Advanced data analysis algorithms for the time-dependent defect spectroscopy of NBTI

2012 IEEE International Integrated Reliability Workshop Final Report Pub Date : 2012-10-01 DOI:10.1109/IIRW.2012.6468924

M. Waltl, P. Wagner, H. Reisinger, K. Rott, T. Grasser

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引用次数: 11

Abstract

In order to identify the physical mechanisms behind the negative bias temperature instability (NBTI), the time-dependent defect spectroscopy (TDDS) has been recently proposed. The TDDS takes advantage of the fact that in nano-scaled devices only a handful of defects are present. As a consequence, degradation and recovery proceed in discrete steps, each of them corresponding to a charge capture or emission event. By repeatedly applying stress and recovery conditions, the TDDS analyzes the statistical properties of these discrete events. The measurement window of the TDDS is very large, but the occurrence of random telegraph noise (RTN) at certain biases/temperatures can limit its applicability. We have developed an advanced data analysis method which can also deal with data contaminated by RTN. The algorithm is based on the combination of a bootstrapping technique and cumulative sum charts. A benefit of the new method is the possibility to detect steps in a large class of different signals with a feasible amount of parameters. Moreover, de-/trapping parameters of the random telegraph noise (RTN) become accessible as well.

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NBTI时效缺陷谱的先进数据分析算法

为了确定负偏置温度不稳定性(NBTI)背后的物理机制，最近提出了时间依赖缺陷谱(TDDS)。TDDS利用了在纳米级器件中只有少量缺陷存在的事实。因此，降解和恢复以离散的步骤进行，每个步骤对应于电荷捕获或发射事件。通过反复施加应力和恢复条件，TDDS分析这些离散事件的统计特性。TDDS的测量窗口非常大，但在某些偏置/温度下随机电报噪声(RTN)的出现限制了其适用性。我们开发了一种先进的数据分析方法，也可以处理RTN污染的数据。该算法是基于自举技术和累积和图的结合。新方法的一个优点是可以在具有可行参数的大量不同信号中检测步长。此外，随机电报噪声(RTN)的脱/捕获参数也可以访问。

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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2012 IEEE International Integrated Reliability Workshop Final Report

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