FPGA SEE Test with Ultra-High Energy Heavy Ions

2018 IEEE International Symposium on Defect and Fault Tolerance in VLSI and Nanotechnology Systems (DFT) Pub Date : 2018-10-01 DOI:10.1109/DFT.2018.8602958

G. Furano, A. Tavoularis, Lucana Santos, V. Ferlet-Cavrois, C. Boatella, R. G. Alía, P. Fernandez-Martínez, M. Kastriotou, V. Wyrwoll, S. Danzeca, M. Tali, Dejan Gacnik, I. Kramberger, L. Juul, Konstantinos Maragos, G. Lentaris

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引用次数: 5

Abstract

The use of System-on-Chip (SoC) solutions in the design of space-borne data handling systems is an important step towards further miniaturization in space. In cubesats and in many aggressive commercial missions, use of Commercial-Off-The-Shelf (COTS) components is becoming the rule, rather than the exception and many of those are complex SoC, multiprocessor system-on-chip (MPSoC), SiP (System in package) or AMS-SoC (Analog/Mixed Signal SoC). Those changes are triggering attempts to modify the way we approach and conduct radiation tolerance and testing of electronics. Among the changes that have an impact on Single Event Effect (SEE) testing are scaling of geometries, supply voltages, new materials, new packaging technologies, and overall speed and device complexity challenges. In the frame of the ESA-CERN cooperation agreement, certain ESA projects had access to the most intense beam of ultra-high energy heavy ions available at the Super Proton Synchrotron (SPS) particle accelerator. This paper will present challenges and advantages of SEE tests of complex electronic devices in this new environment and its relevance for future space missions.

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超高能重离子FPGA SEE测试

在星载数据处理系统的设计中使用片上系统(SoC)解决方案是迈向空间进一步小型化的重要一步。在立方体卫星和许多积极的商业任务中，使用商用现货(COTS)组件正在成为规则，而不是例外，其中许多是复杂的SoC，多处理器片上系统(MPSoC)， SiP(系统级封装)或AMS-SoC(模拟/混合信号SoC)。这些变化正促使人们尝试改变我们处理和进行电子产品辐射耐受性和测试的方式。影响单事件效应(SEE)测试的变化包括几何形状的缩放、电源电压、新材料、新封装技术，以及整体速度和设备复杂性的挑战。在欧空局-欧洲核子研究中心合作协议的框架内，欧空局的某些项目可以使用超级质子同步加速器(SPS)粒子加速器上最强烈的超高能重离子束。本文将介绍在这种新环境下复杂电子设备的SEE测试的挑战和优势及其与未来空间任务的相关性。

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 IEEE International Symposium on Defect and Fault Tolerance in VLSI and Nanotechnology Systems (DFT)

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