Physical-design-friendly hierarchical logic built-in self-test—A case study

Thirteenth International Symposium on Quality Electronic Design (ISQED) Pub Date : 2012-03-19 DOI:10.1109/ISQED.2012.6187466

Kelvin Nelson, Jaga Shanmugavadivelu, J. Mekkoth, V. Ghanta, Jun Wu, Fei Zhuang, H. Chao, Shianling Wu, J. Rao, Lizhen Yu, Laung-Terng Wang

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Abstract

This paper describes an application of a physical-design-friendly hierarchical logic built-in self-test (BIST) architecture and validation methodology on a networking system-on-chip (SOC) design. The design consists of two embedded cores, each containing approximately 45 million primitives and 2.5 million flip-flops. The implemented architecture supports an at-speed staggered launch-on-capture clocking scheme and includes novel features to reduce turnaround time during engineering change order (ECO) and the device's BIST runtime. It also embeds test and diagnosis features to facilitate debugging of the device at the system level. The BIST hierarchy includes wrappers surrounding each core with access from chip-top allowing for both parallel and serial validations of the cores. This case study successfully demonstrates the feasibility of using the implemented features for speedy ECO, synergy with physical design flow, and ease of test and diagnosis.

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物理设计友好的分层逻辑内置自检-一个案例研究

本文描述了物理设计友好的分层逻辑内置自检(BIST)体系结构和验证方法在网络片上系统(SOC)设计中的应用。该设计由两个嵌入式内核组成，每个内核包含大约4500万个原语和250万个触发器。实现的架构支持高速交错发射捕获时钟方案，并包括新颖的功能，以减少工程变更订单(ECO)和设备的BIST运行时的周转时间。它还嵌入了测试和诊断功能，以方便在系统级调试设备。BIST层次结构包括围绕每个内核的包装器，并允许从芯片顶部访问内核的并行和串行验证。本案例研究成功地证明了使用实现的功能实现快速ECO、与物理设计流程协同以及易于测试和诊断的可行性。

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Thirteenth International Symposium on Quality Electronic Design (ISQED)

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