Curling-PCM:基于相变存储器的嵌入式系统的专用磨损平衡

Duo Liu, Tianzheng Wang, Yi Wang, Z. Shao, Qingfeng Zhuge, E. Sha
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引用次数: 61

摘要

相变存储器(PCM)以其独特的特性在嵌入式系统中被用作NOR闪存的替代品。然而,PCM的耐久性不断下降,极大地限制了其在嵌入式系统中的应用。由于大多数嵌入式系统都是面向应用程序的,我们可以通过探索特定于应用程序的特性(如固定访问模式和更新频率)来更好地利用PCM,以延长PCM的生命周期。在本文中,我们提出了一种特定应用的磨损平衡技术,称为Curling-PCM,以均匀地分布在PCM芯片上的写活动,以提高PCM的耐用性。其基本思想是利用嵌入式系统中特定应用程序的特性,并周期性地在整个PCM芯片上移动热点区域。为了进一步降低移动热区域的开销,提高基于pcm的嵌入式系统的性能,在curling_pcm中提出了一种细粒度的局部磨损均衡策略,在每个请求处理周期中只移动部分热区域。实验结果表明,与以往的工作相比,Curling-PCM可以有效地均匀分配PCM芯片上的写流量。我们期望这项工作可以作为全面探索基于pcm的嵌入式系统中特定应用程序特性的第一步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Curling-PCM: Application-specific wear leveling for phase change memory based embedded systems
Phase change memory (PCM) has been used as NOR flash replacement in embedded systems with its attractive features. However, the endurance of PCM keeps drifting down and greatly limits its adoption in embedded systems. As most embedded systems are application-oriented, we can better utilize PCM by exploring application-specific features such as fixed access patterns and update frequencies to prolong the lifetime of PCM. In this paper, we propose an application-specific wear leveling technique, called Curling-PCM, to evenly distribute write activities across the PCM chip in order to improve the endurance of PCM. The basic idea is to exploit application-specific features in embedded systems and periodically move the hot region across the whole PCM chip. To further reduce the overhead of moving the hot region and improve the performance of PCM-based embedded systems, a fine-grained partial wear leveling policy is proposed in Curling-PCM, by which only part of the hot region is moved during each request handling period. The experimental results show that Curling-PCM can effectively evenly distribute write traffic in PCM chips compared with previous work. We expect this work can serve as a first step towards the full exploration of application-specific features in PCM-based embedded systems.
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