Chorded Cycle Facets of Clique Partitioning Polytopes

The $q$-chorded $k$-cycle inequalities are a class of valid inequalities for the clique partitioning polytope. It is known that for $q = 2$ or $q = \tfrac{k-1}{2}$, these inequalities induce facets of the clique partitioning polytope if and only if $k$ is odd. We solve the open problem of characterizing such facets for arbitrary $k$ and $q$. More specifically, we prove that the $q$-chorded $k$-cycle inequalities induce facets of the clique partitioning polytope if and only if two conditions are satisfied: $k = 1$ mod $q$, and if $k=3q+1$ then $q=3$ or $q$ is even. This establishes the existence of many facets induced by $q$-chorded $k$-cycle inequalities beyond those previously known.