Dependable MPSoC-Based Mixed-Criticality Systems for Space Applications

2018 5th IEEE International Workshop on Metrology for AeroSpace (MetroAeroSpace) Pub Date : 2018-06-01 DOI:10.1109/METROAEROSPACE.2018.8453618

Stefano Esposito, M. Violante

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Abstract

Space applications' requirements, especially when scientific payload is considered, are rapidly increasing. A way to satisfy such requirements without increasing too much space, weight, and power consumption of the on-board equipment, is to exploit capabilities of new multi-processor system-on-chips (MPSoCs). A MPSoC-based computer would allow integration on a single equipment of several applications. However, there is not any space-qualified MPSoC, yet. This paper describes a mixed-criticality system (MCS) implementing a prototypical scientific payload computer for a space mission. The main focus is on the issue of using commercial-off-the-shelf (COTS) MPSoC in radioactive environment to deploy MCS implementing a payload computer. The paper states the beforementioned issue and a set of countermeasures to detect issues. The system is evaluated for dependability against single event effects (SEEs) through fault-injection simulation experiments. Results of such experiments are used to compute availability figures of a payload computer implementing described countermeasures, considering the radiation environment of the geostationary orbit.

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空间应用中基于mpsoc的可靠混合临界系统

空间应用的需求，特别是考虑到科学有效载荷时，正在迅速增加。在不增加机载设备的空间、重量和功耗的情况下满足这些要求的一种方法是利用新型多处理器片上系统(mpsoc)的功能。基于mpsoc的计算机将允许在单个设备上集成多个应用程序。然而，目前还没有任何符合空间条件的MPSoC。本文介绍了一种实现航天任务科学载荷计算机原型的混合临界系统。主要焦点是在放射性环境中使用商用现货(COTS) MPSoC来部署MCS实现有效载荷计算机的问题。本文阐述了上述问题，并提出了一套检测问题的对策。通过故障注入仿真实验，对系统抗单事件效应的可靠性进行了评估。在考虑地球静止轨道辐射环境的情况下，利用实验结果计算了实施所述对抗措施的有效载荷计算机的可用性数字。

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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2018 5th IEEE International Workshop on Metrology for AeroSpace (MetroAeroSpace)

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