限时有限平均响应时间模型中的领导人选举

2006 12th Pacific Rim International Symposium on Dependable Computing (PRDC'06) Pub Date : 2006-12-18 DOI:10.1109/PRDC.2006.41

C. Fetzer, Martin Süßkraut

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引用次数: 3

摘要

领导者选举是分布式系统的基本问题之一。领导者是一个正确的过程，可以用来协调一组过程的工作。要解决leader选举问题，算法必须实现两个属性:(1)安全性;(2)活动性。在此工作中，我们证明了镇定性对于领导者选举问题是不必要的。我们通过检验FAR模型中解决领导人选举的能力来做到这一点。FAR模型既不假设通信或计算延迟存在上界，也不假设系统稳定。相反，它假设系统处于某种平衡状态:计算不是无限快，通信子系统具有基本的拥塞控制，两个正确进程之间的平均响应时间是有限的。我们的贡献是双重的:(1)我们证明了领导者选举在纯FAR模型中是不可解的，(2)它在具有有限漂移率的本地时钟中是可解的

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Leader Election in the Timed Finite Average Response Time Model

Leader election is one of the fundamental problems in distributed systems. A leader is a correct process that can be used to coordinate the work of a set of processes. An algorithm has to implement two properties to solve the leader election problem: (1) safety, (2) liveness. In this work we show that the stabilization property is not necessary for the leader election problem. We do this by examine the ability to solve leader election in the FAR model. The FAR model does neither assume the existence of an upper bound on the communication or computation delays nor that the system stabilizes. Instead it assumes that the system is in a certain balance: computation is not infinitely fast, the communication subsystem has rudimentary congestion control and the average response time between two correct processes is finite. Our contribution is twofold: (1) we show that leader election is not solvable in the pure FAR model and (2) that it becomes solvable with local clocks with a bounded drift rate

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2006 12th Pacific Rim International Symposium on Dependable Computing (PRDC'06)

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