Convergent sequences of dense graphs II. Multiway cuts and statistical physics

Abstract

We consider sequences of graphs $(G_n)$ and define various notions of convergence related to these sequences including “left-convergence,” defined in terms of the densities of homomorphisms from small graphs into $G_n$, and “right-convergence,” defined in terms of the densities of homomorphisms from $G_n$ into small graphs.
We show that right-convergence is equivalent to left-convergence, both for simple graphs $G_n$, and for graphs $G_n$ with nontrivial nodeweights and edgeweights. Other equivalent conditions for convergence are given in terms of fundamental notions from combinatorics, such as maximum cuts and Szemerédi partitions, and fundamental notions from statistical physics, like energies and free energies. We thereby relate local and global properties of graph sequences. Quantitative forms of these results express the relationships among different measures of similarity of large graphs.

Authors

Christian Borgs

Microsoft Research, 1 Memorial Drive, Cambridge, MA 02142

Jennifer T. Chayes

Microsoft Research, 1 Memorial Drive, Cambridge, MA 02142

László Lovász

Department of Computer Science, Eötvös Loránd University, H-1518 Budapest, Hungary

Vera T. Sós

Alfréd Rényi, Institute of Mathematics, Hungarian Academy of Sciences, H-1364 Budapest, Hungary

Katalin Vesztergombi

Department of Computer Science, Eötvös Loránd University, H-1518 Budapest, Hungary