大规模企业存储系统中的轻量级存储错误预测

SC20: International Conference for High Performance Computing, Networking, Storage and Analysis Pub Date : 2020-11-01 DOI:10.1109/SC41405.2020.00068

Amirhessam Yazdi, Xing Lin, Lei Yang, Feng Yan

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引用次数: 5

摘要

随着规模和复杂性的快速增长，当今的企业存储系统需要处理大量的错误。现有的主动方法主要集中在使用SMART测量训练的机器学习技术上。然而，这种方法在实践中使用起来通常是昂贵的，并且只能应用于有限规模的有限类型的错误。我们从87个部署的NetApp-ONTAP系统中收集了超过2300万个存储事件，这些系统管理了14,371个磁盘，历时两年，并提出了一种轻量级的无需训练的存储错误预测方法SEFEE。SEFEE采用张量分解直接分析存储错误事件日志，对所有存储节点的所有错误类型进行在线错误预测。SEFEE探索隐藏的时空信息，这些信息深嵌在存储系统的全局尺度中，以最小的预测开销实现破纪录的误差预测精度。

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SEFEE: Lightweight Storage Error Forecasting in Large-Scale Enterprise Storage Systems

With the rapid growth in scale and complexity, today’s enterprise storage systems need to deal with significant amounts of errors. Existing proactive methods mainly focus on machine learning techniques trained using SMART measurements. However, such methods are usually expensive to use in practice and can only be applied to a limited types of errors with a limited scale. We collected more than 23-million storage events from 87 deployed NetApp-ONTAP systems managing 14,371 disks for two years and propose a lightweight training-free storage error forecasting method SEFEE. SEFEE employs Tensor Decomposition to directly analyze storage error-event logs and perform online error prediction for all error types in all storage nodes. SEFEE explores hidden spatio-temporal information that is deeply embedded in the global scale of storage systems to achieve record breaking error forecasting accuracy with minimal prediction overhead.

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SC20: International Conference for High Performance Computing, Networking, Storage and Analysis

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