On 1-skeleton of the cut polytopes

Abstract

Given an undirected graph G = (V,E), the cut polytope CUT(G) is defined as the convex hull of the incidence vectors of all cuts in G. The 1-skeleton of CUT(G) is a graph whose vertex set is the vertex set of the polytope, and the edge set is the set of geometric edges or one-dimensional faces of the polytope. We study the diameter and the clique number of 1-skeleton of cut polytopes for several classes of graphs. These characteristics are of interest since they estimate the computational complexity of the max-cut problem for certain computational models and classes of algorithms. It is established that while the diameter of the 1-skeleton of a cut polytope does not exceed |V|-1 for any connected graph, the clique number varies significantly depending on the class of graphs. For trees, cacti, and almost trees (2), the clique number is linear in the dimension, whereas for complete bipartite and k-partite graphs, it is superpolynomial.