计算机科学 ›› 2014, Vol. 41 ›› Issue (5): 59-63.doi: 10.11896/j.issn.1002-137X.2014.05.013
张绍林,杨孟飞,刘鸿瑾,姜宏,王若川
ZHANG Shao-lin,YANG Meng-fei,LIU Hong-jin,JIANG Hong and WANG Ruo-chuan
摘要: 随着二代导航、载人航天、深空探测等空间应用对星载电子产品的低功耗和抗辐射容错能力提出更高的需求,传统多机冗余设计星载计算机面临着亟需进行设计升级换代。将可重构技术应用到多核片上系统的设计中,提出了一种基于动态可重构的容错体系结构,在硬件层提高系统的容错能力和扩展性对未来空间工程应用具有重要意义。首先介绍了多核片上系统和可重构技术的基本概念,简要分析了国际宇航可重构系统的研究案例。随后提出了一种基于动态可重构的容错体系结构,即通过基于系统降级的重构策略来实现系统级容错。在方案验证环节,采用LEON3作为处理单元,对容错模块功能进行了仿真验证。仿真结果表明,容错控制满足预期的设计需求。最后对后续工作做了简要规划,并对可重构容错方法设计进行了总结。
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