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引用次数: 13
摘要
行为综合包括通过编译其电子系统级(ESL)描述到RTL实现来生成硬件设计。等价性检查对于确保合成RTL符合其ESL规范至关重要。这种等价性检查必须有效地处理设计和实现优化。我们确定了使行为综合等效检查复杂化的两个关键优化:(1)操作门控,(2)全局变量。我们开发了一个顺序等效检查(SEC)框架来比较ESL设计和RTL在这些优化的存在。我们的方法可以处理从实际ESL设计合成的超过32K LoC RTL的设计。此外,我们的评估发现了一个商业工具中的错误,强调了SEC的重要性和我们方法的有效性。
Handling design and implementation optimizations in equivalence checking for behavioral synthesis
Behavioral synthesis involves generating hardware design via compilation of its Electronic System Level (ESL) description to an RTL implementation. Equivalence checking is critical to ensure that the synthesized RTL conforms to its ESL specification. Such equivalence checking must effectively handle design and implementation optimizations. We identify two key optimizations that complicate equivalence checking for behavioral synthesis: (1) operation gating, and (2) global variables. We develop a sequential equivalence checking (SEC) framework to compare ESL designs with RTL in the presence of these optimizations. Our approach can handle designs with more than 32K LoC RTL synthesized from practical ESL designs. Furthermore, our evaluation found a bug in a commercial tool, underlining both the importance of SEC and the effectiveness of our approach.
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