Recently, concurrent error detection enabled through invariant relationships between different wires in a circuit has been proposed. Because there are many such implications in a circuit, selection strategies have been developed to select the most valuable implications for inclusion in the checker hardware such that a sufficiently high probability of error detection ( P d e t e c t i o n ) is achieved. These algorithms, however, due to their heuristic nature cannot guarantee a lossless P d e t e c t i o n . In this paper, we develop a new input-aware implication selection algorithm with the help of ATPG which minimizes loss on P d e t e c t i o n . In our algorithm, the detectability of errors for each candidate implication is carefully evaluated using error prone vectors. The evaluation results are then utilized to select the most efficient candidates for achieving optimal P d e t e c t i o n . The experimental results on 15 representative combinatorial benchmark circuits from the MCNC benchmarks suite show that the implications selected from our algorithm achieve better P d e t e c t i o n in comparison to the state of the art. The proposed method also offers better performance, up to 41.10%, in terms of the proposed impact-level metric, which is the ratio of achieved P d e t e c t i o n to the implication count.
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机译:最近,已经提出了通过电路中不同导线之间的不变关系而实现的并发错误检测。由于电路中存在许多这样的含义,因此已经开发了选择策略来选择包含在检查器硬件中的最有价值的含义,从而实现了足够高的错误检测概率(P d e t e c t i n)。但是,这些算法由于其启发式性质而不能保证无损的P d e t c t i o n。在本文中,我们借助ATPG开发了一种新的可识别输入的含义选择算法,该算法可最大程度地减少P d e t e c t i n的损失。在我们的算法中,使用容易出错的矢量仔细评估了每个候选含义的错误可检测性。然后,利用评估结果来选择最有效的候选项,以实现最佳的P d e t e c t i n。在来自MCNC基准测试套件的15个代表性组合基准测试电路上的实验结果表明,与现有技术相比,从我们的算法中选择的含义可以实现更好的P d e t e c t i n。就所提出的影响程度度量而言,所提出的方法还提供了更好的性能,最高可达41.10%,这是已实现的P e t e t c t i n表示与隐含计数的比率。
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