Zichu Qi, Hui Liu, Xiangku Li, Da Wang, Yinhe Han, Huawei Li, Weiwu Hu
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引用次数: 5
Abstract
This paper describes the scan test challenges and techniques used in the Godson-3 microprocessor, which is a scalable multicore processor based on the SMOC (Scalable Mesh of Crossbar) on-chip network and targets high-end applications. Advanced techniques are adopted to achieve the scalable, low-power and low-cost scan architecture at the challenge of limited I/O resources and large scale of transistors. To achieve a scalable and flexible test access, a highly elaborate TAM (Test Access Mechanism) is implemented with supporting multiple test instructions and test modes. Taking advantage of multiple cores embedding in the processor, scan partitions are employed to reduce test power and test time, and test compression with more than 10X compression ratio are utilized to decrease the scan chain length. To further decrease test time, a Data-Synchronous-Comparator (DSC) is proposed for comparing the scan responses of the identical cores.
Godson-3微处理器是一种基于SMOC (scalable Mesh of Crossbar)片上网络的可扩展多核处理器,目标是高端应用,本文描述了扫描测试所面临的挑战和使用的技术。在有限的I/O资源和大规模晶体管的挑战下,采用先进的技术实现可扩展、低功耗和低成本的扫描架构。为了实现可伸缩和灵活的测试访问,实现了一个高度精细的TAM(测试访问机制),支持多个测试指令和测试模式。利用处理器内嵌多核的优势,采用扫描分区来降低测试功耗和测试时间,采用10倍以上压缩比的测试压缩来缩短扫描链长度。为了进一步减少测试时间,提出了一种数据同步比较器(DSC)来比较相同内核的扫描响应。
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