A Novel Simulation Methodology for Accelerating Reliability Assessment of SSDs

2013 IEEE 21st International Symposium on Modelling, Analysis and Simulation of Computer and Telecommunication Systems Pub Date : 2013-08-14 DOI:10.1109/MASCOTS.2013.46

Luyao Jiang, S. Gurumurthi

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Abstract

Reliability is an important factor to consider when designing and deploying SSDs in storage systems. Both the endurance and the retention time of flash memory are affected by the history of low-level stress and recovery patterns in flash cells, which are determined by the workload characteristics, the time during which the workload utilizes the SSD, and the FTL algorithms. Accurately assessing SSD reliability requires simulating several years' of workload behavior, which is time consuming. This paper presents a methodology that uses snapshot-based sampling and clustering techniques to help reduce the simulation time while maintaining high accuracy. The methodology leverages the key insight that most of the large changes in retention time occur early in the lifetime of the SSD, whereas most of the simulation time is spent in its later stages. This allows simulation acceleration to focus on the later stages without significant loss of accuracy. We show that our approach provides an average speed-up of 12X relative to detailed simulation with an error of 3.21% in the estimated mean and 6.42% in the estimated standard deviation of the retention times of the blocks in the SSD.

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一种加速固态硬盘可靠性评估的仿真方法

可靠性是在存储系统中设计和部署ssd时需要考虑的一个重要因素。闪存的持久时间和保留时间都受到闪存单元中的低水平应力历史和恢复模式的影响，这是由工作负载特征、工作负载使用SSD的时间和FTL算法决定的。准确评估SSD可靠性需要模拟数年的工作负载行为，这非常耗时。本文提出了一种方法，使用基于快照的采样和聚类技术来帮助减少模拟时间，同时保持高精度。该方法利用了一个关键的见解，即大多数保留时间的大变化发生在SSD生命周期的早期，而大多数模拟时间都花在其后期阶段。这使得仿真加速可以专注于后期阶段，而不会显著降低精度。我们表明，相对于详细的模拟，我们的方法提供了12倍的平均加速，SSD中块保留时间的估计平均值误差为3.21%，估计标准差误差为6.42%。

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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来源期刊

2013 IEEE 21st International Symposium on Modelling, Analysis and Simulation of Computer and Telecommunication Systems

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