On Efficient Distributed Deadlock Avoidance with Liveness Guarantees

Cesar Sanchez, Henny B. Sipma, Zohar Manna Christopher Gill,

We present a deadlock avoidance algorithm for distributed systems that guarantees liveness. Deadlock avoidance in distributed systems is a hard problem and general solutions are considered impractical due to the high communication overhead. In previous work, however, we showed that practical solutions exist when all possible sequences of resource requests are known a priori in the form of call graphs; in this case protocols can be constructed that perform safe resource allocation based on local data only, that is, no communication between components is required. While avoiding deadlock, those protocols, however, did not avoid starvation: they guaranteed that some process could always make progress, but did not guarantee that every individual process would always eventually terminate.

In this paper we present a resource allocation mechanism that avoids deadlock and guarantees absence of starvation, without undue loss of concurrency. The only assumption we make is that the local scheduler is fair. We prove the correctness of the algorithm and show how it can be implemented efficiently.

To appear in EMSOFT'06

© Henny Sipma / sipma@cs.stanford.edu
Last modified: Thu Jan 12 14:40:50 PDT 2004