LIPIcs.CCC.2019.1.pdf
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Criticality of Regular Formulas
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34th Computational Complexity Conference (CCC 2019)
Series: Leibniz International Proceedings in Informatics (LIPIcs)
Conference: Computational Complexity Conference (CCC) - License:
Creative Commons Attribution 3.0 Unported license
- Publication Date: 2019-07-16
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Acknowledgements
I am grateful to Prahladh Harsha, Shrikanth Srinivasan, Siddharth Bhandari, Tulasi Molli and Or Meir for valuable feedback on a preliminary version of this paper.
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Benjamin Rossman. Criticality of Regular Formulas. In 34th Computational Complexity Conference (CCC 2019). Leibniz International Proceedings in Informatics (LIPIcs), Volume 137, pp. 1:1-1:28, Schloss Dagstuhl – Leibniz-Zentrum für Informatik (2019)
https://doi.org/10.4230/LIPIcs.CCC.2019.1
https://doi.org/10.4230/LIPIcs.CCC.2019.1
Abstract
We define the criticality of a boolean function f : {0,1}^n -> {0,1} as the minimum real number lambda >= 1 such that Pr [DT_{depth}(f|R_p) >= t] <= (p lambda)^t for all p in [0,1] and t in N, where R_p is the p-random restriction and DT_{depth} is decision-tree depth. Criticality is a useful parameter: it implies an O(2^((1- 1/(2 lambda))n)) bound on the decision-tree size of f, as well as a 2^{-Omega(k/lambda)} bound on Fourier weight of f on coefficients of size >= k.
In an unpublished manuscript [Rossmann, 2018], the author showed that a combination of Håstad’s switching and multi-switching lemmas [Håstad, 1986; Håstad, 2014] implies that AC^0 circuits of depth d+1 and size s have criticality at most O(log s)^d. In the present paper, we establish a stronger O(1/d log s)^d bound for regular formulas: the class of AC^0 formulas in which all gates at any given depth have the same fan-in. This result is based on
(i) a novel switching lemma for bounded size (unbounded width) DNF formulas, and
(ii) an extension of (i) which analyzes a canonical decision tree associated with an entire depth-d formula.
As corollaries of our criticality bound, we obtain an improved #SAT algorithm and tight Linial-Mansour-Nisan Theorem for regular formulas, strengthening previous results for AC^0 circuits due to Impagliazzo, Matthews, Paturi [Impagliazzo et al., 2012] and Tal [Tal, 2017]. As a further corollary, we increase from o(log n /(log log n)) to o(log n) the number of quantifier alternations for which the QBF-SAT (quantified boolean formula satisfiability) algorithm of Santhanam and Williams [Santhanam and Williams, 2014] beats exhaustive search.
Subject Classification
ACM Subject Classification
- Theory of computation → Circuit complexity
Keywords
- AC^0 circuits
- formulas
- criticality
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