在容错云环境中进行经济高效的副本管理

Bart Spinnewyn, J. F. Botero, Steven Latré
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引用次数: 6

摘要

云提供商依靠容错机制在尽力而为的基础设施上实现高可用性服务。服务复制限制了故障造成的数据丢失,但要付出额外的操作成本。最近,随着移动边缘计算的出现,通过整合(非常)不可靠和资源受限的设备,云环境变得越来越异构和动态。在本文中,我们研究了如何为特定云环境上的给定服务设计经济上可行的复制策略。以前的工作要么专注于寻找无状态服务的复制策略,忽略恢复过程和相关故障,要么考虑系统动态,而缺乏服务水平协议(SLA)感知。我们将副本管理问题视为运行时收益最大化问题。我们提出的动态规划(DP)算法可以在应用程序生命周期内生成最优复制策略。通过广泛的模拟,我们证明了我们的算法在广泛的云和sla条件下显着提高了提供商的收入,并使其策略适应不断变化的操作条件。结果表明,将动态故障模型与sla感知相结合可以产生有利可图的复制策略,即使在提供商当前出现亏损的情况下也是如此。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cost-effective replica management in fault-tolerant cloud environments
Cloud providers rely on fault-tolerance mechanisms to realize high-availability services on best-effort infrastructure. Service replication limits the data-loss caused by failure, at the expense of additional operational costs. Recently, with the advent of Mobile Edge Computing, cloud environments are becoming increasingly heterogeneous and dynamic, by the incorporation of (very) unreliable and resource-constrained devices. In this paper, we investigate how to devise an economically viable replication strategy, for a given service on a particular cloud environment. Previous work either focused on finding replication strategies for stateless services, ignoring recovery processes and correlated failures, or considered system dynamics, while lacking Service Level Agreement (SLA)-awareness. We approach the replica management problem as a run-time revenue maximization problem. Our proposed Dynamic Programming (DP) algorithm can generate the optimal replication strategy over the application lifetime. Through extensive simulations, we show that our algorithm significantly improves provider revenue over a wide range of cloud- and SLA-conditions, and adapt its strategy to evolving operating conditions. The results show that coupling dynamic failure models with SLA-awareness can lead to profitable replication strategies, even in cases where providers currently turn a loss.
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