十亿文件系统（BfFS）：比较

arXiv - CS - Performance Pub Date : 2024-08-03 DOI:arxiv-2408.01805

Sohail Shaikh

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引用次数: 0

摘要

由于需要快速处理的数据量正以指数级速度增长，因此数据需要在非常靠近计算设备的地方提供，以减少传输延迟。基于这种需求，本地文件系统正受到密切关注，以了解其内部工作原理、性能，更重要的是了解其局限性。本研究分析了几种流行的 Linux 文件系统：EXT4、XFS、BtrFS、ZFS 和 F2FS。该研究还采集并分析了读/写吞吐量、存储块使用情况、磁盘空间利用率和开销，以及对系统设计师和集成商有用的其他指标。此外，该研究还探讨了其他方面的影响，如在创建大量文件和文件夹期间和之后文件系统性能的下降。

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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Billion-files File Systems (BfFS): A Comparison

As the volume of data being produced is increasing at an exponential rate that needs to be processed quickly, it is reasonable that the data needs to be available very close to the compute devices to reduce transfer latency. Due to this need, local filesystems are getting close attention to understand their inner workings, performance, and more importantly their limitations. This study analyzes few popular Linux filesystems: EXT4, XFS, BtrFS, ZFS, and F2FS by creating, storing, and then reading back one billion files from the local filesystem. The study also captured and analyzed read/write throughput, storage blocks usage, disk space utilization and overheads, and other metrics useful for system designers and integrators. Furthermore, the study explored other side effects such as filesystem performance degradation during and after these large numbers of files and folders are created.

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arXiv - CS - Performance

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