Marching-Based Wear-Leveling for PCM-Based Storage Systems

Hung-Sheng Chang, Yuan-Hao Chang, P. Hsiu, Tei-Wei Kuo, Hsiang-Pang Li
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引用次数: 29

Abstract

Improving the performance of storage systems without losing the reliability and sanity/integrity of file systems is a major issue in storage system designs. In contrast to existing storage architectures, we consider a PCM-based storage architecture to enhance the reliability of storage systems. In PCM-based storage systems, the major challenge falls on how to prevent the frequently updated (meta)data from wearing out their residing PCM cells without excessively searching and moving metadata around the PCM space and without extensively updating the index structures of file systems. In this work, we propose an adaptive wear-leveling mechanism to prevent any PCM cell from being worn out prematurely by selecting appropriate data for swapping with constant search/sort cost. Meanwhile, the concept of indirect pointers is designed in the proposed mechanism to swap data without any modification to the file system's indexes. Experiments were conducted based on well-known benchmarks and realistic workloads to evaluate the effectiveness of the proposed design, for which the results are encouraging.
基于pcm的存储系统的行进损耗均衡
在保证文件系统的可靠性和完整性的前提下,提高存储系统的性能是存储系统设计中的一个主要问题。与现有的存储体系结构相比,我们考虑基于pcm的存储体系结构来提高存储系统的可靠性。在基于PCM的存储系统中,主要的挑战在于如何防止频繁更新的(元)数据耗尽其驻留的PCM单元,而不需要在PCM空间中过度搜索和移动元数据,也不需要大量更新文件系统的索引结构。在这项工作中,我们提出了一种自适应磨损均衡机制,通过选择合适的数据进行交换,以恒定的搜索/排序成本来防止任何PCM单元过早磨损。同时,该机制设计了间接指针的概念,在不修改文件系统索引的情况下进行数据交换。基于已知的基准和实际工作负载进行了实验,以评估所提出的设计的有效性,结果令人鼓舞。
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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