Add to ORKGWe perform an extensive experimental evaluation of very simple, distributed, randomized algorithms for (Delta + 1)- and so-called Brooks-Vizing vertex colorings, i.e., colorings using considerably fewer than Delta colors. We consider variants of algorithms known from the literature, boosting them with a distributed independent set computation. Our study clearly determines the relative performance of the algorithms w.r.t. the number of communication rounds and the number of colors. The results axe confirmed by all the experiments and instance families. The empirical evidence shows that some algorithms are extremely fast and very effective, thus being amenable to be used in practice
An extremely simple distributed randomized algorithm is presented which with high probability proper...
An extremely simple distributed randomized edge colouring algorithm is given which produces with hig...
Consider an n-vertex graph G = (V,E) of maximum degree ∆, and suppose that each vertex v ∈ V hosts a...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We conduct an experimental analysis of a distributed randomized algorithm for edge coloring simple u...
An extremely simple distributed randomized algorithm is presented which with high probability proper...
An extremely simple distributed randomized edge colouring algorithm is given which produces with hig...
Consider an n-vertex graph G = (V,E) of maximum degree ∆, and suppose that each vertex v ∈ V hosts a...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We perform an extensive experimental evaluation of very simple, distributed, randomized algorithms f...
We conduct an experimental analysis of a distributed randomized algorithm for edge coloring simple u...
An extremely simple distributed randomized algorithm is presented which with high probability proper...
An extremely simple distributed randomized edge colouring algorithm is given which produces with hig...
Consider an n-vertex graph G = (V,E) of maximum degree ∆, and suppose that each vertex v ∈ V hosts a...