Configuring and Coordinating End-to-End QoS for Emerging Storage Infrastructure

IF 0.7 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS
Jit Gupta, Krishna Kant, Amitangshu Pal, Joyanta Biswas
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引用次数: 0

Abstract

Modern data center storage systems are invariably networked to allow for consolidation and flexible management of storage. They also include high performance storage devices based on flash or other emerging technologies, generally accessed through low-latency and high throughput protocols such as NVMe (or its derivatives) carried over the network. With the increasing complexity and data-centric nature of the applications, properly configuring the quality of service (QoS) for the storage path has become crucial for ensuring the desired application performance. Such QoS is substantially influenced by the QoS in the network path, in the access protocol, and in the storage device. In this paper, we define a new transport level QoS mechanism for the network segment and demonstrate how it can augment and coordinate with the access level QoS mechanism defined for NVMe, and a similar QoS mechanism configured in the device. We show that the transport QoS mechanism not only provides the desired QoS to different classes of storage accesses but is also able to protect the access to the shared persistent memory (PM) devices located along with the storage but requiring much lower latency than storage. We demonstrate that a proper coordinated configuration of the 3 QoS’es on the path is crucial to achieve the desired differentiation depending on where the bottlenecks appear.
为新兴存储基础设施配置和协调端到端QoS
现代数据中心存储系统都是网络化的,以便对存储进行整合和灵活的管理。它们还包括基于闪存或其他新兴技术的高性能存储设备,通常通过网络传输的低延迟和高吞吐量协议(如NVMe(或其衍生产品))进行访问。随着应用程序的复杂性和以数据为中心的特性的增加,正确配置存储路径的服务质量(QoS)对于确保所需的应用程序性能变得至关重要。这种QoS实质上受到网络路径、访问协议和存储设备中的QoS的影响。在本文中,我们为网段定义了一种新的传输级QoS机制,并演示了它如何与为NVMe定义的访问级QoS机制以及设备中配置的类似QoS机制进行增强和协调。我们表明,传输QoS机制不仅为不同类型的存储访问提供所需的QoS,而且还能够保护对与存储一起的共享持久内存(PM)设备的访问,但需要比存储低得多的延迟。我们证明,根据瓶颈出现的位置,路径上3个QoS的适当协调配置对于实现所需的差异化至关重要。
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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来源期刊
CiteScore
2.10
自引率
0.00%
发文量
9
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