PASS: a simple, efficient parallelism-aware solid state drive I/O scheduler

Hongyan Li, N. Xiong, Ping Huang, Chao Gui
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引用次数: 3

Abstract

Emerging non-volatile memory technologies, especially flash-based solid state drives (SSDs), have increasingly been adopted in the storage stack. They provide numerous advantages over traditional mechanically rotating hard disk drives (HDDs) and have a tendency to replace HDDs. Due to the long existence of HDDs as primary building blocks for storage systems, however, much of the system software has been specially designed for HDD and may not be optimal for non-volatile memory media. Therefore, in order to realistically leverage its superior raw performance to the maximum, the existing upper layer software has to be re-evaluated or re-designed. To this end, in this paper, we propose PASS, an optimized I/O scheduler at the Linux block layer to accommodate the changing trend of underlying storage devices toward flash-based SSDs. PASS takes the rich internal parallelism in SSDs into account when dispatching requests to the device driver in order to achieve high performance. Specifically, it partitions the logical storage space into fixed-size regions (preferably the component package sizes) as scheduling units. These scheduling units are serviced in a round-robin manner and for every chance that the chosen dispatching unit issues only a batch of either read or write requests to suppress the excessive mutual interference. Additionally, the requests are sorted according to their visiting addresses while waiting in the dispatching queues to exploit high sequential performance of SSD. The experimental results with a variety of workloads have shown that PASS outperforms the four Linux off-the-shelf I/O schedulers by a degree of 3% up to 41%, while at the same time it improves the lifetime significantly, due to reducing the internal write amplification.
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PASS:一个简单,高效的并行感知固态驱动器I/O调度器
新兴的非易失性存储技术,特别是基于闪存的固态硬盘(ssd),已经越来越多地应用于存储堆栈中。与传统的机械旋转硬盘驱动器(hdd)相比,它们提供了许多优点,并且有取代hdd的趋势。然而,由于HDD作为存储系统的主要构建块的长期存在,许多系统软件都是专门为HDD设计的,对于非易失性存储介质可能不是最佳的。因此,为了实际地最大限度地利用其优越的原始性能,必须重新评估或重新设计现有的上层软件。为此,在本文中,我们提出了PASS,一种在Linux块层优化的I/O调度器,以适应底层存储设备向基于闪存的ssd的变化趋势。为了实现高性能,在向设备驱动程序调度请求时,PASS考虑了ssd中丰富的内部并行性。具体来说,它将逻辑存储空间划分为固定大小的区域(最好是组件包大小)作为调度单元。这些调度单元以轮询的方式提供服务,并且每次选择的调度单元只发出一批读或写请求,以抑制过度的相互干扰。此外,在调度队列中等待时,根据访问地址对请求进行排序,以利用SSD的高顺序性能。在各种工作负载下的实验结果表明,PASS的性能比四个Linux现成的I/O调度器高出3%到41%,同时由于减少了内部写放大,它显著提高了生命周期。
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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