基于加速因子的多级应力剖面电迁移损伤累积失效物理模型研究

2017 Second International Conference on Reliability Systems Engineering (ICRSE) Pub Date : 2017-07-10 DOI:10.1109/ICRSE.2017.8030728

B. Wan, Guicui Fu, Yanruoyue Li

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引用次数: 0

摘要

在对微电子器件的使用可靠性进行仿真计算时，现有的失效物理模型不能输入和计算复杂的多级应力环境剖面，这是本文所关注的问题。以电迁移失效的物理模型为例进行了分析。利用加速因子理论进行累积计算和改进，建立了多级应力剖面下电迁移损伤累积的失效物理模型的一般函数。该模型可以实现多级应力分布下的破坏前循环时间的模拟和预测。最后给出了多级应力剖面的计算实例。

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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Research on physics-of-failure model for electromigration damage accumulation under multi-level stress profile based on accelerated factor

The problem which is paid attention in this paper is that existing physics-of-failure model cannot input and calculate complex multi-level stress environmental profile when making simulating calculation of microelectronic devices' using reliability. A physical model for electro-migration failure is analyzed as an example. We make cumulative calculation and improvement using theory of accelerated factor, and the general function of physics-of-failure model for electro-migration damage accumulation under multi-level stress profile is set up. This model can achieve simulation and prediction of cycle time before failure under multi-level stress profile. At the end of this paper, an instance of multi-level stress profile's calculation is provided.

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2017 Second International Conference on Reliability Systems Engineering (ICRSE)

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