A distributed storage system allowing application users to reserve I/O performance in advance for achieving SLA

Y. Tanimura, Hidetaka Koie, T. Kudoh, I. Kojima, Yoshio Tanaka
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引用次数: 17

Abstract

Performance assurance has become an important aspect in grid and cloud computing which provide services over the Internet, and Service Level Agreements (SLA) are frequently contracted between users and the service providers. However, the I/O performance of the storage or data access service is still provided on a best effort basis. Some distributed storage systems implement performance reservation, but the reservation is implemented inside of the storage and works in an adaptive manner. In order to promise performance guarantees to users, we propose a distributed storage system allowing application users to explicitly make an advanced and time-based reservation for I/O access and storage space. Thus the requested performance is guaranteed during the reserved time. This paper describes our proposed concept and the design architecture of the storage system, including the reservation interface, resource management and I/O control frameworks. Then it explains our prototype which implements a simple resource allocation strategy and I/O control of the storage network along the design. The experiment results using the prototype are also shown. They indicate that the reservation cost entailed only a low performance impact on users, and that the requested performance was achieved by the reservation feature.
分布式存储系统,允许应用用户提前预留I/O性能,实现SLA
性能保证已经成为在互联网上提供服务的网格和云计算中的一个重要方面,服务水平协议(SLA)经常在用户和服务提供商之间签订。但是,存储或数据访问服务的I/O性能仍然是尽力而为的。有些分布式存储系统实现了性能预留,但这种预留是在存储内部实现的,并且以自适应的方式工作。为了向用户承诺性能保证,我们提出了一种分布式存储系统,允许应用程序用户显式地对I/O访问和存储空间进行高级和基于时间的预订。因此,在预留时间内保证所要求的性能。本文描述了我们提出的存储系统的概念和设计体系结构,包括预留接口、资源管理和I/O控制框架。然后介绍了我们的原型,实现了一个简单的资源分配策略和存储网络的I/O控制。最后给出了样机的实验结果。它们表明,预订成本对用户的性能影响很小,所要求的性能是通过预订特性实现的。
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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