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A novel radiation hardened by design latch 被引量:3

A novel radiation hardened by design latch
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摘要 Due to aggressive technology scaling, radiation-induced soft errors have become a serious reliability concern in VLSI chip design. This paper presents a novel radiation hardened by design latch with high single-eventupset (SEU) immunity. The proposed latch can effectively mitigate SEU by internal dual interlocked scheme. The propagation delay, power dissipation and power delay product of the presented latch are evaluated by detailed SPICE simulations. Compared with previous SEU-hardening solutions such as TMR-Latch, the presented latch is more area efficient, delay and power efficient. Fault injection simulations also demonstrate the robustness of the presented latch even under high energy particle strikes. Due to aggressive technology scaling, radiation-induced soft errors have become a serious reliability concern in VLSI chip design. This paper presents a novel radiation hardened by design latch with high single-eventupset (SEU) immunity. The proposed latch can effectively mitigate SEU by internal dual interlocked scheme. The propagation delay, power dissipation and power delay product of the presented latch are evaluated by detailed SPICE simulations. Compared with previous SEU-hardening solutions such as TMR-Latch, the presented latch is more area efficient, delay and power efficient. Fault injection simulations also demonstrate the robustness of the presented latch even under high energy particle strikes.
作者 黄正峰 梁华国
机构地区 School of Computer and Information
出处 《Journal of Semiconductors》 EI CAS CSCD 北大核心 2009年第3期118-121,共4页 半导体学报(英文版)
基金 supported by the National Natural Science Foundation of China (Nos. 60633060, 60876028).
关键词 soft error single event upset radiation hardened by design latch soft error single event upset radiation hardened by design latch
分类号 TN432 [电子电信—微电子学与固体电子学]
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参考文献22

  • 1Baumann R. Soft errors in advanced computer systems. IEEE Trans Desing & Test of Computers, 2005, 22(3): 258
  • 2Karnik T, Hazucha P. Characterization of soft errors caused by single event upsets in CMOS processes. IEEE Trans Dependable and Secure Computing, 2004, 1(2): 128
  • 3Shivakumar P, Kistler M, Keckler S W, et al. Modeling the effect of technology trends on the soft error rate of combinational logic. Proc Int Conf Dependable Systems and Networks, Washington DC, USA, 2002:389
  • 4Mitra S, Seifert N, Zhang M, et al. Robust system design with built-in soft-error resilience. IEEE Trans Comput, 2005, 38(2): 43
  • 5Saggese G P, Wang N J, Zbigniew T, et al. An experimental study of soft errors in microprocessors. IEEE Trans Micro, 2005, 25(6): 30
  • 6Lacoe R. CMOS scaling, design principles and hardening-bydesign methodologies. Proc IEEE NSREC Short Course, 2003
  • 7Fazeli M, Patooghy A, Miremadi S G, et al. Feedback redundancy: a power efficient SEU-tolerant latch design for deep sub-micron technologies. Proc Int Conf Dependable Systems and Networks, Edinburgh, UK, 2007:276
  • 8Gaisler J. A portable and fault-tolerant microprocessor based on the SPARC V8 architecture. Proc Int Conf Dependable Systems and Networks, Washington, DC, USA, 2002:409
  • 9Mavis D G, Eaton P H. SEU and SET modeling and mitigation in deep submicron technologies. Proc Int Conf Reliability Physics Symp, Phoenix, Arizona, USA, 2007:293
  • 10Chen M, Orailoglu A. Improving circuit robustness with cost-effective soft-error-tolerant sequential elements. Proc 16th IEEE Asian Test Symp, Beijing, China, 2007:307

同被引文献44

  • 1王俊,梁华国,黄正峰,吴珍妮,秦晨飞.一种对面积开销有效的组合逻辑选择性加固方案[J].计算机研究与发展,2010,47(S1):173-177. 被引量:2
  • 2黄海林,唐志敏,许彤.龙芯1号处理器的故障注入方法与软错误敏感性分析[J].计算机研究与发展,2006,43(10):1820-1827. 被引量:31
  • 3孙凝晖.计算机系统的技术挑战.中国计算机学会通讯,2011,.
  • 4Baumann R. Soft errors in advanced computer systems[J]. IEEE Transactions on Design & Test of Computers, 2005, 22(3):258-266.
  • 5Rao Wenjing, Yang Chengmo, Karri R, et al. Toward future systems with nanoseale devices: overcoming the reliability challenge[J]. IEEE Transactions on Computer, 2011, 44 (2):46-53.
  • 6Mitra S, Zhang Ming, Waqas S, et al. Combinational logic soft error correction [C]//Proceedings of IEEE Interna tional Test Conference, Santa Clara, CA, USA, 2006:1.
  • 7Karnik T, Hazucha P. Characterization of soft errors caused by single event upsets in CMOS processes[J]. IEEE Trans actions on Dependable and Secure Computing, 2004,1 (2): 128--143.
  • 8Wang L T, Wu C W,Wen X Q. VLSI test principles and ar- chitectures: design for testability [M]. Boston: Elsevier Morgan Kaufmann Publishers, 2006 : 300--302.
  • 9Hulme C A, Loomis H H, Ross A A, et al. Configurable fault-tolerant processor (CFTP) for spacecraft onboard processing [C]//Proeeedings of IEEE Aerospace Confer enee, Big Sky, MT, USA, 2004 : 2269-- 2276.
  • 10Gaisler J. A portable and fault-tolerant microprocessor based on the SPARC V8 arehitecture[C]//Proceedings of International Dependable Systems and Networks, Washing- ton, DC, USA,2002:409--415.

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Journal of Semiconductors
2009年 第3期

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