An Efficient Commit Protocol Exploiting Primary-Backup Placement in a Distributed Storage System

2006 12th Pacific Rim International Symposium on Dependable Computing (PRDC'06) Pub Date : 2006-12-18 DOI:10.1109/PRDC.2006.17

Xiangyong Ouyang, Tomohiro Yoshihara, H. Yokota

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引用次数: 4

Abstract

Advanced data engineering applications require a large-scale storage system that is both scalable and dependable. In such a system, an atomic commit protocol becomes imperative to ensure the consistency and atomicity of transactions. In this paper we present a new commit protocol, BA-1.5PC, which is well tailored to such distributed storage environments as autonomous disks that use a primary-backup storage schema. The protocol achieves an efficient commit process while also guaranteeing a high dependability by combining several approaches: (1) a low-overhead log mechanism that eliminates blocking disk I/Os, (2) removing the voting phase from commit processing to gain a faster commit process, and (3) a primary-backup assisted recovery strategy to enhance dependability in the presence of possible failures, so that a master failure in the decision phase are not block prepared cohorts of a transaction. Experiments were carried out on a trial version of an autonomous disks system to verify its efficiency. The results indicate that this protocol significantly outperforms several well-known commit protocols in terms of transaction throughput

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分布式存储系统中利用主备份位置的高效提交协议

高级数据工程应用需要大规模、可扩展、可靠的存储系统。在这样的系统中，原子提交协议对于确保事务的一致性和原子性至关重要。在本文中，我们提出了一种新的提交协议BA-1.5PC，它非常适合分布式存储环境，如使用主备份存储模式的自治磁盘。该协议通过结合几种方法实现了高效的提交过程，同时还保证了高可靠性:(1)消除阻塞磁盘I/ o的低开销日志机制，(2)从提交处理中删除投票阶段以获得更快的提交过程，以及(3)主备份辅助恢复策略以增强存在可能故障时的可靠性，以便决策阶段的主故障不是块准备的事务队列。在一个自主磁盘系统的试验版本上进行了实验，以验证其效率。结果表明，该协议在事务吞吐量方面明显优于几种知名的提交协议

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

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