Non interactive simulation of correlated distributions is decidable

Author(s)

De, Anindya; Neeman, Joe; Mossel, Elchanan

Abstract

A basic problem in information theory is the following: Let P = (X;Y) be an arbitrary distribution where the marginals X and Y are (potentially) correlated. Let Alice and Bob be two players where Alice gets samples fxigi1 and Bob gets samples fyigi1 and for all i, (xi; yi) P. What joint distributions Q can be simulated by Alice and Bob without any interaction? Classical works in information theory by Gacs-Körner and Wyner answer this question when at least one of P or Q is the distribution Eq (Eq is defined as uniform over the points (0; 0) and (1; 1)). However, other than this special case, the answer to this question is understood in very few cases. Recently, Ghazi, Kamath and Sudan showed that this problem is decidable for Q supported on f0; 1gf0; 1g. We extend their result to Q supported on any finite alphabet. Moreover, we show that If Q can be simulated, our algorithm also provides a (non-interactive) simulation protocol. We rely on recent results in Gaussian geometry (by the authors) as well as a new smoothing argument inspired by the method of boosting from learning theory and potential function arguments from complexity theory and additive combinatorics.

Date issued

2018-01

URI

http://hdl.handle.net/1721.1/116201

Department

Massachusetts Institute of Technology. Department of Mathematics

Journal

Proceedings of the Twenty-Ninth Annual ACM-SIAM Symposium on Discrete Algorithms

Publisher

Society for Industrial and Applied Mathematics

Citation

De, Anindya, Elchanan Mossel, and Joe Neeman. “Non Interactive Simulation of Correlated Distributions Is Decidable.” Proceedings of the Twenty-Ninth Annual ACM-SIAM Symposium on Discrete Algorithms (January 2018): 2728–2746.

Version: Final published version

ISSN

0368-4245