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CORR
2008
Springer

Self-Stabilizing Pulse Synchronization Inspired by Biological Pacemaker Networks

14 years 16 days ago
Self-Stabilizing Pulse Synchronization Inspired by Biological Pacemaker Networks
We define the "Pulse Synchronization" problem that requires nodes to achieve tight synchronization of regular pulse events, in the settings of distributed computing systems. Pulse-coupled synchronization is a phenomenon displayed by a large variety of biological systems, typically overcoming a high level of noise. Inspired by such biological models, a robust and self-stabilizing pulse synchronization algorithm for distributed computer systems is presented. The algorithm attains near optimal synchronization tightness while tolerating up to a third of the nodes exhibiting Byzantine behavior concurrently. We propose that pulse synchronization algorithms can be suitable for a variety of distributed tasks that require tight synchronization but which can tolerate a bound variation in the regularity of the synchronized pulse invocations.
Ariel Daliot, Danny Dolev, Hanna Parnas
Added 09 Dec 2010
Updated 09 Dec 2010
Type Journal
Year 2008
Where CORR
Authors Ariel Daliot, Danny Dolev, Hanna Parnas
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