Title :
Quantum flux parametron (QFP) shift registers clocked by an inductive power distribution network and errorless operation of the QFP
Author :
Casas, J. ; Kamikawai, R. ; Goto, E.
Author_Institution :
Res. Dev. Corp. of Japan, Tokyo, Japan
fDate :
3/1/1992 12:00:00 AM
Abstract :
The authors present 4- and 12-b shift registers capable of operating from DC up to 8.56 and 4.24 GHz, respectively. These circuits´ total on-chip power dissipation is estimated to be roughly 10 nW. A novel clock current distribution network permits such high clock frequency and such low on-chip power dissipation. The clock is applied as a standing wave and is distributed by inductive division. With this clock current distribution scheme, no power is dissipated along the clock lines. In spite of the circuits´ low output amplitude (tens of microvolts) and of the large crosstalk with the clock frequency, the output waveforms are captured in time domain at microwave frequencies. Also, for the 12-b device, 10/sup 15/ error free operations per quantum flux parametron (QFP) are demonstrated. Finally, the 12-b shift register is the largest QFP circuit reported to date; it is composed of 48 QFPs and one DC SQUID.<>
Keywords :
SQUIDs; clocks; current distribution; shift registers; superconducting logic circuits; 0 to 4.24 GHz; 0 to 8.56 GHz; 12 bit; 4 bit; DC SQUID; QFP; crosstalk; errorless operation; high clock frequency; inductive division; inductive power distribution network; microwave frequencies; on-chip power dissipation; output amplitude; output waveforms; quantum flux parametron; shift registers; standing wave; time domain capture; Clocks; Crosstalk; Current distribution; Electronics packaging; Error-free operation; Microwave circuits; Microwave frequencies; Network-on-a-chip; Power dissipation; Shift registers;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
