Title :
Serial Biasing of 16 Modular Circuits at 50 Gb/s
Author_Institution :
HYPRES, Inc., Elmsford, NY, USA
Abstract :
Rapid single-flux quantum circuits are generally biased in parallel with a common ground. As the integration scale increases, the total dc bias current can become too large to be practical. Applications such as large-scale Josephson-junction circuits for petaflops computers must avoid prohibitive dc bias requirements. Serial dc bias of multiple-circuit modules enables more efficient and effective operation of large circuits. This paper describes a circuit containing 1488 junctions in which the bias current was reused 16 times to reduce the required bias from ~100 mA to roughly 12 times less. We report initial results in which this circuit was operated up to 50 Gb/s with a negligible error rate.
Keywords :
superconducting junction devices; RSFQ; bit rate 50 Gbit/s; integration scale; large-scale Josephson-junction circuits; modular circuits; multiple-circuit modules; petaflops computers; rapid single-flux quantum circuits; serial dc bias; superconducting circuits; total dc bias current; Clocks; Heating; Junctions; Oscilloscopes; Radiation detectors; Superconducting integrated circuits; Superconducting magnets; Cryopackage; current recycling; high-speed rapid single-flux quantum (RSFQ); serial biasing;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2012.2196998
