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A highly stable and low‐cost 12T radiation hardened SRAM cell design for aerospace application

Zhongyang Liu, Yuqiao Xie, Tao Xu, Qing Liu, Dawei Bi, Zhiyuan Hu, Shichang Zou, Zhengxuan Zhang

2023International Journal of Circuit Theory and Applications10 citationsDOI

Abstract

Summary In this paper, a highly stable and low‐cost 12T (HSLC12T) radiation hardened static‐random‐access‐memories (SRAM) cell is proposed in 55 nm CMOS technology. Based on polarity reversal design and read/write separation structure, the proposed HSLC12T cell can recover from any single event upsets (SEUs) induced at all its sensitive nodes and even single event double‐node‐upsets (SEDNUs) induced at its internal storage node pair Q‐QN, while also having the maximum read static noise margin (RSNM) and lower static hold power, as well as excellent write speed and write‐ability. Though the HSLC12T cell exhibits a larger read delay, it has the best overall performance of all other cells. This is proven by having the highest electrical quality metric (EQM) value, thus making the proposed HSLC12T cell a better choice for aerospace applications.

Topics & Concepts

Static random-access memoryCMOSComputer scienceAerospaceMetric (unit)Electronic engineeringNode (physics)Embedded systemParallel computingEngineeringComputer hardwareOperations managementStructural engineeringAerospace engineeringRadiation Effects in ElectronicsAdvanced Memory and Neural ComputingLow-power high-performance VLSI design
A highly stable and low‐cost 12T radiation hardened SRAM cell design for aerospace application | Litcius