High-level modeling and testing of multiple control faults in digital systems

2016 IEEE 19th International Symposium on Design and Diagnostics of Electronic Circuits & Systems (DDECS) Pub Date : 2016-04-20 DOI:10.1109/DDECS.2016.7482445

Artjom Jasnetski, S. Oyeniran, A. Tsertov, Mario Schölzel, R. Ubar

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引用次数: 11

Abstract

A new method for high level fault modeling to improve the test generation for the control parts of digital systems was proposed. We developed a new high-level functional fault model based on High-Level Decision Diagrams (HLDD). It allows uniform handling of possible defects in different control functions related to instruction decoding, data addressing, and data manipulation. It was shown how the proposed high-level fault model can be mapped on the low-level faults of a joint class of stuck-at faults (SAF), conditional SAF and bridging faults. We proposed uniform procedures for high-level fault activation as a graph traversing procedure on HLDDs related to selection of control signals, and for fault propagation as a task of solving data constraints without using implementation details. Experimental results demonstrated that combining both, high-level control fault reasoning and low-level test generation for data part of a system can help to achieve higher fault coverage and detection of redundant faults than using low-level test generation approach alone.

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数字系统中多控制故障的高级建模与测试

为提高数字系统控制部分的测试生成能力，提出了一种高级故障建模的新方法。提出了一种基于高级决策图(HLDD)的高级功能故障模型。它允许统一处理与指令解码、数据寻址和数据操作相关的不同控制功能中的可能缺陷。研究表明，所提出的高阶故障模型可以映射到低阶故障上，即卡滞故障、条件故障和桥接故障的联合类型。我们提出了统一的程序，将高级故障激活作为与控制信号选择相关的hdd上的图遍历过程，并将故障传播作为解决数据约束的任务，而不使用实现细节。实验结果表明，与单独使用低级测试生成方法相比，将系统数据部分的高级控制故障推理和低级测试生成相结合，可以实现更高的故障覆盖率和冗余故障检测。

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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来源期刊

2016 IEEE 19th International Symposium on Design and Diagnostics of Electronic Circuits & Systems (DDECS)

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