Title :
Design of fast Josephson arithmetic circuits
Author :
de Lustrac, A. ; Crozat, P. ; Adde, R.
Author_Institution :
Inst. d´´Electron. Fondamentale, Univ. Paris-Sud, Orsay, France
fDate :
3/1/1991 12:00:00 AM
Abstract :
A Josephson 2-b full adder and a 4-b parallel multiplier are designed using an advanced design with speed optimization of functional direct coupled logic. Wide margins EXOR, majority 2/3, and delay gates implemented with picosecond junctions (RCC=2 ps) are presented and their performances are analyzed. The adder consists of 10 gates with 90 Josephson junctions and dissipates 30 μW. The propagation time along the critical path is 10 ps/b near threshold bias. It rises only at 20 ps/b in the adder at 80% of the maximum bias. The multiplier consists of 60 gates and dissipates 180 μW. The propagation times along the critical path near threshold bias, and at 80% of maximum bias are respectively 60 ps/b and 100 ps/b
Keywords :
Josephson effect; adders; digital arithmetic; multiplying circuits; superconducting junction devices; superconducting logic circuits; 180 muW; 30 muW; EXOR; Josephson arithmetic circuits; Josephson junctions; delay gates; full adder; functional direct coupled logic; majority 2/3; parallel multiplier; picosecond junctions; Adders; Arithmetic; Circuits; Clocks; Delay; Design optimization; Josephson junctions; Logic design; Switches; Voltage;
Journal_Title :
Magnetics, IEEE Transactions on
