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引用次数: 1
摘要
开放通道ssd由于其可预测的延迟、高效的数据放置和I/O调度等优点而被广泛研究。目前,Linux内核包括pblk (the Physical Block Device),这是一个支持Open-Channel ssd的主机FTL。此外,最近有研究将pblk的单线程架构扩展到多线程架构:MT-FTL和QBLK。然而,pblk和最近的研究都没有考虑fsync延迟。但是,由于fsync系统调用是同步执行的,因此对系统的性能有很大的影响。在本文中,我们提出了FA-FTL,它是一种考虑fsync延迟的主机FTL。实验表明,FA-FTL比pblk高141%,比MT-FTL高119%。
fsync-aware Multi-Buffer FTL for Improving the fsync Latency with Open-Channel SSDs
Open-Channel SSDs are widely studied because of their advantages such as predictable latency, efficient data placement, and I/O scheduling. Currently, the Linux kernel includes pblk (The Physical Block Device), a host FTL that supports Open-Channel SSDs. In addition, there are recent studies that expand the single-threaded architecture of pblk to multi-threaded architecture: MT-FTL and QBLK. However, both pblk and recent studies were designed without considering fsync latency. However, since the fsync system call is performed synchronously, has a great effect on the performance of the system. In this paper, we propose FA-FTL, which is a host FTL considering fsync latency. Experiments show that FA-FTL is 141% higher than pblk and 119% higher than MT-FTL.
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