Improved Distributed Network Decomposition, Hitting Sets, and Spanners, via Derandomization
Abstract
This paper presents significantly improved deterministic algorithms for some of the key problems in the area of distributed graph algorithms, including network decomposition, hitting sets, and spanners. As the main ingredient in these results, we develop novel randomized distributed algorithms that we can analyze using only pairwise independence, and we can thus derandomize efficiently. As our most prominent end-result, we obtain a deterministic construction for -color -strong diameter network decomposition in rounds. This is the first construction that achieves almost in both parameters, and it improves on a recent line of exciting progress on deterministic distributed network decompositions [Rozho\v{n}, Ghaffari STOC'20; Ghaffari, Grunau, Rozho\v{n} SODA'21; Chang, Ghaffari PODC'21; Elkin, Haeupler, Rozho\v{n}, Grunau FOCS'22].
Keywords
Cite
@article{arxiv.2209.11669,
title = {Improved Distributed Network Decomposition, Hitting Sets, and Spanners, via Derandomization},
author = {Mohsen Ghaffari and Christoph Grunau and Bernhard Haeupler and Saeed Ilchi and Václav Rozhoň},
journal= {arXiv preprint arXiv:2209.11669},
year = {2022}
}