Observability enhanced coverage analysis of C programs for functional validation

Sixth IEEE International High-Level Design Validation and Test Workshop Pub Date : 2001-12-07 DOI:10.1109/HLDVT.2001.972823

F. Fallah, Indradeep Ghosh

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引用次数: 1

Abstract

Software programs written in some programming languages like C, C++, Java, etc, are mostly verified by functional simulation. Since exhaustive functional simulation is impossible for even a small sized C program, it is important to quantitatively measure the extent of design verification during simulation by a set of test vectors. Various coverage metrics have been proposed for measuring the degree of design verification. Most of them compute the extent of design excitation (controllability) but are unable to say whether the excitation responses have propagated to observable points in the program (observability). In this paper we propose a metric for code coverage analysis of C programs that addresses not only controllability but tackles observability as well. Thus, this metric is able to tell what percentage of the simulation responses have been propagated to observable points in the program like primary outputs or printed variables. We improve upon a recently proposed observability enhanced software coverage metric by increasing the accuracy of the analysis as well as decreasing the simulation runtime overhead. We report some preliminary results on example C programs.

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可观察性增强了C程序的覆盖率分析，用于功能验证

用C、c++、Java等编程语言编写的软件程序，大多是通过功能仿真来验证的。由于详尽的功能模拟是不可能的，即使是一个小型的C程序，重要的是在模拟过程中，通过一组测试向量来定量测量设计验证的程度。已经提出了各种覆盖度量来度量设计验证的程度。它们大多计算设计激励的程度(可控性)，但无法说明激励响应是否已传播到程序中的可观察点(可观察性)。在本文中，我们为C程序的代码覆盖率分析提出了一个度量标准，它不仅解决了可控性问题，还解决了可观察性问题。因此，这个指标能够告诉我们模拟响应的百分比已经传播到程序中的可观察点，如主要输出或打印变量。我们通过增加分析的准确性以及减少模拟运行时开销来改进最近提出的可观察性增强的软件覆盖度量。我们报告了一些示例C程序的初步结果。

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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Sixth IEEE International High-Level Design Validation and Test Workshop

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