A new technique for proving self-stabilizing under the distributed scheduler
SSS'10 Proceedings of the 12th international conference on Stabilization, safety, and security of distributed systems
Space-efficient fault-containment in dynamic networks
SSS'11 Proceedings of the 13th international conference on Stabilization, safety, and security of distributed systems
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This paper presents a new transformation which adds fault-containment properties to any silent self-stabilizing protocol. The transformation features a constant slow-down factor and the fault-gap – that is the minimal time between two containable faults – is constant. The transformation scales well to arbitrarily large systems and avoids global synchronization.