Tri-level-cell phase change memory: toward an efficient and reliable memory system

N. Seong, Sungkap Yeo, H. Lee
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引用次数: 89

Abstract

There are several emerging memory technologies looming on the horizon to compensate the physical scaling challenges of DRAM. Phase change memory (PCM) is one such candidate proposed for being part of the main memory in computing systems. One salient feature of PCM is its multi-level-cell (MLC) property, which can be used to multiply the memory capacity at the cell level. However, due to the nature of PCM that the value written to the cell can drift over time, PCM is prone to a unique type of soft errors, posing a great challenge for their practical deployment. This paper first quantitatively studied the current art for MLC PCM in dealing with the resistance drift problem and showed that the previously proposed techniques such as scrubbing or error correction mechanisms have significant reliability challenges to overcome. We then propose tri-level-cell PCM and demonstrate its ability to achieving 105 x lower soft error rate than four-level-cell PCM and 1.33 x higher information density than single-level-cell PCM. According to our findings, the tri-level-cell PCM shows 36.4% performance improvement over the four-level-cell PCM while achieving the soft error rate of DRAM.
三电平单元相变存储器:迈向高效可靠的存储器系统
有几种新兴的存储技术即将出现,以弥补DRAM的物理扩展挑战。相变存储器(PCM)是计算机系统中主存储器的一部分。PCM的一个显著特征是它的多级单元(MLC)特性,它可以用于在单元级别成倍增加存储容量。然而,由于PCM的特性,写入单元的值会随着时间的推移而漂移,因此PCM容易出现独特类型的软错误,这对其实际部署构成了巨大的挑战。本文首先对MLC PCM处理电阻漂移问题的现有技术进行了定量研究,并表明先前提出的诸如擦洗或纠错机制等技术在可靠性方面存在重大挑战。然后,我们提出了三级单元PCM,并证明了它能够实现比四级单元PCM低105倍的软错误率和比单级单元PCM高1.33倍的信息密度。根据我们的研究结果,三级单元PCM的性能比四级单元PCM提高了36.4%,同时达到了DRAM的软错误率。
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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