On-chip Scan-Based Test Strategy for a Dependable Many-Core Processor Using a NoC as a Test Access Mechanism

2010 13th Euromicro Conference on Digital System Design: Architectures, Methods and Tools Pub Date : 2010-05-24 DOI:10.1109/DSD.2010.16

Xiao Zhang, H. Kerkhoff, B. Vermeulen

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引用次数: 8

Abstract

Periodic on-chip scan-based tests have to be applied to a many-core processor SoC to improve its dependability. An infrastructural IP module has been designed and incorporated into the SoC to function as an ATE. This paper introduces the reuse of a Network-on-Chip as a test access mechanism. Since the scan-based test is performed on-chip via the NoC at application run-time, it needs to share the NoC bandwidth with other applications. Instead of reserving sufficient NoC bandwidth for the test, the authors propose a novel way to carry out scan-based tests by dynamically pausing and resuming the test data flow to accommodate the fluctuating communication bandwidth available on the NoC. The test stimuli application and test response collection processes are decoupled to meet the global timing constraint. The many-core processor, IIP and the NoC have been implemented in synthesizable VHDL. Simulation results show the correct application of standard structural test patterns to the processing tiles and the test response collection at run-time using the proposed approach.

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采用NoC作为测试访问机制的可靠多核处理器片上扫描测试策略

为了提高多核处理器SoC的可靠性，必须对其进行周期性的片上扫描测试。基础设施IP模块已被设计并集成到SoC中，以作为ATE。本文介绍了片上网络作为测试访问机制的重用。由于基于扫描的测试是在应用程序运行时通过NoC在芯片上执行的，因此它需要与其他应用程序共享NoC带宽。作者提出了一种新的方法来执行基于扫描的测试，而不是为测试保留足够的NoC带宽，通过动态暂停和恢复测试数据流来适应NoC上可用的波动通信带宽。测试刺激应用和测试响应收集过程解耦以满足全局时序约束。在可合成的VHDL中实现了多核处理器、IIP和NoC。仿真结果表明，使用该方法可以正确地将标准结构测试模式应用于处理块和运行时的测试响应收集。

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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2010 13th Euromicro Conference on Digital System Design: Architectures, Methods and Tools

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