Salvaging Runtime Bad Blocks by Skipping Bad Pages for Improving SSD Performance

2022 Design, Automation & Test in Europe Conference & Exhibition (DATE) Pub Date : 2022-03-14 DOI:10.23919/DATE54114.2022.9774677

Junoh Moon, Mincheol Kang, Wonyoung Lee, Soontae Kim

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引用次数: 2

Abstract

Recent research has revealed that runtime bad blocks are found in the early lifespan of solid state drives. The reduction in overprovisioning space due to runtime bad blocks may well have a negative impact on performance as it weakens the chances of selecting a better victim block during garbage collection. Moreover, previous studies focused on reusing worn-out bad blocks exceeding a program/erase cycle threshold, leaving the problem of runtime bad blocks unaddressed. Based on this observation, we present a salvation scheme for runtime bad blocks. This paper reveals that these blocks can be identified when a page write fails at runtime. Furthermore, we introduce a method to salvage functioning pages from runtime bad blocks. Consequently, the loss in the overprovisioning space can be minimized even after the occurrence of runtime bad blocks. Experimental results show a 26.3% reduction in latency and a 25.6% increase in throughput compared to the baseline at a conservative bad block ratio of 0.45%. Additionally, our results confirm that almost no overhead was observed.

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通过跳过坏页来挽救运行时坏块以提高SSD性能

最近的研究表明，运行时坏块是在固态硬盘的早期寿命中发现的。由于运行时坏块而导致的过度供应空间的减少很可能对性能产生负面影响，因为它削弱了在垃圾收集期间选择更好的受害者块的机会。此外，以前的研究侧重于重用超过程序/擦除周期阈值的磨损坏块，而没有解决运行时坏块的问题。基于这一观察，我们提出了一个运行时坏块的拯救方案。本文揭示了当页面在运行时写入失败时，可以识别这些块。此外，我们还引入了一种从运行时坏块中回收功能页面的方法。因此，即使在出现运行时坏块之后，也可以最小化过度配置空间的损失。实验结果表明，与基线相比，在保守的坏块比率为0.45%时，延迟减少了26.3%，吞吐量增加了25.6%。此外，我们的结果证实几乎没有观察到开销。

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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2022 Design, Automation & Test in Europe Conference & Exhibition (DATE)

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