Binary Constraint System Games and Locally Commutative Reductions
Abstract
A binary constraint system game is a two-player one-round non-local game defined by a system of Boolean constraints. The game has a perfect quantum strategy if and only if the constraint system has a quantum satisfying assignment [R. Cleve and R. Mittal, arXiv:1209.2729]. We show that several concepts including the quantum chromatic number and the Kochen-Specker sets that arose from different contexts fit naturally in the binary constraint system framework. The structure and complexity of the quantum satisfiability problems for these constraint systems are investigated. Combined with a new construct called the commutativity gadget for each problem, several classic NP-hardness reductions are lifted to their corresponding quantum versions. We also provide a simple parity constraint game that requires EPR pairs in perfect strategies where is the number of variables in the constraint system.
Keywords
Cite
@article{arxiv.1310.3794,
title = {Binary Constraint System Games and Locally Commutative Reductions},
author = {Zhengfeng Ji},
journal= {arXiv preprint arXiv:1310.3794},
year = {2013}
}
Comments
21 pages, 6 figures; v2 contains an explicit proof of Lemma 4, a theorem on HORN-SAT* and several extended discussions