Investigating the Inherent Soft Error Resilience of Embedded Applications by Full-System Simulation

2020 25th Asia and South Pacific Design Automation Conference (ASP-DAC) Pub Date : 2020-01-01 DOI:10.1109/ASP-DAC47756.2020.9045132

Uzair Sharif, Daniel Mueller-Gritschneder, Ulf Schlichtmann

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Abstract

It has long been acknowledged that some applications feature inherent resilience against soft errors, e.g., the impact of soft errors on multimedia applications is often non-visible to humans. In this paper we investigate the inherent resilience of two typical embedded applications using a case study of a control system and a robot arm. Both studies were enabled by our mixed-mode fault injection simulator ETISS-ML, which allows RTL-accurate fault injection while being able to simulate very long scenarios, e.g. robot movements of several seconds. Our results indicate that full simulation of the embedded system and its environment are required to classify whether the system can tolerate the impact of a soft error. This is due to the fact that it is hard to predict the impact of a certain output deviation without investigating the change in the system behavior taking into account the control loop. Based on this classification method we hope to be able to exploit this resilience for lowering the cost of error detection mechanisms in future research.

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通过全系统仿真研究嵌入式应用固有的软错误恢复能力

人们早就认识到，一些应用程序具有针对软错误的固有弹性，例如，软错误对多媒体应用程序的影响通常是不可见的。在本文中，我们研究了两种典型的嵌入式应用程序的固有弹性，使用控制系统和机器人手臂的案例研究。这两项研究都是通过我们的混合模式故障注入模拟器ETISS-ML实现的，该模拟器允许rtl精确的故障注入，同时能够模拟很长时间的场景，例如机器人运动几秒钟。我们的研究结果表明，需要对嵌入式系统及其环境进行全面的仿真，才能对系统是否能够容忍软错误的影响进行分类。这是因为，如果不考虑控制回路，调查系统行为的变化，就很难预测某个输出偏差的影响。基于这种分类方法，我们希望能够在未来的研究中利用这种弹性来降低错误检测机制的成本。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 25th Asia and South Pacific Design Automation Conference (ASP-DAC)

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