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Communication Dans Un Congrès Année : 2019

Distributed coloring of graphs with an optimal number of colors

Résumé

This paper studies sufficient conditions to obtain efficient distributed algorithms coloring graphs optimally (i.e. with the minimum number of colors) in the LOCAL model of computation. Most of the work on distributed vertex coloring so far has focused on coloring graphs of maximum degree $\Delta$ with at most $\Delta+1$ colors (or $\Delta$ colors when some simple obstructions are forbidden). When $\Delta$ is a sufficiently large and $k\ge \Delta-k_\Delta+1$, for some integer $k_\Delta\approx \sqrt{\Delta}-2$, we give a distributed algorithm that given a $k$-colorable graph $G$ of maximum degree $\Delta$, finds a $k$-coloring of $G$ in $\min\{O(\Delta^\lambda\log n), 2^{O(\log \Delta+\sqrt{\log \log n})}\}$ rounds w.h.p., for any $\lambda>0$. The lower bound $\Delta-k_\Delta+1$ is best possible in the sense that for infinitely many values of $\Delta$, we prove that when $\chi(G)\le \Delta -k_\Delta$, finding an optimal coloring of $G$ requires $\Omega(n)$ rounds. Our proof is a light adaptation of a remarkable result of Molloy and Reed, who proved that for $\Delta$ large enough, for any $k\ge \Delta-k_\Delta$ deciding whether $\chi(G)\le k$ is in P, while Embden-Weinert et al. proved that for $k\le \Delta-k_\Delta-1$, the same problem is NP-complete. Note that the sequential and distributed thresholds differ by one. Our second result covers a larger range of parameters, but gives a weaker bound on the number of colors: For any sufficiently large $\Delta$, and $\Omega(\log \Delta)\le d \le \Delta/100$, we prove that every graph of maximum degree $\Delta$ and clique number at most $\Delta-d$ can be efficiently colored with at most $\Delta-\epsilon d$ colors, for some absolute constant $\epsilon >0$, with a randomized algorithm running w.h.p. in $\min\{O(\log_\Delta n),2^{O(\log \Delta+\sqrt{\log \log n})}\}$ rounds.

Dates et versions

hal-01963040 , version 1 (21-12-2018)

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Étienne Bamas, Louis Esperet. Distributed coloring of graphs with an optimal number of colors. 36th International Symposium on Theoretical Aspects of Computer Science (STACS'19), Mar 2019, Berlin, Germany. ⟨hal-01963040⟩
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