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Article Dans Une Revue IEEE Design & Test Année : 2023

A Highly Robust and Low-Power Flip-Flop Cell With Complete Double-Node-Upset Tolerance for Aerospace Applications

Aibin Yan
Hefei University of Technology
Anhui University [Hefei]
Yuting He
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Anhui University [Hefei]
Xiaoxiao Niu
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Anhui University [Hefei]
Jie Cui
Anhui University [Hefei]
Tianming Ni
Anhui Polytechnic University
Zhengfeng Huang
Hefei University of Technology
Patrick Girard
Test and dEpendability of microelectronic integrated SysTems
CV
Xiaoqing Wen
Kyushu Institute of Technology

Résumé

This article proposes a robust and low power flip-flop cell with complete double-node-upset (DNU) tolerance for aerospace applications. The proposed cell is constructed from a master latch and a slave latch. The master latch comprises two C-elements as well as one clock-controlled C-element; the slave latch is similar to the master but has an extra keeper to avoid high-impedance state of the output-level C-element. The proposed cell can provide complete DNU-tolerance while reducing power dissipation by 65x0025; on average when compared with existing radiation-hardened flip-flop cells.

Domaines

Micro et nanotechnologies/Microélectronique
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Soumis le : mardi 10 octobre 2023-20:48:51

Dernière modification le : jeudi 12 octobre 2023-15:14:03

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lirmm-04236363 , version 1 (10-10-2023)

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Aibin Yan, Yuting He, Xiaoxiao Niu, Jie Cui, Tianming Ni, et al.. A Highly Robust and Low-Power Flip-Flop Cell With Complete Double-Node-Upset Tolerance for Aerospace Applications. IEEE Design & Test, 2023, 40 (4), pp.34-41. ⟨10.1109/MDAT.2023.3267747⟩. ⟨lirmm-04236363⟩

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