Approximate load balancing on dynamic and asynchronous networks

Abstract

This paper presents a simple local algorithm for load balancing in a distributed network. The algorithm makes no assumption about the structure of the network. It can be executed on a synchronous network with fixed topology, a synchronous network with dynamically changing topology, or an asynchronous network. It works quickly and balances well when the network has an expansion property. In particular, we show that in ann-node network with maximumdegree d whose live edges, at every time step, form a -expander, the algorithm will balance the load to within an additive O(d logn= ) term in O( log(n )= ) time, where is the initial imbalance. The algorithm improves upon previous approaches that yield O(n) time bounds in dynamic and asynchronous networks.