利用并行状态机复制实现区块链的性能研究

2021 10th Latin-American Symposium on Dependable Computing (LADC) Pub Date : 2021-11-01 DOI:10.1109/ladc53747.2021.9672588

Aldenio Burgos, E. Alchieri, F. Dotti

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引用次数: 1

摘要

状态机复制(SMR)和区块链具有相同的目标，即在一组副本中保持一致的状态复制。然而，这些技术之间存在一些微妙的差异。特别是，使用SMR框架作为构建块来实现区块链，由于传统SMR的顺序执行模型，即所有事务都是顺序执行的，因此会显著影响性能。这项工作提出了一个关于使用并行SMR (PSMR)来实现区块链的案例研究。在PSMR中，一些事务可以并行执行，例如那些发送到不同帐户的事务。更具体地说，我们实现了一个支付系统，并进行了一组实验，以表明，通过使用PSMR，有可能绕过前面描述的性能限制，即，与传统的顺序SMR相比，最终系统的性能大幅提高，即高达22倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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On the Performance of Using Parallel State Machine Replication to Implement Blockchains

State Machine Replication (SMR) and blockchains share the same goal of keeping a consistent state replicated across a set of replicas. However, there are some subtle differences between these techniques. In particular, using a SMR framework as a building block to implement blockchains significantly impacts performance due to the sequential execution model of traditional SMRs, i.e., all transactions are sequentially executed. This work presents a case study about the use of a parallel SMR (PSMR) to implement blockchains. In a PSMR, some transactions can be executed in parallel, for instance those addressed to different accounts. More specifically, we implemented a payment system and conducted a set of experiments to show that, by using a PSMR, it is possible to circumvent the previously described performance limitation, i.e., the performance of the resulting system increases substantially, i.e., up to 22×, when compared to a traditional sequential SMR.

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2021 10th Latin-American Symposium on Dependable Computing (LADC)

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