300 Thousand Gates Single Event Effect Hardened SRAM-based FPGA for Space Application (Abstract Only)

Proceedings of the 2015 ACM/SIGDA International Symposium on Field-Programmable Gate Arrays Pub Date : 2015-02-22 DOI:10.1145/2684746.2689120

Lei Chen, Yuanfu Zhao, Zhiping Wen, Jing Zhou, Xuewu Li, Yanlong Zhang, Huabo Sun

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引用次数: 2

Abstract

SRAM-based FPGAs have been widely used in space engineering. However, the configuration memory in SRAM-based FPGA is susceptible to the single event effects (SEE). It can disrupt the communication or control functions of the spacecraft. To mitigate SEE effects of the SRAM-based FPGAs used in space radiation environment, Beijing Microelectronics Technology Institute (BMTI) developed a 300 thousand gates Single Event Effect hardened SRAM-based FPGA -- BQVR300RH. The BQVR300RH employs Radiation Harden by Design (RHBD) technique. Hardened standard cell library based on Adaptive SRAM (ASRAM) structure is established. For especially sensitive and important resource, other assistant techniques are also adopted. The experiment results show that the BQVR300RH improved the anti-SEU characteristic a lot, compared with Xilinx 300 thousand gates space-grade SRAM-based FPGA (XQVR300). The SEU threshold of BQVR300RH is 19.06 MeV⋅cm2/mg. The anti-SEU characteristic improves three orders of magnitude than XQVR300. The improvement of anti-SEU behavior expands the usage of SRAM-based FPGA in aerospace applications. Currently, BQVR300RH has been used in space field in China.

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基于sram的30万门单事件效应强化FPGA空间应用(仅摘要)

基于sram的fpga在空间工程中得到了广泛的应用。然而，基于sram的FPGA中的配置存储器容易受到单事件效应(SEE)的影响。它会破坏航天器的通信或控制功能。为了减轻sram FPGA在空间辐射环境中的SEE效应，北京微电子技术研究所(BMTI)开发了一种30万栅极单事件效应强化sram FPGA——BQVR300RH。BQVR300RH采用辐射强化设计(RHBD)技术。建立了基于自适应SRAM (ASRAM)结构的硬化标准单元库。对于特别敏感和重要的资源，还采用其他辅助技术。实验结果表明，与Xilinx 30万栅极空间级sram FPGA (XQVR300)相比，BQVR300RH的抗seu性能得到了很大的提高。BQVR300RH的SEU阈值为19.06 MeV⋅cm2/mg。抗seu特性比XQVR300提高了3个数量级。抗单股流行为的改善扩大了基于sram的FPGA在航空航天应用中的应用。目前，BQVR300RH已在中国航天领域得到应用。

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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Proceedings of the 2015 ACM/SIGDA International Symposium on Field-Programmable Gate Arrays

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