On Approximability of Satisfiable k-CSPs: V

Amey Bhangale, Subhash Khot, Dor Minzer
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Abstract

We propose a framework of algorithm vs. hardness for all Max-CSPs and demonstrate it for a large class of predicates. This framework extends the work of Raghavendra [STOC, 2008], who showed a similar result for almost satisfiable Max-CSPs. Our framework is based on a new hybrid approximation algorithm, which uses a combination of the Gaussian elimination technique (i.e., solving a system of linear equations over an Abelian group) and the semidefinite programming relaxation. We complement our algorithm with a matching dictator vs. quasirandom test that has perfect completeness. The analysis of our dictator vs. quasirandom test is based on a novel invariance principle, which we call the mixed invariance principle. Our mixed invariance principle is an extension of the invariance principle of Mossel, O'Donnell and Oleszkiewicz [Annals of Mathematics, 2010] which plays a crucial role in Raghavendra's work. The mixed invariance principle allows one to relate 3-wise correlations over discrete probability spaces with expectations over spaces that are a mixture of Guassian spaces and Abelian groups, and may be of independent interest.
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论可满足 k-CSP 的可逼近性V
我们提出了一个针对所有 Max-CSP 的算法与硬度框架,并针对一大类谓词进行了演示。这个框架扩展了 Raghavendra [STOC, 2008]的工作,他曾为几乎可满足的 Max-CSP 展示过类似的结果。我们的框架基于一种新的混合近似算法,该算法综合运用了高斯消元技术(即求解阿贝尔群的线性方程组)和半定式编程松弛法。我们用具有完美完备性的匹配独裁者与准随机测试来补充我们的算法。独裁者与准随机测试的分析基于一个新颖的不变性原理,我们称之为混合不变性原理。我们的混合不变性原理是 Mossel、O'Donnell 和 Oleszkiewicz [Annals of Mathematics, 2010] 的不变性原理的扩展,该原理在 Raghavendra 的工作中发挥了关键作用。混合不变性原理允许人们将离散概率空间上的3-智相关性与瓜西亚空间和阿贝尔群的混合期望超空间联系起来,并且可能具有独立的意义。
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