BEOL工艺和封装过程中互连应力演化的建模

Chirag Shah, A. Karmarkar, Xiaopeng Xu
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引用次数: 10

摘要

本文提出了一种新颖的模拟方法来研究芯片到封装互连结构在封装/组装操作之后的顺序IC后端过程中的应力演变。采用多层次有限元分析方法研究了近碰撞和BEOL水平模型中的包装诱发应力。同样,使用顺序过程模拟来分析互连结构中后端过程引起的应力,该过程模拟研究了BEOL结构在每个金属介电层被图图化时的应力演化。最后,研究了封装诱发应力和BEOL工艺诱发应力对互连结构的累积影响,以证明该方法在对BEOL互连进行“设计依赖”CPI风险分析中的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling of interconnect stress evolution during BEOL process and packaging
A novel simulation approach is developed to examine the stress evolution in the chip-to-package interconnect structures during the sequential IC Backend processes followed by packaging / assembly operation. Packaging induced stress in near-bump and BEOL level models is examined using the multi-level FEA methodology. Likewise, the Backend process induced stresses in the interconnect structures is analyzed using a sequential process simulation that looks into stress evolution of the BEOL structure as each metal-dielectric layer is being patterned. Finally, the cumulative impact of packaging induced stress and the BEOL process induced stress on the interconnect structures is examined to demonstrate the significance of this approach in performing a “design dependent” CPI risk analysis for BEOL interconnects.
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