Title :
Optimal distributed t-resilient election in complete networks
Author :
Itai, Alon ; Kutten, Shay ; Wolfstahl, Yaron ; Zaks, Shmuel
Author_Institution :
Dept. of Comput. Sci., Technion, Haifa, Israel
fDate :
4/1/1990 12:00:00 AM
Abstract :
The problem of distributed leader election in an asynchronous complete network, in the presence of faults that occurred prior to the execution of the election algorithm, is discussed. Failures of this type are encountered, for example, during a recovery from a crash in the network. For a network with n processors, k of which start the algorithm that uses at most O(n log k +n+kt) messages is presented and shown to be optimal. An optimal algorithm for the case where the identities of the neighbors are known is also presented. It is noted that the order of the message complexity of a t-resilient algorithm is not always higher than that of a nonresilient one. The t-resilient algorithm is a systematic modification of an existing algorithm for a fault-free network
Keywords :
computer networks; distributed processing; fault tolerant computing; software engineering; complete networks; distributed leader election; election algorithm; fault-free network; message complexity; optimal distributed t-resilient election; Bidirectional control; Computer crashes; Computer science; Costs; Distributed algorithms; Helium; Intelligent networks; Nominations and elections; Routing;
Journal_Title :
Software Engineering, IEEE Transactions on
