SOC测试架构的事务级建模与设计空间探索

C. Chang, Chih-Yuan Hsiao, Kuen-Jong Lee, A. Su
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引用次数: 2

摘要

事务级建模(TLM)提供了一种可行的方法,可以在高抽象级别对SOC进行建模,从而有效地处理系统级设计问题。在事务级别上没有得到很好讨论的问题之一是SOC测试。本文讨论了如何为SOC设计构建事务级测试体系结构的问题。我们对SOC测试所需的组件进行建模,包括嵌入式处理器、存储器、系统总线以及测试访问机制、测试总线、测试封装器和基于扫描或bist的IP内核。将这些组件集成到一个测试平台的案例研究,该平台可以在很少的外部控制下执行测试过程。实验结果表明,与RTL模型相比,该模型的仿真速度提高了3 ~ 4个数量级。我们还探索了测试平台的设计空间,并展示了各种测试架构可以很容易地构建和分析这种TLM方法。
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Transaction Level Modeling and Design Space Exploration for SOC Test Architectures
Transaction level modeling (TLM) provides a feasible methodology to model an SOC at a high abstraction level such that system level design issues can be dealt with efficiently. One of the issues that have not been well discussed at the transaction level is SOC testing. In this paper we address the problem of how to construct transaction level test architectures for SOC designs. We model the components required for SOC testing including embedded processor, memory, system bus as well as the test access mechanism, test bus, test wrappers and scan- or BIST-based IP cores. A case study on integrating these components into a test platform that can execute test procedures with very little external control is carried out. Experimental results show that 3 to 4 orders of magnitude improvement on simulation speed can be achieved compared with the RTL models. We also explore the design space of the test platform and show that various test architectures can be easily constructed and analyzed with this TLM methodology.
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