A Sample Preparation Workflow for Delayering a 45 nm Node Serial Peripheral Interface Module

EDFA Technical Articles Pub Date : 2021-11-01 DOI:10.31399/asm.edfa.2021-4.p004
Y. Patel, Joshua Baur, Jonathan Scholl, Adam R. Waite, Adam G. Kimura, J. Kelley, Richard Ott, G. Via
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引用次数: 1

Abstract

Further development of SEM-based feature extraction tools for design validation and failure analysis is contingent on reliable sample preparation methods. This article describes how a delayering framework for 130 nm technology was adapted and used on a 45 nm SPI module consisting of 11 metal layers, 10 via layers, two layers of polysilicon, and an active silicon layer. It explains how different polishing and etching methods are used to expose each layer with sufficient contrast for SEM imaging and subsequent feature extraction. By combining polygon sets representing each layer, the full design of the device was reconstructed as shown in one of the images.
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45nm节点串行外设接口模块脱层样例制备流程
进一步发展基于sem的特征提取工具用于设计验证和失效分析取决于可靠的样品制备方法。本文描述了如何在45纳米SPI模块上采用130纳米技术的脱层框架,该模块由11个金属层、10个通孔层、两层多晶硅和一个活性硅层组成。它解释了如何使用不同的抛光和蚀刻方法来暴露每一层,并为SEM成像和随后的特征提取提供足够的对比度。通过组合代表每一层的多边形集,重构出器件的完整设计,如图所示。
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EDFA Technical Articles
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