Title :
Fast Genuine Generalized Consensus
Author :
Sutra, Pierre ; Shapiro, Marc
Author_Institution :
INRIA Paris-Rocquencourt, Univ. Pierre et Marie Curie, Paris, France
Abstract :
Consensus (agreeing on a sequence of commands) is central to the operation and performance of distributed systems. A well-known solution to consensus is Fast Paxos. In a recent paper, Lamport enhances Fast Paxos by lever aging the commutativity of concurrent commands. The new primitive, called Generalized Paxos, reduces the collision rate, and thus the latency of Fast Paxos. However if a collision occurs, Generalized Paxos needs four communication steps to recover, which is slower than Fast Paxos. This paper presents FGGC, a novel consensus algorithm that reduces recovery delay when a collision occurs to one. FGGC tolerates f <; n/2 replicas crashes, and during failure-free runs, processes learn commands in two steps if all commands commute, and three steps otherwise; this is optimal. Moreover, as long as no fault occurs, FGGC needs only f + 1 replicas to progress.
Keywords :
distributed processing; software fault tolerance; system recovery; Fast Paxos; Generalized Paxos; Lamport; distributed systems; failure free runs; fast genuine generalized consensus; recovery delay; replicas crashes; Computer crashes; Delay; Fault tolerance; Local area networks; Optimization; Upper bound; Wide area networks; algorithms; consensus; distributed systems; fault-tolerance; reliability;
Conference_Titel :
Reliable Distributed Systems (SRDS), 2011 30th IEEE Symposium on
Conference_Location :
Madrid
Print_ISBN :
978-1-4577-1349-1
DOI :
10.1109/SRDS.2011.38
