English

On the Probabilistic Degree of an $n$-variate Boolean Function

Computational Complexity 2021-07-08 v1

Abstract

Nisan and Szegedy (CC 1994) showed that any Boolean function f:{0,1}n{0,1}f:\{0,1\}^n\rightarrow \{0,1\} that depends on all its input variables, when represented as a real-valued multivariate polynomial P(x1,,xn)P(x_1,\ldots,x_n), has degree at least lognO(loglogn)\log n - O(\log \log n). This was improved to a tight (lognO(1))(\log n - O(1)) bound by Chiarelli, Hatami and Saks (Combinatorica 2020). Similar statements are also known for other Boolean function complexity measures such as Sensitivity (Simon (FCT 1983)), Quantum query complexity, and Approximate degree (Ambainis and de Wolf (CC 2014)). In this paper, we address this question for \emph{Probabilistic degree}. The function ff has probabilistic degree at most dd if there is a random real-valued polynomial of degree at most dd that agrees with ff at each input with high probability. Our understanding of this complexity measure is significantly weaker than those above: for instance, we do not even know the probabilistic degree of the OR function, the best-known bounds put it between (logn)1/2o(1)(\log n)^{1/2-o(1)} and O(logn)O(\log n) (Beigel, Reingold, Spielman (STOC 1991); Tarui (TCS 1993); Harsha, Srinivasan (RSA 2019)). Here we can give a near-optimal understanding of the probabilistic degree of nn-variate functions ff, \emph{modulo} our lack of understanding of the probabilistic degree of OR. We show that if the probabilistic degree of OR is (logn)c(\log n)^c, then the minimum possible probabilistic degree of such an ff is at least (logn)c/(c+1)o(1)(\log n)^{c/(c+1)-o(1)}, and we show this is tight up to (logn)o(1)(\log n)^{o(1)} factors.

Keywords

Cite

@article{arxiv.2107.03171,
  title  = {On the Probabilistic Degree of an $n$-variate Boolean Function},
  author = {Srikanth Srinivasan and S. Venkitesh},
  journal= {arXiv preprint arXiv:2107.03171},
  year   = {2021}
}

Comments

To appear in the conference RANDOM 2021

R2 v1 2026-06-24T03:57:50.114Z