Logic State PEM Analysis for ATPG SCAN Logic Failure

International Symposium for Testing and Failure Analysis Pub Date : 2022-10-30 DOI:10.31399/asm.cp.istfa2022p0352

Soon Woei Chong, Kan Sun, Wilson C. H. Lee, Rahul Babu Radhamony, Hao Hu, L. Endrinal

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Abstract

Photon Emission Microscopy (PEM) analysis is one of the most common used FA techniques to identify the root cause of failures within ATPG scan logic due to its ease of setup and less invasive nature. While conducting photon emissions, the device is made to operate in the fail mode by running a production test vector to look for anomalous emissions or hot spots that could narrow down the area of interest (AOI) for subsequent Physical Failure Analysis (PFA). However, if there is no clue from emission analysis in the case of a hard failure with no sensitivity to voltage, frequency, or temperature, FA debug will be challenging. This paper shows how PEM analysis success may be further improved through logic state circuit study using a DFT ATPG diagnostic platform. Logic state truth table and its relative test pattern will be built based on the diagnostic data using in-house scripts, and the test program can then be changed to the required condition of the circuitry. With the altered logic state, new emission data can be collected, which could potentially reveal new clues to the investigation.

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ATPG扫描逻辑故障的PEM分析

光子发射显微镜(PEM)分析是最常用的FA技术之一，用于识别ATPG扫描逻辑故障的根本原因，因为它易于设置和侵入性较小。在进行光子发射时，该设备通过运行生产测试向量来寻找异常发射或热点，从而在故障模式下运行，从而缩小感兴趣区域(AOI)，用于后续的物理故障分析(PFA)。但是，如果在对电压、频率或温度不敏感的硬故障情况下，没有从发射分析中获得线索，则FA调试将具有挑战性。本文展示了如何通过使用DFT ATPG诊断平台进行逻辑状态电路研究，进一步提高PEM分析的成功率。根据诊断数据，使用内部脚本构建逻辑状态真值表及其相应的测试模式，然后根据电路所需的条件修改测试程序。通过改变逻辑状态，可以收集到新的发射数据，这可能会为调查提供新的线索。

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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