Title :
Improved Average-Case Lower Bounds for DeMorgan Formula Size
Author :
Komargodski, Ilan ; Raz, Ran ; Tal, Avishay
Author_Institution :
Weizmann Inst. of Sci., Rehovot, Israel
Abstract :
We give an explicit function h: {0, 1}n → {0, 1} such that every deMorgan formula of size n3-o(1)/r2 agrees with h on at most a fraction of 1/2+2-Ω(r) of the inputs. This improves the previous average-case lower bound of Komargodski and Raz (STOC, 2013). Our technical contributions include a theorem that shows that the "expected shrinkage" result of Haastad (SIAM J. Comput., 1998) actually holds with very high probability (where the restrictions are chosen from a certain distribution that takes into account the structure of the formula), combining ideas of both Impagliazzo, Meka and Zuckerman (FOCS, 2012) and Komargodski and Raz. In addition, using a bit-fixing extractor in the construction of h allows us to simplify a major part of the analysis of Komargodski and Raz1.
Keywords :
Boolean algebra; computational complexity; probability; Boolean formula; DeMorgan formula size; average-case lower bound; bit-fixing extractor; computational complexity; probability; Approximation methods; Boolean functions; Computational modeling; Correlation; Indexes; Input variables; Vectors; average-case; bit-fixing extractors; correlation bounds; deMorgan formulas; lower bounds; random restrictions; shrinkage;
Conference_Titel :
Foundations of Computer Science (FOCS), 2013 IEEE 54th Annual Symposium on
Conference_Location :
Berkeley, CA
DOI :
10.1109/FOCS.2013.69
