Fast radiation monitoring in FPGA-based designs

2015 Conference on Design of Circuits and Integrated Systems (DCIS) Pub Date : 2015-11-01 DOI:10.1109/DCIS.2015.7388590

C. Leong, J. Semião, M. Santos, I. Teixeira, J. P. Teixeira, A. Batista, B. Gonçalves, J. Marques

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引用次数: 5

Abstract

In nanoscale FPGAs, variability, aging and radiation effects significantly limit system performance and reliability, which is a relevant problem in safety-critical applications associated with long life operation products. The impact of Single Event Upsets (SEU) on system correct operation is usually estimated by the FPGA vendor. In this paper a technique for fast radiation monitoring, taking aging effects into account is proposed for FPGA-based designs. In order to monitor SEU in memory, a novel SEU sensor is proposed, reusing BRAM resources to estimate the Soft Error Rate (SER). The proposed BRAM-based sensor allows a much faster evaluation of radiation effects than the one obtained with traditional monitoring such as monitoring of the FPGA configuration memory. Simultaneous use of aging and SEU sensors enables the activation of mitigation techniques, e.g., circuit reconfiguration for a more robust functionality. Simulation and experimental results are presented, using Virtex6 and Spartan6 boards and two real-world applications - a data acquisition system for PET-based medical imaging, and a fast plant system controller for the ITER reactor. Neutron radiation tests were performed- in the Portuguese Research Reactor (RPI).

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基于fpga的快速辐射监测设计

在纳米级fpga中，可变性、老化和辐射效应极大地限制了系统的性能和可靠性，这是与长寿命操作产品相关的安全关键应用中的一个相关问题。单事件干扰(SEU)对系统正确运行的影响通常由FPGA供应商估算。本文提出了一种考虑老化效应的快速辐射监测技术。为了监测内存中的SEU，提出了一种新的SEU传感器，重用BRAM资源来估计软错误率(SER)。所提出的基于bram的传感器可以比传统的监测(如监测FPGA配置存储器)更快地评估辐射效应。同时使用老化和SEU传感器可以激活缓解技术，例如，电路重新配置以获得更强大的功能。利用Virtex6和Spartan6板以及两个实际应用-基于pet的医学成像数据采集系统和ITER反应堆的快速工厂系统控制器，给出了仿真和实验结果。在葡萄牙研究反应堆(RPI)中进行了中子辐射试验。

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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2015 Conference on Design of Circuits and Integrated Systems (DCIS)

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