基于验证和测试的覆盖度量的高级决策图

M. Jenihhin, J. Raik, A. Chepurov, U. Reinsalu, R. Ubar
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引用次数: 5

摘要

本文提出了基于高层决策图(High-Level Decision Diagrams, HLDDs)模型的结构覆盖度量,该模型既适用于验证,也适用于高层测试。以往的研究表明,HLDDs是一种有效的仿真和测试生成模型。然而,硬件描述语言(HDL)对硬件描述语言(Hardware Description Languages, HDL)的覆盖特性,目前还没有详细的研究。在本文中,我们表明,所提出的方法允许比传统的VHDL代码覆盖更严格的结构覆盖分析。此外,本文的主要新贡献是一种基于hld的条件覆盖度量分析的分层方法,该方法具有条件节点的展开图。在ITC99基准测试上的实验表明,该方法可使覆盖精度提高14%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-Level Decision Diagrams based coverage metrics for verification and test
The paper proposes High-Level Decision Diagrams (HLDDs) model based structural coverage metrics that are applicable to, both, verification and high-level test. Previous works have shown that HLDDs are an efficient model for simulation and test generation. However, the coverage properties of HLDDs against Hardware Description Languages (HDL) have not been studied in detail before. In this paper we show that the proposed methodology allows more stringent structural coverage analysis than traditional VHDL code coverage. Furthermore, the main new contribution of the paper is a hierarchical approach for condition coverage metric analysis that is based on HLDDs with expansion graphs for conditional nodes. Experiments on ITC99 benchmarks show that up to 14% increase in coverage accuracy can be achieved by the proposed methodology.
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