Lei Wang, Lei Chen, Zhiping Wen, Huabo Sun, Shuo Wang
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引用次数: 4
摘要
本文研究了现有的抗辐射FPGA厂商和应用于FPGA的可配置SRAM (CSRAM)的抗辐射方法。提出了一种适用于BQV 300 FPGA的高密度单事件强化CSRAM,并采用混合模式辐射强化验证方法对SEU强化CSRAM进行仿真。所提出的用于fpga的SEU强化CSRAM在入射离子角度为0°的情况下,SEU免疫率高达22.49 MeVŸcm2/mg。但是,拟议的CSRAM的面积仅比传统的6-T SRAM增加12%,DICE的面积将比拟议的CSRAM增加69%。利用所提出的CSRAM使bqv300 FPGA能够制造。SEU leth远高于赛灵思FPGA的CSRAM SEU leth。
A Novel High-Density Single-Event Upset Hardened Configurable SRAM Applied to FPGA
This paper has investigated present radiation hardened FPGA manufacturers and SEU hardened method of configurable SRAM (CSRAM) applied to FPGA. A novel high-density single-event upset hardened CSRAM applied to BQV 300 FPGA is proposed, and this paper uses the mix-mode radiation hardened verification method to simulate the SEU hardened CSRAM. The proposed SEU-hardened CSRAM applied to FPGAs is SEU immune up to 22.49 MeVŸcm2/mg, under the angle for incident ion of 0°. But the area of proposed CSRAM only increases 12% than traditional 6-T SRAM, and the area of DICE will increase 69% than proposed CSRAM. Using the proposed CSRAM makes BQV 300 FPGA able to be fabricated. The SEU LETth is much higher than SEU LETth of CSRAM for Xilinx’s FPGA.
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