ROS

Wenrui Yan, Jie Yao, Q. Cao, C. Xie, Hong Jiang
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引用次数: 22

Abstract

The combination of the explosive growth in digital data and the demand to preserve much of these data in the long term has made it imperative to find a more cost-effective way than HDD arrays and a more easily accessible way than tape libraries to store massive amounts of data. While modern optical discs are capable of guaranteeing more than 50-year data preservation without media replacement, individual optical discs’ lack of the performance and capacity relative to HDDs or tapes has significantly limited their use in datacenters. This article presents a Rack-scale Optical disc library System, or ROS in short, which provides a PB-level total capacity and inline accessibility on thousands of optical discs built within a 42U Rack. A rotatable roller and robotic arm separating and fetching discs are designed to improve disc placement density and simplify the mechanical structure. A hierarchical storage system based on SSDs, hard disks, and optical discs is proposed to effectively hide the delay of mechanical operation. However, an optical library file system (OLFS) based on FUSE is proposed to schedule mechanical operation and organize data on the tiered storage with a POSIX user interface to provide an illusion of inline data accessibility. We further optimize OLFS by reducing unnecessary user/kernel context switches inheriting from legacy FUSE framework. We evaluate ROS on a few key performance metrics, including operation delays of the mechanical structure and software overhead in a prototype PB-level ROS system. The results show that ROS stacked on Samba and FUSE as network-attached storage (NAS) mode almost saturates the throughput provided by underlying samba via 10GbE network for external users, as well as in this scenario provides about 53ms file write and 15ms read latency, exhibiting its inline accessibility. Besides, ROS is able to effectively hide and virtualize internal complex operational behaviors and be easily deployable in datacenters.
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数字数据的爆炸性增长和长期保存这些数据的需求相结合,使得必须找到一种比HDD阵列更具成本效益的方式,一种比磁带库更容易访问的方式来存储大量数据。虽然现代光盘能够保证在不更换介质的情况下保存50年以上的数据,但相对于硬盘驱动器或磁带,单个光盘缺乏性能和容量,这大大限制了它们在数据中心的使用。本文介绍了一个机架级光盘库系统(简称ROS),它提供了pb级的总容量和内置在42U机架内的数千张光盘的联机访问。设计了旋转滚轮和机械臂分离取盘,提高了盘的放置密度,简化了机械结构。提出了一种基于ssd、硬盘和光盘的分层存储系统,有效地隐藏了机械操作的延迟。然而,提出了一种基于FUSE的光学库文件系统(OLFS),通过POSIX用户界面在分层存储上调度机械操作和组织数据,以提供内联数据可访问性的假象。通过减少从遗留FUSE框架继承的不必要的用户/内核上下文切换,我们进一步优化了OLFS。我们通过几个关键性能指标来评估ROS,包括机械结构的操作延迟和原型pb级ROS系统的软件开销。结果表明,ROS作为网络附加存储(NAS)模式堆叠在Samba和FUSE上,几乎饱和了底层Samba通过10GbE网络为外部用户提供的吞吐量,并且在此场景中提供了大约53ms的文件写入和15ms的读取延迟,显示了其内联可访问性。此外,ROS能够有效地隐藏和虚拟化内部复杂的操作行为,并且易于在数据中心中部署。
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