先进的闪存可靠性

A. Modelli, A. Visconti, R. Bez
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引用次数: 26

摘要

结合主流技术,综述了影响闪存可靠性的最相关失效机制,指出了隧道氧化物缺陷在其中所起的主要作用。设备的退化。讨论了程序/擦除循环引起的性能,特别是关于循环后影响很小一部分存储单元的泄漏。分析了泄漏量与隧道氧化层厚度、循环次数和温度的关系。漏泄电流可以用一个、两个或多个陷阱的陷阱辅助隧穿来解释,发生的概率越来越小。最后,给出的数据显示了缩放闪存对α粒子和电磁辐射的鲁棒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Advanced flash memory reliability
With reference to the mainstream technology, the most relevant failure mechanisms that affect reliability of Flash memory are reviewed, showing the primary role played by tunnel oxide defects. The degradation of device. performance induced by program/erase cycling is discussed, specifically for what concern the leakage that affect a very small fraction of memory cells after cycling. The dependence of the leakage on tunnel oxide thickness, number of cycles, and temperature is analyzed. The leakage current is explained by trap-assisted tunneling involving one, two or more traps, with decreasing occurrence probability. Finally, data are presented showing the robustness of scaled Flash memory to alpha particles and electromagnetic radiation.
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