基于仿真的可逆逻辑高效调试

Stefan Frehse, R. Wille, R. Drechsler
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引用次数: 9

摘要

由于可逆逻辑在量子计算、低功耗设计、光学计算、DNA计算或纳米技术等新兴技术中的各种应用,它已成为一个活跃的研究领域。因此,今天可以有效地合成包含数千个门的复杂可逆电路。然而,这也增加了设计错误的可能性。而对于错误的检测,已经提出了一些基于仿真或形式化验证的可逆逻辑技术。在调试领域的研究还处于起步阶段。本文提出了一种基于仿真的可逆逻辑自动调试方法。我们表明,门中的特定错误总是需要一个反例来导致具体的门输入模式。通过模拟所有反例并检查这些输入模式,可以排除不相关的门(即不包含错误的门)。实验表明,应用所提出的方法可以使速度提高5个数量级。此外,与以前的工作相比,候选错误的数量可以减少。
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Efficient Simulation-Based Debugging of Reversible Logic
Reversible logic has become an active research area due to its various applications in emerging technologies, like quantum computing, low power design, optical computing, DNA computing, or nanotechnologies. As a result, complex reversible circuits containing thousands of gates can be efficiently synthesized, today. However, this also increases the probability of design errors. While for the detection of errors already a couple of simulation-based or formal verification techniques have been proposed for reversible logic. Research in the domain of debugging is still at the beginning. In this paper, we present an automatic debugging approach for reversible logic which is based on simulation. We show that a particular error in a gate always requires a counterexample leading to a concrete gate input pattern. By simulating all counterexamples and checking for these input patterns, irrelevant gates (i.e. gates that do not contain an error) can be excluded. Experiments show, that applying the proposed approach leads to speed-ups of up to five orders of magnitude. Furthermore, the number of error candidates can be reduced in comparison to previous work.
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