Restricted Max-Min Allocation: Approximation and Integrality Gap
Abstract
Asadpour, Feige, and Saberi proved that the integrality gap of the configuration LP for the restricted max-min allocation problem is at most . However, their proof does not give a polynomial-time approximation algorithm. A lot of efforts have been devoted to designing an efficient algorithm whose approximation ratio can match this upper bound for the integrality gap. In ICALP 2018, we present a -approximation algorithm where can be any positive constant, and there is still a gap of roughly . In this paper, we narrow the gap significantly by proposing a -approximation algorithm where can be any positive constant. The approximation ratio is with respect to the optimal value of the configuration LP, and the running time is where is the number of players and is the number of resources. We also improve the upper bound for the integrality gap of the configuration LP to .
Cite
@article{arxiv.1905.06084,
title = {Restricted Max-Min Allocation: Approximation and Integrality Gap},
author = {Siu-Wing Cheng and Yuchen Mao},
journal= {arXiv preprint arXiv:1905.06084},
year = {2019}
}
Comments
An extended abstract of this full version is to appear in ICALP2019