Logic BIST Architecture for System-Level Test and Diagnosis

J. Qian, Xingang Wang, Qinfu Yang, Fei Zhuang, Junbo Jia, Xiangfeng Li, Yuan Zuo, J. Mekkoth, Jinsong Liu, H. Chao, Shianling Wu, Huafeng Yang, Lizhen Yu, FeiFei Zhao, Laung-Terng Wang
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引用次数: 11

Abstract

This paper describes the logic built-in self-test (BIST) architecture for test and diagnosis of ASIC devices at the system level. The proposed architecture supports the at speed staggered launch-on-capture clocking scheme and includes novel features to further increase the device’s defect coverage, place-and-route ability, ease of debug and diagnosis, and reduce test power consumption. These features include equivalent clock merging for routing considerations, programmable shift modes for overheat considerations, configurable capture modes for yield loss and IR-drop considerations, as well as BIST signature diagnosis, masked-chain diagnosis, and one-chain diagnosis at the system level. Experimental results have successfully demonstrated the feasibility of using the proposed features for system-level test and diagnosis.
用于系统级测试和诊断的逻辑BIST体系结构
本文介绍了用于系统级测试和诊断ASIC器件的逻辑内置自检(BIST)体系结构。所提出的架构支持高速交错发射捕获时钟方案,并包括新特性,以进一步增加器件的缺陷覆盖率,放置和路由能力,易于调试和诊断,并降低测试功耗。这些功能包括考虑路由的等效时钟合并、考虑过热的可编程移位模式、考虑产量损失和ir下降的可配置捕获模式,以及系统级的BIST签名诊断、掩码链诊断和单链诊断。实验结果成功地证明了将所提出的特征用于系统级测试和诊断的可行性。
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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