Scientific Reports (Jun 2021)

Ternary logic decoder using independently controlled double-gate Si-NW MOSFETs

  • Seong-Joo Han,
  • Joon-kyu Han,
  • Myung-Su Kim,
  • Gyeong-Jun Yun,
  • Ji-Man Yu,
  • Il-Woong Tcho,
  • Myungsoo Seo,
  • Geon-Beom Lee,
  • Yang-Kyu Choi

DOI
https://doi.org/10.1038/s41598-021-92378-7
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 10

Abstract

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Abstract A ternary logic decoder (TLD) is demonstrated with independently controlled double-gate (ICDG) silicon-nanowire (Si-NW) MOSFETs to confirm a feasibility of mixed radix system (MRS). The TLD is essential component for realization of the MRS. The ICDG Si-NW MOSFET resolves the limitations of the conventional multi-threshold voltage (multi-V th) schemes required for the TLD. The ICDG Si-NW MOSFETs were fabricated and characterized. Afterwards, their electrical characteristics were modeled and fitted semi-empirically with the aid of SILVACO ATLAS TCAD simulator. The circuit performance and power consumption of the TLD were analyzed using ATLAS mixed-mode TCAD simulations. The TLD showed a power-delay product of 35 aJ for a gate length (L G) of 500 nm and that of 0.16 aJ for L G of 14 nm. Thanks to its inherent CMOS-compatibility and scalability, the TLD based on the ICDG Si-NW MOSFETs would be a promising candidate for a MRS using ternary and binary logic.