Directed Steiner Tree and the Lasserre Hierarchy

Abstract

The goal for the Directed Steiner Tree problem is to find a minimum cost tree in a directed graph G=(V,E) that connects all terminals X to a given root r. It is well known that modulo a logarithmic factor it suffices to consider acyclic graphs where the nodes are arranged in L <= log |X| levels. Unfortunately the natural LP formulation has a |X|(1/2) integrality gap already for 5 levels. We show that for every L, the O(L)-round Lasserre Strengthening of this LP has integrality gap O(L log |X|). This provides a polynomial time |X|epsilon-approximation and a O(log3 |X|) approximation in O(nlog |X|) time, matching the best known approximation guarantee obtained by a greedy algorithm of Charikar et al.