BASS: Improving I/O Performance for Cloud Block Storage via Byte-Addressable Storage Stack

Proceedings of the Seventh ACM Symposium on Cloud Computing Pub Date : 2016-10-05 DOI:10.1145/2987550.2987557

Hui Lu, Brendan Saltaformaggio, Cong Xu, U. Bellur, Dongyan Xu

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引用次数: 5

Abstract

In an Infrastructure-as-a-Service cloud, cloud block storage offers conventional, block-level storage resources via a storage area network. However, compared to local storage, this multilayered cloud storage model imposes considerable I/O overheads due to much longer I/O path in the virtualized cloud. In this paper, we propose a novel byte-addressable storage stack, BASS, to bridge the addressability gap between the storage and network stacks in cloud, and in return boost I/O performance for cloud block storage. Equipped with byte-addressability, BASS not only avails the benefits of using variable-length I/O requests that avoid unnecessary data transfer, but also enables a highly efficient non-blocking approach that eliminates the blocking of write processes. We have developed a generic prototype of BASS based on Linux storage stack, which is applicable to traditional VMs, lightweight containers and physical machines. Our extensive evaluation with micro-benchmarks, I/O traces and real-world applications demonstrates the effectiveness of BASS, with significantly improved I/O performance and reduced storage network usage.

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BASS:通过字节可寻址存储堆栈提高云块存储的I/O性能

在基础设施即服务云中，云块存储通过存储区域网络提供传统的块级存储资源。然而，与本地存储相比，由于虚拟化云中更长的I/O路径，这种多层云存储模型带来了相当大的I/O开销。在本文中，我们提出了一种新的字节可寻址存储堆栈BASS，以弥合云存储和网络堆栈之间的可寻址性差距，从而提高云块存储的I/O性能。由于具有字节寻址能力，BASS不仅利用了使用可变长度I/O请求的好处，避免了不必要的数据传输，而且还支持一种高效的非阻塞方法，消除了写进程的阻塞。我们开发了一个基于Linux存储栈的BASS通用原型，适用于传统vm、轻量级容器和物理机。我们对微基准测试、I/O跟踪和实际应用进行了广泛的评估，证明了BASS的有效性，显著提高了I/O性能，减少了存储网络的使用。

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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Proceedings of the Seventh ACM Symposium on Cloud Computing

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