New Approach in Physical Failure Analysis Based on 3D Reconstruction

International Symposium for Testing and Failure Analysis Pub Date : 2022-10-30 DOI:10.31399/asm.cp.istfa2022p0201

D. Mello, Giuseppe Sciuto, M. Astuto, M. F. Santangelo, H. Stegmann, F. Cognigni, Marco Rossi

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Abstract

In this work we present a new approach in physical failure analysis. Fault isolation can be done using volume diagnosis techniques. But when studying the identified defect sites by Focused Ion Beam (FIB) cross-sectioning, correct interpretation of the cross-sectional views strongly relies on choosing an appropriate cutting strategy. However, volume diagnosis techniques do not provide any information on which cutting directions and settings to choose to avoid misinterpretation of the spatial evolution of the defects. The proposed approach is to acquire FIB-SEM tomographic datasets at the defect sites to unequivocally characterize the defects in three-dimensional visualizations, independent of particular cross-sectioning strategies. In this specific case we have applied the methodology at a microcontroller for automotive applications on which a couple of floating VIAS were found. Thanks to the complete information obtained with the tomography, the defect could be assigned to a specific class of etching tools, and the root cause thus be solved.

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基于三维重构的物理失效分析新方法

在这项工作中，我们提出了一种新的物理失效分析方法。故障隔离可以使用卷诊断技术来完成。但在利用聚焦离子束(FIB)横切法研究已识别的缺陷部位时，对横切视图的正确解释很大程度上依赖于选择合适的切割策略。然而，体积诊断技术不能提供任何关于切割方向和设置的信息，以避免对缺陷的空间演变的误解。所提出的方法是获取缺陷部位的FIB-SEM层析数据集，以明确地在三维可视化中表征缺陷，而不依赖于特定的横截面策略。在这种具体情况下，我们在汽车应用的微控制器上应用了该方法，其中发现了一对浮动过孔。由于断层扫描获得了完整的信息，可以将缺陷分配给特定类别的蚀刻工具，从而解决了根本原因。

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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International Symposium for Testing and Failure Analysis

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