Towards an appropriate acceleration model for beol tddb

2016 IEEE International Reliability Physics Symposium (IRPS) Pub Date : 2016-04-17 DOI:10.1109/IRPS.2016.7574598

R. Muralidhar, E. Liniger, T. Shaw, A. Kim, G. Bonilla

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引用次数: 3

Abstract

TDDB lifetime projections at operating voltages for backend of line (BEOL) dielectrics have been based on accelerated testing at high fields and extrapolation to operating conditions based on electric field dependent dielectric wear-out models. In this paper, we examine the veracity of common TDDB models by using a large set of failure data spanning 3 pitches. Key components of the approach include (i) investigating the universality of failure time data at 3 pitches and different test structure areas using area scaling, (ii) using the universal curve of failure time data to test the acceleration model for 3 pitches and (iii) examining the ability of the models to extrapolate to low field data using high field data for fitting and vice versa. While almost all models seem appropriate when entire set of data (low and high field) is used to fit, fitting only high or low field data and testing the ability to predict low and high fields respectively, shows that power-law and impact damage models extrapolate much better than the root-E model that shows systematic deviation during extrapolation.

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建立合适的beol - tddb加速模型

线路后端(BEOL)电介质在工作电压下的TDDB寿命预测基于高场加速测试和基于电场相关电介质损耗模型的工作条件外推。在本文中，我们通过使用跨越3个pitch的大型故障数据集来检验常见TDDB模型的准确性。该方法的关键组成部分包括:(i)使用面积缩放调查3个间距和不同测试结构区域的故障时间数据的通用性，(ii)使用故障时间数据的通用曲线来测试3个间距的加速度模型，以及(iii)使用高场数据进行拟合来检查模型外推到低场数据的能力，反之亦然。虽然几乎所有模型似乎都适用于整组数据(低场和高场)的拟合，但只拟合高场或低场数据并分别测试预测低场和高场的能力，表明幂律和冲击损伤模型的外推效果要比根e模型好得多，因为根e模型在外推过程中显示出系统偏差。

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 Reliability Physics Symposium (IRPS)

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