An enhanced cut-points algorithm in formal equivalence verification

Sixth IEEE International High-Level Design Validation and Test Workshop Pub Date : 2001-12-07 DOI:10.1109/HLDVT.2001.972825
Z. Khasidashvili, J. Moondanos, Daher Kaiss, Z. Hanna
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引用次数: 12

Abstract

BDD-based cut-points verification is widely used informal verification. The authors have recently developed a cut-points verification algorithm that is unique in that it avoids generation of false-negatives and allows simplification of the circuits to be compared based on reconvergence of input variables. Here we describe several refinements and enhancements that lead both to drastic speedup as well increase in capacity. These methods are already implemented in Intel's combinational verifier CLEVER and show very promising results on real life examples from the pentium design family.
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形式等价验证中的一种改进切点算法
基于bdd的切点验证是一种广泛使用的非正式验证。作者最近开发了一种截断点验证算法,该算法的独特之处在于它避免了假阴性的产生,并允许简化电路,以便根据输入变量的再收敛进行比较。在这里,我们将描述一些改进和增强,这些改进和增强既可以显著提高速度,又可以提高容量。这些方法已经在英特尔的组合验证器CLEVER中实现,并在来自奔腾设计家族的现实生活示例中显示出非常有希望的结果。
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Sixth IEEE International High-Level Design Validation and Test Workshop
Sixth IEEE International High-Level Design Validation and Test Workshop
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