Abstract

Adiabatic Quantum-Flux-Parametron (AQFP) logic is a promising emerging device technology that promises six orders of magnitude lower power than CMOS. However, AQFP is challenged by operation at only ultra-low temperatures, has high latency and area, and requires a complex clocking scheme. In particular, every logic gate, buffer, and splitter must be clocked and each pair of connected clocked gates requires overlapping alternating current (AC) clock signals. In particular, clocked buffers need to be used to balance re-convergent logic paths, a problem that is exacerbated by every multi-node fanout needing a tree of clocked splitters. To reduce circuit area many works have proposed buffer and splitter insertion optimization algorithms and recent works have demonstrated a phase-skipping clocking scheme that reduces latency and area. This paper proposes the first algorithm to optimize buffer and splitter …

Date

January 1, 1970

Authors

Robert S Aviles, Peter A Beerel

Journal

arXiv e-prints

Pages

arXiv: 2401.07393