Design and demonstration of an on-chip AC power source for adiabatic quantum-flux-parametron logic

Design and demonstration of an on-chip AC power source for adiabatic quantum-flux-parametron logic

Adiabatic quantum-flux-parametron (AQFP) logic is a promising technology for use in future high-end computers because its bit energy can be potentially reduced to the order of thermal energy. AQFP gates are driven by an AC bias current, which changes their potential energy adiabatically. In the pres...

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Veröffentlicht in:Superconductor science & technology 2013-03, Vol.26 (3), p.35018-6
Hauptverfasser: Mukaiyama, Takashi, Takeuchi, Naoki, Yamanashi, Yuki, Yoshikawa, Nobuyuki
Format: Artikel
Sprache:eng
Schlagworte:
Adiabatic flow
Alternating current
Applied sciences
Bias
Circuit properties
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Direct current
Electric, optical and optoelectronic circuits
Electrical engineering. Electrical power engineering
Electronic circuits
Electronic equipment and fabrication. Passive components, printed wiring boards, connectics
Electronics
Exact sciences and technology
Gates (circuits)
Logic
Oscillators, resonators, synthetizers
Physics
Power electronics, power supplies
Power sources
Proximity effects, weak links, tunneling phenomena, and josephson effects, adreev effect, sn and sns junctions
Superconductivity
Superconductors
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Zusammenfassung:Adiabatic quantum-flux-parametron (AQFP) logic is a promising technology for use in future high-end computers because its bit energy can be potentially reduced to the order of thermal energy. AQFP gates are driven by an AC bias current, which changes their potential energy adiabatically. In the present paper, we propose an on-chip AC power source, which is composed of a Josephson relaxation oscillator and a superconducting resonator, to drive the AQFP gates. We designed and implemented the AC power source using a Nb Josephson integrated circuit process. We confirmed that the AC power source can generate a 4.4 GHz sinusoidal current from a DC bias current and that the output amplitude of the AC power source can be controlled by varying the DC bias current.
ISSN:0953-2048
1361-6668
DOI:10.1088/0953-2048/26/3/035018