IEEE Access (Jan 2023)

Rule-Based Design for Low-Cost Double-Node Upset Tolerant Self-Recoverable D-Latch

  • Seyedehsomayeh Hatefinasab,
  • Alfredo Medina-Garcia,
  • Diego P. Morales,
  • Encarnacion Castillo,
  • Noel Rodriguez

DOI
https://doi.org/10.1109/ACCESS.2022.3233812
Journal volume & issue
Vol. 11
pp. 1732 – 1741

Abstract

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This paper presents a low-cost, self-recoverable, double-node upset tolerant latch aiming at nourishing the lack of these devices in the state of the art, especially featuring self-recoverability while maintaining a low-cost profile. Thus, this D-latch may be useful for high reliability and high-performance safety-critical applications as it can detect and recover faults happening during holding time in harsh radiation environments. The proposed D-latch design is based on a low-cost single event double-node upset tolerant latch and a rule-based double-node upset (DNU) tolerant latch which provides it with the self-recoverability against DNU, but paired with a low transistor count and high performance. Simulation waveforms support the achievements and demonstrate that this new D-latch is fully self-recoverable against double-node upset. In addition, the minimum improvement of the delay-power-area product of the proposed rule-based design for the low-cost DNU tolerant self-recoverable latch (RB-LDNUR) is 59%, compared with the latest DNU self-recoverable latch on the literature.

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