Paper Info
Title
The expressive power of snap-stabilization.
Abstract
A snap-stabilizing algorithm, regardless of the initial configuration of the system, guarantees that it always behaves according to its specification. We consider here the locally shared memory model. In this model, we propose the first snap-stabilizing Propagation of Information with Feedback (PIF) algorithm for rooted networks of arbitrary connected topology which is proven assuming the distributed unfair daemon. Then, we use the proposed PIF algorithm as a key module in designing snap-stabilizing solutions for some fundamental problems in distributed systems, such as Leader Election, Reset, Snapshot, and Termination Detection. Finally, we show that in the locally shared memory model, snap-stabilization is as expressive as self-stabilization by designing a universal transformer to provide a snap-stabilizing version of any algorithm that can be self-stabilized with the transformer of Katz and Perry (1993) 28. Since by definition a snap-stabilizing algorithm is also self-stabilizing, self- and snap-stabilization have the same expressiveness in the locally shared memory model.
Year
DOI
Venue
2016
10.1016/j.tcs.2016.01.036
Theor. Comput. Sci.
Keywords
Field
DocType
Fault-tolerance,Snap-stabilization,Self-stabilization,Propagation of information with feedback,Leader election,Reset,Snapshot
Leader election,Computer science,Transformer,Self-stabilization,Theoretical computer science,Fault tolerance,Snapshot (computer storage),Daemon,Expressive power,Expressivity,Distributed computing
Journal
Volume
Issue
ISSN
626
C
0304-3975
Citations 
PageRank 
References 
1
0.36
26
Authors
5
Name
Order
Citations
PageRank
Alain Cournier128122.07
Ajoy Kumar Datta231740.76
Stéphane Devismes319225.74
Franck Petit473660.02
Vincent Villain554445.77