Operation of a 1-bit quantum flux parametron shift register (latch) by 4-phase 36-GHz clock

Author

Hosoya, M. ; Hioe, W. ; Takagi, K. ; Goto, E.

Author_Institution

Hitachi Ltd., Tokyo, Japan

Volume

5

Issue

2

fYear

1995

fDate

6/1/1995 12:00:00 AM

Firstpage

2831

Lastpage

2834

Abstract

The Quantum Flux Parametron (QFP) is a SFQ-type logic device which uses a single flux quantum (SFQ) to represent 1-bit of information. QFP circuits use a multi-phase external ac power which also acts as the clock for synchronization, hence QFP circuits are highly pipelined. The clock frequency must be increased to improve the throughputs of the circuits, so the control of a high frequency clock is a key technology for the QFP. This paper describes a clock distribution technique which utilizes the characteristics of a standing wave. Using this technique, the operation of a 1-bit QFP shift register by a 4-phase clock up to 36 GHz is shown. In the 4-phase clock operation of QFPs, the input is given in phase 1, the QFP switches in phase 2, the output is held during phase 3, and the QFP resets in phase 4. Therefore, the 4-phase 36-GHz operation means that each QFP switches or resets in less than 7 ps.<>

Keywords

clocks; parametric oscillators; pipeline processing; shift registers; superconducting logic circuits; synchronisation; 36 GHz; 7 ps; SFQ-type logic device; clock distribution technique; clock frequency; four-phase clock; highly pipelined circuits; multi-phase external ac power; quantum flux parametron shift register; single flux quantum; standing wave characteristics; synchronization; throughputs; Circuit testing; Clocks; Crosstalk; Electronics packaging; Frequency synchronization; Latches; Logic devices; Shift registers; Switches; Throughput;

fLanguage

English

Journal_Title

Applied Superconductivity, IEEE Transactions on

Publisher

ieee

ISSN

1051-8223

Type

jour

DOI

10.1109/77.403181

Filename

403181