Title :
Energy-Efficient Single Flux Quantum Technology
Author :
Mukhanov, Oleg A.
Author_Institution :
HYPRES, Inc., Elmsford, NY, USA
fDate :
6/1/2011 12:00:00 AM
Abstract :
Figures of merit connecting processing capabilities with power dissipated (OpS/Watt, Joule/bit, etc.) are becoming dominant factors in choosing technologies for implementing the next generation of computing and communication network systems. Superconductivity is viewed as a technology capable of achieving higher energy efficiencies than other technologies. Static power dissipation of standard RSFQ logic, associated with dc bias resistors, is responsible for most of the circuit power dissipation. In this paper, we review and compare different superconductor digital technology approaches and logic families addressing this problem. We present a novel energy-efficient single flux quantum logic family, ERSFQ/eSFQ. We also discuss energy-efficient approaches for output data interface and overall cryosystem design.
Keywords :
cryogenics; resistors; superconducting logic circuits; superconductivity; ERSFQ; circuit power dissipation; dc bias resistors; eSFQ; energy-efficient approaches; energy-efficient single flux quantum logic family; energy-efficient single flux quantum technology; higher energy efficiency; output data interface; overall cryosystem design; standard RSFQ logic; static power dissipation; superconductivity; superconductor digital technology; CMOS integrated circuits; Clocks; Junctions; Limiting; Logic gates; Power dissipation; Resistors; Ballistic; RSFQ; SFQ; cryogenic; exascale; low power; power efficient; switching energy; voltage regulator;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2010.2096792
