LLLFS:用于持久内存的低延迟库文件系统

K. Matsuzawa, Takahiro Shinagawa
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引用次数: 0

摘要

持久内存(PM)是一种很有前途的存储介质,可以减少文件访问延迟,这对现代应用程序至关重要。不幸的是,为慢速媒体设计的传统存储堆栈严重损害了PM的低延迟访问能力。我们提出LLLFS,一个用于PM的低延迟库文件系统。根据对许多现代应用程序只访问其目录下的文件的观察,LLLFS将文件数据和元数据存储在PM上的进程本地文件系统中,以便在用户空间中完全访问文件,而无需系统调用和同步。llfs保持POSIX兼容性,同时允许特定于应用程序的参数调优。实验结果表明,LLLFS在数据库更新操作方面比传统文件系统和pm优化的文件系统分别高出56.0%和37.7%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
LLLFS: A Low-latency Library File System for Persistent Memory
Persistent memory (PM) is a promising storage medium for reducing file access latency, which is critical for modern applications. Unfortunately, traditional storage stacks designed for slow media significantly impair the low-latency access capability of PM. We propose LLLFS, a low-latency library file system for PM. Based on the observation that many modern applications access files under their directories exclusively, LLLFS stores both file data and metadata in a process-local file system on PM so that files are fully accessible in user space without system calls and synchronization. LLLFS keeps POSIX compatibility while allowing application-specific parameter tuning. Experimental results demonstrated that LLLFS outperformed conventional and PM-optimized file systems by 56.0% and 37.7%, respectively, in database update operations.
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