Fast Distributed Vertex Splitting with Applications

Abstract

We present poly n-round randomized distributed algorithms to compute vertex splittings, a partition of the vertices of a graph into k parts such that a node of degree d(u) has ≈ d(u)/k neighbors in each part. Our techniques can be seen as the first progress towards general poly n-round algorithms for the Lov\'asz Local Lemma. As the main application of our result, we obtain a randomized poly n-round CONGEST algorithm for (1+ε)-edge coloring n-node graphs of sufficiently large constant maximum degree , for any ε>0. Further, our results improve the computation of defective colorings and certain tight list coloring problems. All the results improve the state-of-the-art round complexity exponentially, even in the LOCAL model.