Deterministic Distributed Edge-Coloring with Fewer Colors
Data Structures and Algorithms
2017-11-16 v1 Distributed, Parallel, and Cluster Computing
Abstract
We present a deterministic distributed algorithm, in the LOCAL model, that computes a -edge-coloring in polylogarithmic-time, so long as the maximum degree . For smaller , we give a polylogarithmic-time -edge-coloring. These are the first deterministic algorithms to go below the natural barrier of colors, and they improve significantly on the recent polylogarithmic-time -edge-coloring of Ghaffari and Su [SODA'17] and the -edge-coloring of Fischer, Ghaffari, and Kuhn [FOCS'17], positively answering the main open question of the latter. The key technical ingredient of our algorithm is a simple and novel gradual packing of judiciously chosen near-maximum matchings, each of which becomes one of the color classes.
Keywords
Cite
@article{arxiv.1711.05469,
title = {Deterministic Distributed Edge-Coloring with Fewer Colors},
author = {Mohsen Ghaffari and Fabian Kuhn and Yannic Maus and Jara Uitto},
journal= {arXiv preprint arXiv:1711.05469},
year = {2017}
}