Soft Defect Analysis on Advanced Logic Integrated Circuit by Dynamic Laser Stimulation

2018 IEEE International Symposium on the Physical and Failure Analysis of Integrated Circuits (IPFA) Pub Date : 2018-07-01 DOI:10.1109/IPFA.2018.8452488

Beomjun Kim, Juhyun Kim, Wookhyun Cho, Seongjun Cho, Seok-jun Won, Jinsung Kim

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Abstract

As device feature becomes smaller, the different types of failure mechanism increases. Electrical Failure Analysis (EFA) becomes more challenging and complex. Especially functional test failures where conventional isolation techniques such as photon emission microscopy (PEM) and optical beam induced resistance change (OBIRCH) are not effective to pinpoint the exact failure position, advanced dynamic EFA methodologies are required. Soft failures on advanced logic are more pervasive in recent years [1]. Typically, such failures respond to temperature, power supply voltage or frequency and have been one of the most difficult types of defects to isolate. Dynamic Laser Stimulation (DLS)[2] is widely used for soft defect analysis and it is an effective and quick method to localize soft defects in integrated circuits (IC). In this paper, two FA cases are presented to emphasize the effectiveness of DLS in localizing soft defects on 10nm logic device.

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先进逻辑集成电路的动态激光软缺陷分析

随着器件特征的减小，不同类型的失效机制也随之增加。电气故障分析(EFA)变得更具挑战性和复杂性。特别是在功能测试失败时，传统的隔离技术，如光子发射显微镜(PEM)和光束诱导电阻变化(OBIRCH)不能有效地确定确切的故障位置，需要先进的动态EFA方法。近年来，高级逻辑上的软故障更为普遍。通常，这种故障对温度、电源电压或频率有响应，并且是最难隔离的缺陷类型之一。动态激光刺激(DLS)[2]被广泛应用于软缺陷分析，是一种快速有效的集成电路软缺陷定位方法。本文通过两个FA案例来说明DLS在10nm逻辑器件软缺陷定位中的有效性。

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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2018 IEEE International Symposium on the Physical and Failure Analysis of Integrated Circuits (IPFA)

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