电阻存储器中随机电报噪声的分析:以不稳定灯丝为例

IF 2.8 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Nikolaos Vasileiadis , Alexandros Mavropoulis , Panagiotis Loukas , Georgios Ch. Sirakoulis , Panagiotis Dimitrakis
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引用次数: 0

摘要

通过随机电报噪声(RTN)分析,可以提供关于缺陷陷阱在纳米电子器件的状态微调和读取中的作用的有价值的信息。然而,时域分析技术在RTN信号不稳定的情况下表现出它们的局限性。这些不稳定性是电阻存储器(ReRAM)的多级单元(MLC)中的一个常见问题,当调谐协议未能找到完全稳定的电阻状态时,这反过来又给RTN信号带来波动,尤其是在长时间测量中,并在估计观测到的电报事件的时间常数分布时引起严重错误,即。,从陷阱捕获/发射载流子。在这项工作中,我们分析了基于氮化硅的ReRAM器件中细丝不稳定的情况,并提出了一种实现移动平均去趋势方法的自适应滤波器,以使不稳定的RTN信号变平,并充分提高所进行测量的精度。然后分别计算了陷阱的τe和τc发射/捕获时间常数,并通过频域分析(洛伦兹拟合)进行了交叉验证,证明了所提出的方法是准确的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Analysis of random telegraph noise in resistive memories: The case of unstable filaments

Analysis of random telegraph noise in resistive memories: The case of unstable filaments

Through Random Telegraph Noise (RTN) analysis, valuable information can be provided about the role of defect traps in fine tuning and reading of the state of a nanoelectronic device. However, time domain analysis techniques exhibit their limitations in case where unstable RTN signals occur. These instabilities are a common issue in Multi-Level Cells (MLC) of resistive memories (ReRAM), when the tunning protocol fails to find a perfectly stable resistance state, which in turn brings fluctuations to the RTN signal especially in long time measurements and cause severe errors in the estimation of the distribution of time constants of the observed telegraphic events, i.e., capture/emission of carriers from traps. In this work, we analyze the case of the unstable filaments in silicon nitride-based ReRAM devices and propose an adaptive filter implementing a moving-average detrending method in order to flatten unstable RTN signals and increase sufficiently the accuracy of the conducted measurements. The τe and τc emission/capture time constants of the traps, respectively, are then calculated and a cross-validation through frequency domain analysis (Lorentzian fitting) was performed proving that the proposed method is accurate.

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来源期刊
Micro and Nano Engineering
Micro and Nano Engineering Engineering-Electrical and Electronic Engineering
CiteScore
3.30
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0.00%
发文量
67
审稿时长
80 days
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