this connection to positively resolve Feige’s 2008 conjecture—an extremal combinatorics conjecture on the existence of even covers in sufficiently dense hypergraphs that generalizes the well-known Moore bound for the girth of graphs. As a corollary, we show that polynomial-size refutation witnesses exist for arbitrary smoothed CSP instances with number of constraints a polynomial factor below the “spectral threshold” of [math], extending the celebrated result for random 3-SAT of [U. Feige, J. H. Kim, and E. Ofek, Witnesses for non-satisfiability of dense random 3CNF formulas, in Proceedings of the 47th Annual IEEE Symposium on Foundations of Computer Science, 2006, pp. 497–508].
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布尔 CSP 反驳算法与证书:平滑算法并不比随机算法难
SIAM 计算期刊》,提前印刷。 摘要我们提出了一种强反驳所有布尔 CSP 平滑实例的算法。平滑模型是最坏情况输入模型和平均情况输入模型的混合体,其中输入是 CSP 的任意实例,只有字面的否定模式以某种小概率重新随机化。对于一个[数学]变量平滑的[数学]稀有度 CSP 实例,我们的算法可以在[数学]时间内运行,并且只要约束的数量至少为[数学],就能以很高的概率成功地将可满足约束的最佳分数限定在 1 以外。这与用于驳斥 CSP 完全随机实例的最先进算法在运行时间和约束数量之间的权衡[P.Raghavendra, S. Rao, and T. Schramm, Strongly refuting random CSPs below the spectral threshold, in STOC'17-Proceedings of the 49th Annual ACM SIGACT Symposium on Theory of Computing, 2017, pp.]我们还在半随机[math]-XOR 的显著 "随机性饥饿 "设置中对我们的驳斥算法的分析与最坏情况超图中偶数覆盖的存在之间建立了令人惊讶的联系。我们利用这种联系正面解决了费吉 2008 年的猜想--一个关于在足够密集的超图中是否存在偶数盖的极端组合学猜想,它概括了众所周知的图周长摩尔约束。作为推论,我们证明了任意平滑 CSP 实例都存在多项式大小的驳斥见证,其约束数比 [math] 的 "谱阈值 "低一个多项式因子,从而扩展了 [U. Feige, J. H. Kim.Feige, J. H. Kim, and E. Ofek, Witnesses for non-satisfiability of dense random 3CNF formulas, in Proceedings of the 47th Annual IEEE Symposium on Foundations of Computer Science, 2006, pp.]
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来源期刊
SIAM Journal on Computing
SIAM Journal on Computing 工程技术-计算机:理论方法
CiteScore
4.60
自引率
0.00%
发文量
68
审稿时长
6-12 weeks
期刊介绍: The SIAM Journal on Computing aims to provide coverage of the most significant work going on in the mathematical and formal aspects of computer science and nonnumerical computing. Submissions must be clearly written and make a significant technical contribution. Topics include but are not limited to analysis and design of algorithms, algorithmic game theory, data structures, computational complexity, computational algebra, computational aspects of combinatorics and graph theory, computational biology, computational geometry, computational robotics, the mathematical aspects of programming languages, artificial intelligence, computational learning, databases, information retrieval, cryptography, networks, distributed computing, parallel algorithms, and computer architecture.
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