断层注入过程的分析模型

Twenty-Fifth International Symposium on Fault-Tolerant Computing. Digest of Papers Pub Date : 1995-06-27 DOI:10.1109/FTCS.1995.466984

A. Steininger, H. Schweinzer

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引用次数: 10

摘要

不同条件下进行的断层注入实验的结果只有建立在对断层和误差的激活和传播的透彻理解的基础上，才能相互关联。我们通过应用一个计算系统的特殊层模型来分析这些过程。我们的目标是将信号线上的故障转换为系统故障作为错误信息通过多层传播的模型。描述断层激活过程的两个特定层已经充分完成，并在这里提出。对这些因素进行了量化，并总结了不同的应用。发现基于模型的分析结果与实验数据具有很好的一致性。高精度的断层激活预测是可能的，同时也可以定量评价同步断层注入的效果。

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A model for the analysis of the fault injection process

Results of fault injection experiments performed under different conditions can only be related to each other, if their interpretation is based on a thorough understanding of activation and propagation of faults and errors. We analyze these processes by applying a special layer model of a computing system. Our aim is to model the transformation of a fault on a signal line into a system failure as the propagation of erroneous information through multiple layers. Two specific layers that describe the fault activation process have been sufficiently completed and are presented here. A quantification for these is derived and different applications are summarized. Excellent correspondence between analytical results based on modeling and experimental data is found. A prediction of fault activation with high accuracy is possible, as well as a quantitative evaluation of the effect of synchronizing fault injection.<>

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Twenty-Fifth International Symposium on Fault-Tolerant Computing. Digest of Papers

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