为诊断而设计:在CoWoSTM/3D ic中捕获已知好模具设计错误的安全网

Technical Papers of 2014 International Symposium on VLSI Design, Automation and Test Pub Date : 2014-04-28 DOI:10.1109/VLSI-DAT.2014.6834918

S. Goel, Min-Jer Wang, S. Adham, Ashok Mehta, F. Lee

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引用次数: 1

摘要

为了满足现代电子产品对功率、性能和面积的要求，采用专用、优化的工艺技术实现的芯片堆叠在一起形成系统的异构系统集成是不可避免的。使用已知良好的预制模具可大大缩短集成产品的上市时间。然而，由于使用了来自不同供应商、使用不同技术的模具，如果集成系统在生产中出现故障，找到设计错误或制造缺陷的根源就变得非常具有挑战性。系统集成商有责任包括测试和诊断功能，可以启用后硅调试。在本文中，我们提出了一个基于TSMC CoWoSTM的异质三维芯片的硅诊断案例研究。我们演示了如何使用在逻辑芯片上实现的诊断设计功能来隔离互连测试故障。我们不仅能够加快诊断速度，而且能够找到真正的故障来源，这是一个设计和建模问题，在一个第三方已知的好模具。

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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Design-for-diagnosis: Your safety net in catching design errors in known good dies in CoWoSTM/3D ICs

To meet power, performance and area requirements of modern electronic products, heterogeneous system integration where dies implemented in dedicated, optimized process technologies are stacked together to form a system is inevitable. The use of known-good pre-fabricated dies provides substantial reduction in time-to-market for integrated products. However, as dies from different suppliers using different technologies are used, finding source of design errors or manufacturing defects becomes very challenging if an integrated system fails in production. The system integrator has the onus to include test and diagnosis features that can enable post-silicon debugging. In this paper, we present a silicon diagnosis case study for a TSMC CoWoSTM based heterogeneous 3D chip. We demonstrate how the Design-for-Diagnosis features implemented on the logic die were used to isolate interconnects testing failures. We were not only able to speed up the diagnosis but also able to find the real source of failure, which was a design and modeling issue in one of the 3rd party known-good-die.

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Technical Papers of 2014 International Symposium on VLSI Design, Automation and Test

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