Constrained Multi-user Multi-server Max-Min Fair Queuing

Abstract

In this paper, a multi-user multi-server queuing system is studied in which each user is constrained to get service from a subset of servers. In the studied system, rate allocation in the sense of max-min fairness results in multi-level fair rates. To achieve such fair rates, we propose CM4FQ algorithm. In this algorithm users are chosen for service on a packet by packet basis. The priority of each user i to be chosen at time t is determined based on a parameter known as service tag (representing the amount of work counted for user i till time t). Hence, a free server will choose to serve an eligible user with the minimum service tag. Based on such simple selection criterion, CM4FQ aims at guaranteed fair throughput for each demanding user without explicit knowledge of each server service rate. We argue that CM4FQ can be applied in a variety of practical queuing systems specially in mobile cloud computing architecture.