硬件加速器的A-QED验证

2020 57th ACM/IEEE Design Automation Conference (DAC) Pub Date : 2020-07-01 DOI:10.1109/DAC18072.2020.9218715

Eshan Singh, Florian Lonsing, Saranyu Chattopadhyay, Maxwell Strange, Peng Wei, Xiaofan Zhang, Yuan Zhou, Deming Chen, J. Cong, Priyanka Raina, Zhiru Zhang, Clark W. Barrett, S. Mitra

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引用次数: 10

摘要

我们提出了a - qed(加速器-快速错误检测)，这是一种用于独立硬件加速器的预硅形式验证的新方法。a - qed依赖于有界模型检查——然而，它不需要广泛的特定于设计的属性或完整的正式设计规范。虽然A- QED对RTL和高级综合(HLS)设计流程都有效，但它可以与HLS流程无缝集成。我们在几个硬件加速器设计上的A-QED结果证明了它的实用性和有效性。A-QED检测了常规验证流程检测到的所有错误。2. A-QED检测到逃避常规验证流程的错误。3.在我们的一个案例研究中，A-QED极大地提高了验证效率，提高了30倍(使用A-QED的1人/天与使用传统验证流程的30人/天相比)。4. A-QED生成了简短的反例，便于调试(与传统验证流程相比，平均缩短了37倍)。

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A-QED Verification of Hardware Accelerators

We present A-QED (Accelerator-Quick Error Detection), a new approach for pre-silicon formal verification of stand-alone hardware accelerators. A-QED relies on bounded model checking -- however, it does not require extensive design-specific properties or a full formal design specification. While A- QED is effective for both RTL and high-level synthesis (HLS) design flows, it integrates seamlessly with HLS flows. Our A-QED results on several hardware accelerator designs demonstrate its practicality and effectiveness: 1. A-QED detected all bugs detected by conventional verification flow. 2. A-QED detected bugs that escaped conventional verification flow. 3. A-QED improved verification productivity dramatically, by 30X, in one of our case studies (1 person-day using A-QED vs. 30 person-days using conventional verification flow). 4. A-QED produced short counterexamples for easy debug (37X shorter on average vs. conventional verification flow).

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2020 57th ACM/IEEE Design Automation Conference (DAC)

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