Title :
Easily Rendering Token-Ring Algorithms of Distributed and Parallel Applications Fault Tolerant
Author :
Arantes, Luciana ; Sopena, J.
Author_Institution :
LIP6, Univ. de Paris 6, Paris, France
Abstract :
We propose in this paper a new algorithm that, when called by existing token ring-based algorithms of parallel and distributed applications, easily renders the token tolerant to losses in presence of node crashes. At most k consecutive node crashes are tolerated in the ring. Our algorithm scales very well since a node monitors the liveness of at most k other nodes and neither a global election algorithm nor broadcast primitives are used to regenerate a new token. It is thus very effective in terms of latency cost. Finally, a study of the probability of having at most k consecutive node crashes in the presence of f failures and a discussion of how to extend our algorithm to other logical topologies are also presented.
Keywords :
parallel algorithms; probability; rendering (computer graphics); software fault tolerance; distributed application fault tolerant; global election algorithm; k consecutive node; latency cost; logical topologies; parallel application fault tolerant; probability; token ring-based algorithms; Computer crashes; Fault tolerance; Fault tolerant systems; Monitoring; Nominations and elections; Silicon; distributed algorithm; fault tolerance; scalability; token-based;
Conference_Titel :
Computer Architecture and High Performance Computing (SBAC-PAD), 2013 25th International Symposium on
Conference_Location :
Porto de Galinhas
Print_ISBN :
978-1-4799-2927-6
DOI :
10.1109/SBAC-PAD.2013.11
