Applied Physics Express (Jan 2024)

Investigation of timing margin in single-flux-quantum 4 bit adders for increasing clock frequency of gate-level-pipelined circuits

  • Ikki Nagaoka,
  • Tomoki Nakano,
  • Ryota Kashima,
  • Masamitsu Tanaka,
  • Taro Yamashita,
  • Akira Fujimaki

DOI
https://doi.org/10.35848/1882-0786/ad46e5
Journal volume & issue
Vol. 17, no. 5
p. 054501

Abstract

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This study investigates the timing margin required to handle fluctuations and variations in superconductor single-flux-quantum gate-level-pipelined adders; a smaller timing margin would improve the clock frequencies of gate-level-pipelined circuits. To evaluate timing margins, we demonstrated three 4 bit adders with 50-, 75-, and 100 GHz target clock frequencies using a 1.0 μ m process. We estimated that the required timing margin of the adders was 2.1 ps. This indicates that previously reported gate-level-pipelined circuits operating at 30–60 GHz could operate at higher clock frequencies by reducing the timing margins.

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