Self-stabilizing clock synchronization in the presence of Byzantine faults Academic Article

abstract

• We initiate a study of bounded clock synchronization under a more severe fault model than that proposed by Lamport and Melliar-Smith [1985]. Realistic aspects of the problem of synchronizing clocks in the presence of faults are considered. One aspect is that clock synchronization is an on-going task, thus the assumption that some of the processors never fail is too optimistic. To cope with this reality, we suggest self-stabilizing protocols that stabilize in any (long enough) period in which less than a third of the processors are faulty. Another aspect is that the clock value of each processor is bounded. A single transient fault may cause the clock to reach the upper bound. Therefore, we suggest a bounded clock that wraps around when appropriate.We present two randomized self-stabilizing protocols for synchronizing bounded clocks in the presence of Byzantine processor failures. The first protocol assumes that processors have a common pulse, while the second protocol does not. A new type of distributed counter based on the Chinese remainder theorem is used as part of the first protocol.

authors

• Welch, Jennifer

published proceedings

• JOURNAL OF THE ACM

altmetric score

• 6

author list (cited authors)

• Dolev, S., & Welch, J. L.

citation count

• 98

complete list of authors

• Dolev, S||Welch, JL

publication date

• January 2004

publisher

• Association for Computing Machinery (ACM)  Publisher

published in

• Journal of the ACM  Journal

keywords

• Byzantine Failures
• Clock Synchronization
• Self-stabilization

Digital Object Identifier (DOI)

• 10.1145/1017460.1017463

start page

• 780

end page

• 799

volume

• 51

issue

• 5

URL

• http%3A%2F%2Fdx.doi.org%2F10.1145%2F1017460.1017463