Native mode functional self-test generation for Systems-on-Chip

K. Jayaraman, V. Vedula, J. Abraham
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引用次数: 30

Abstract

With the rapid increase in the functionality of a single chip, the generation of high quality manufacturing tests which can be applied at-speed has become a serious issue. The problem is further compounded with an increasing level of integration in the case of Systems-On-Chip (SOCs), for which existing test generation tools are inadequate. Many of the peripherals in a SOC design may not include testability features, which renders conventional design for testability (DFT) approaches ineffective. Functional tests applied at-speed in the native mode of a microprocessor have been shown to be effective in detecting realistic defects. A novel approach to adopt this strategy to generate test patterns for SOCs is presented in this paper. This approach utilizes the core processor's instruction set to test its own functionality and that of the peripheral components. A SOC based on a model of the Intel 8085 processor is used to show the effectiveness of this approach.
片上系统的本机模式功能自检生成
随着单芯片功能的快速增加,能够高速应用的高质量制造测试的生成已成为一个严重的问题。在片上系统(soc)的情况下,随着集成水平的提高,问题进一步复杂化,现有的测试生成工具是不够的。SOC设计中的许多外设可能不包括可测试性功能,这使得传统的可测试性设计(DFT)方法无效。在微处理器的本机模式下进行的功能测试已被证明在检测实际缺陷方面是有效的。本文提出了一种采用该策略生成soc测试模式的新方法。这种方法利用核心处理器的指令集来测试其自身的功能和外围组件的功能。基于Intel 8085处理器模型的SOC被用来显示这种方法的有效性。
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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