Random Telegraph Noise analysis as a tool to link physical device features to electrical reliability in nanoscale devices

2016 IEEE International Integrated Reliability Workshop (IIRW) Pub Date : 1900-01-01 DOI:10.1109/IIRW.2016.7904891

F. Puglisi

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引用次数: 6

Abstract

In this work, we report a detailed discussion on the techniques and the requirements needed to enable Random Telegraph Noise (RTN) analysis as a tool to investigate device reliability. Starting with the understanding of the RTN signal properties, a set of best practices to perform measurements and data analysis is established to guarantee reliable results and a correct ensuing physical interpretation. It will be shown that combining dedicated and careful experiments with refined data analysis and comprehensive physics simulations is hence required to enable RTN analysis as a safe and innovative investigation tool for electron devices. The effectiveness of RTN analysis as an investigation tool is demonstrated on both FinFET and resistive memory devices: the parameters of RTN as observed in the experiments performed on FinFETs allow understanding the details of the defects generation during stress in such devices; RTN analysis on RRAM allows understanding the physical origin of RTN in these devices and to estimate the physical properties of defects involved in the phenomenon.

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随机电报噪声分析作为一种工具，将物理设备特征与纳米级设备的电气可靠性联系起来

在这项工作中，我们详细讨论了将随机电报噪声(RTN)分析作为研究设备可靠性的工具所需的技术和要求。从了解RTN信号特性开始，建立了一套执行测量和数据分析的最佳实践，以保证可靠的结果和正确的后续物理解释。因此，需要将专门和仔细的实验与精细的数据分析和全面的物理模拟相结合，才能使RTN分析成为电子设备的安全和创新的研究工具。RTN分析作为一种调查工具的有效性在FinFET和电阻式存储器件上都得到了证明:在FinFET上进行的实验中观察到的RTN参数允许理解这些器件在应力期间产生缺陷的细节;对RRAM进行RTN分析，可以了解这些器件中RTN的物理来源，并估计该现象所涉及的缺陷的物理性质。

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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2016 IEEE International Integrated Reliability Workshop (IIRW)

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