与凡人拜占庭人的同步共识

37th Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN'07) Pub Date : 2007-06-25 DOI:10.1109/DSN.2007.91

Josef Widder, G. Gridling, Bettina Weiss, J. Blanquart

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引用次数: 16

摘要

考虑了在拜占庭故障和崩溃故障之间的故障模型下同步系统的一致性问题。对于这些“致命的”拜占庭式错误，我们假设有缺陷的进程在最终崩溃之前采取有限数量的任意步骤。在讨论了该模型合理的几个应用示例之后，我们提出并证明了一个容忍少数错误过程的共识算法是正确的;也就是说，与经典的拜占庭式故障相比，可以容忍更多的故障。我们还证明了该算法对于所需的进程数量是最优的，并且在我们的错误假设下，没有算法可以在有限的轮数中仅使用大多数正确的进程来解决共识。最后，我们考虑更多的限制故障模型，允许进一步减少所需的过程数量。

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Synchronous Consensus with Mortal Byzantines

We consider the problem of reaching agreement in synchronous systems under a fault model whose severity lies between Byzantine and crash faults. For these "mortal" Byzantine faults, we assume that faulty processes take a finite number of arbitrary steps before they eventually crash. After discussing several application examples where this model is justified, we present and prove correct a consensus algorithm that tolerates a minority of faulty processes; i.e., more faults can be tolerated compared to classic Byzantine faults. We also show that the algorithm is optimal regarding the required number of processes and that no algorithm can solve consensus with just a majority of correct processes in a bounded number of rounds under our fault assumption. Finally, we consider more restricted fault models that allow to further reduce the required number of processes.

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来源期刊

37th Annual IEEE/IFIP International Conference on Dependable Systems and Networks (DSN'07)

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