Perlmutter 35 PB ClusterStor E1000 全闪存文件系统的架构和性能

IF 1.5 4区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING
Glenn K. Lockwood, Alberto Chiusole, Lisa Gerhardt, Kirill Lozinskiy, David Paul, Nicholas J. Wright
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引用次数: 0

摘要

摘要NERSC的最新系统Perlmutter采用了基于HPE Cray ClusterStor E1000的35 PB全闪存Lustre文件系统。我们介绍了该系统的架构、早期性能数据以及该架构特有的性能注意事项。我们通过底层 Lustre 测试展示了 E1000 OSS 的性能,这些测试在 OST 和 LNet 层面实现了超过 90% 的 SSD 理论带宽。我们还展示了传统 I/O 性能(批量同步带宽峰值)和生产计算所特有的非最佳工作负载(随机偏移的小型不连贯 I/O)的端到端性能,并将其与 NERSC 以前的 Cori 系统进行比较,以说明 Perlmutter 实现了突发缓冲区的性能和从头文件系统的弹性。最后,我们讨论了全闪存 Lustre 所特有的性能考虑因素,并介绍了用户和高性能计算设施调整 I/O 模式和操作以最佳利用此类架构的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Architecture and performance of Perlmutter's 35 PB ClusterStor E1000 all-flash file system

NERSC's newest system, Perlmutter, features a 35 PB all-flash Lustre file system built on HPE Cray ClusterStor E1000. We present its architecture, early performance figures, and performance considerations unique to this architecture. We demonstrate the performance of E1000 OSSes through low-level Lustre tests that achieve over 90% of the theoretical bandwidth of the SSDs at the OST and LNet levels. We also show end-to-end performance for both traditional dimensions of I/O performance (peak bulk-synchronous bandwidth) and nonoptimal workloads endemic to production computing (small, incoherent I/Os at random offsets) and compare them to NERSC's previous system, Cori, to illustrate that Perlmutter achieves the performance of a burst buffer and the resilience of a scratch file system. Finally, we discuss performance considerations unique to all-flash Lustre and present ways in which users and HPC facilities can adjust their I/O patterns and operations to make optimal use of such architectures.

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来源期刊
Concurrency and Computation-Practice & Experience
Concurrency and Computation-Practice & Experience 工程技术-计算机:理论方法
CiteScore
5.00
自引率
10.00%
发文量
664
审稿时长
9.6 months
期刊介绍: Concurrency and Computation: Practice and Experience (CCPE) publishes high-quality, original research papers, and authoritative research review papers, in the overlapping fields of: Parallel and distributed computing; High-performance computing; Computational and data science; Artificial intelligence and machine learning; Big data applications, algorithms, and systems; Network science; Ontologies and semantics; Security and privacy; Cloud/edge/fog computing; Green computing; and Quantum computing.
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