Experimental study on neutron single event effects of commercial SRAMs based on CSNS

Wang, Xun; Zhang, Fengqi; Chen, Wei; Guo, Xiaoqiang; Ding, Lili; Luo, Yan-An

doi:10.7498/aps.69.20200265

Cited by 1 publication

(1 citation statement)

References 22 publications

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“…大气环境充斥着不同能量的中子，其能量范围从 meV 到 GeV [8][9][10] 。不同能量中子能够与半导体中硅原子核发生核反应，产生次级高能粒子进而诱发单粒子效应，并导致芯片工作异常，甚至烧毁 [11] 。辐照实验是探究芯片大气中子单粒子效应敏感性的最直接手段。不过，自然环境中的中子通量低,因此，采用与大气中子能谱相近的散裂中子源进行辐照测试就成了最理想的选择 [12] 。中国散裂中子源的投入运行为国内开展先进工艺 AI 芯片大气中子单粒子效应辐照测试研究提供了关键平台 [13] 。对包括 AI 芯片在内的不同对象的大气中子单粒子效应辐照测试研究，已有报道主要还集中在传统冯诺依曼架构芯片，尚缺乏对先进制造工艺的近存计算或者存内计算架构芯片的深入研究 [9,[14][15][16][17] 量得到 1MeV 以上中子能谱 [20] 。实验时对应 I5-II3 工况，样品位置距离靶心 20.8m，…”

Section: 近存计算架构 Ai 芯片中子单粒子效应研究 unclassified

Neutron induced single event effects on near-memory computing architecture AI chips

Yang,

Hu,

et al. 2024

Acta Phys. Sin.

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For the near memory computing architecture AI chip manufactured with a 16nm FinFET technology, atmospheric neutron single event effects irradiation testing was conducted for the first time in China at the China Spallation Neutron Source using the Atmospheric Neutron Irradiation Spectrometer (ANIS). During the irradiation, the YOLOV5 algorithm neural network running on the AI chip was used for real-time detection of target objects, including mice, keyboard, and luggage. The purpose of the test was to investigate the possible new single event effect phenomenon on the near memory computing architecture AI chip. At last, a total of 35 soft errors belonging to 5 categories were detected under an accumulated neutron fluence of 1.51×10<sup>10</sup> n·cm-2 (above 1MeV). Particularly noteworthy was the observation of a new finding, where both computing and memory units experienced single event effects simultaneously, distinct from the traditional von Neumann architecture chips. Based on the simultaneous occurrence of single event effects in these two units, combined with Monte Carlo simulation, a preliminary estimation of the physical layout distance between computing and memory units on the chip was made. What’s more, suggestions are provided to mitigate the single event effect risk in multi cells simultaneously. This study offers valuable reference and insight for further exploration of single event effects in non-traditional von Neumann architecture chips.

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Section: 近存计算架构 Ai 芯片中子单粒子效应研究 unclassified

Neutron induced single event effects on near-memory computing architecture AI chips

Yang,

Hu,

et al. 2024

Acta Phys. Sin.

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Experimental study on neutron single event effects of commercial SRAMs based on CSNS

Cited by 1 publication

References 22 publications

Neutron induced single event effects on near-memory computing architecture AI chips

Neutron induced single event effects on near-memory computing architecture AI chips

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