A soft error upset hardened 12T-SRAM cell for space and terrestrial applications

Memories - Materials, Devices, Circuits and Systems Pub Date : 2023-11-20 DOI:10.1016/j.memori.2023.100092

Pavan Kumar Mukku, Rohit Lorenzo

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引用次数: 0

Abstract

Various charged particles in space, including alpha particles, neutrons, heavy ions, and photons, pose reliability and stability concerns for memory circuits. These particles also create an ion track in the memory chip, disrupting the storage bit. The standard 6T SRAM is particularly susceptible to these disturbances. Several researchers suggest employing radiation-hardened SRAM cells to solve this problem. Most studies examine the inclusion of redundant nodes in the memory cell to recover the lost bit. This paper shows a new SEUH-12T SRAM memory cell with redundant nodes to deal with the soft error problem. The proposed SEUH-12T memory cell performance is compared to that of reliable radiation-hardened memory cells such as Quatro-10T, We-Quatro-12T, QCCS-12T, STS-10T, RHMC-12T, and RHWC-12T. The proposed SEUH-12T cell protects against single and multiple node disruptions by considering minimum sensitive nodes layout area separation concept. Furthermore, proposed SEUH-12T exhibits 8.5 $\times$ / 6.3 $\times$ / 5.6 $\times$ / 1.4 $\times$ / 1.2 $\times$ / 1.4 $\times$ / 1.04 $\times$ times greater read stability than existing 6T-SRAM/ Quatro-10T/ We-Quatro-12T/ QCCS-12T/ STS-10T/ RHMC-12T/ RHWC-12T memory cells.

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用于空间和地面应用的软错误破坏硬化12T-SRAM单元

空间中的各种带电粒子，包括α粒子、中子、重离子和光子，对存储电路的可靠性和稳定性提出了担忧。这些粒子还会在存储芯片中产生离子轨道，扰乱存储位。标准的6T SRAM特别容易受到这些干扰。一些研究人员建议使用抗辐射SRAM电池来解决这个问题。大多数研究都是通过在记忆单元中加入冗余节点来恢复丢失的比特。本文提出了一种新的SEUH-12T冗余节点SRAM存储单元，以解决软错误问题。SEUH-12T存储单元的性能与可靠的抗辐射存储单元(如Quatro-10T、We-Quatro-12T、QCCS-12T、STS-10T、RHMC-12T和RHWC-12T)进行了比较。提出的SEUH-12T单元通过考虑最小敏感节点布局区域分离概念来防止单个和多个节点中断。此外，SEUH-12T的读取稳定性是现有6T-SRAM/ Quatro-10T/ We-Quatro-12T/ QCCS-12T/ STS-10T/ RHMC-12T/ RHWC-12T存储单元的8.5倍/ 6.3倍/ 5.6倍/ 1.4倍/ 1.2倍/ 1.4倍/ 1.04倍。

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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Memories - Materials, Devices, Circuits and Systems

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