Ultra fast switching speed of superconductingdigital circuits enable realization of Digital Signal Processors with performance unattainable by any other technology. Based on Rapid-Single-Flux technology (RSFQ) logic, these integrated circuits are capable of delivering high computation capacity up to 30 GOPS on a single processor and very short latency of 0.1 ns. There are two main applications of such hardware for practical telecommunication systems: Filters for superconducting ADCsoperating with digital RF data and recursive Filters at baseband. The later of these allows functions such as multiuser detection for 3G WCDMA, equalization and channel precoding for 4G OFDM MIMO, and general blind detection. The performance gain is an increase i...
Abstract — Superconductor analog-to-digital converters (ADCs) and ultrafast digital circuitry enabl...
RSFQ (Rapid Single Flux Quantum) superconducting logic is suitable to process very high speed digita...
The growing market for fast floating-point coprocessors, digital signal processing chips, and graphi...
Ultra fast switching speed of superconducting digital circuits enable realization of Digital Signal ...
Superconducting digital technology based on Rapid Single Flux Quantum logic (RSFQ) is a digital tech...
Superconducting digital technology based on Rapid Single Flux Quantum logic (RSFQ) offers more than ...
In this work we are going to present a design of a test bed for a superconducting high speed Digital...
Superconducting digital RSFQ technology offers unique digital processing solutions for the telecommu...
Superconductor digital technology based on Rapid Single Flux Quantum logic (RSFQ) offers more than 5...
RSFQ high performance Digital Signal processor capable to perform up to 13 13-bit fixed-point GMACS/...
We have designed and tested a four-bit RSFQ multiplier-accumulator, the central component of our dec...
I present the results of the feasibility study of ultra-fast low-power superconductor digital switch...
We have carried out a paper feasibility study of the implementation of most common packet switching ...
This work presents the design of RSFQ parallel multiplier suitable for implementation of the superco...
Les systèmes de télécommunication de type radio logicielle ou "Software Defined Radio" (SDR) exploit...
Abstract — Superconductor analog-to-digital converters (ADCs) and ultrafast digital circuitry enabl...
RSFQ (Rapid Single Flux Quantum) superconducting logic is suitable to process very high speed digita...
The growing market for fast floating-point coprocessors, digital signal processing chips, and graphi...
Ultra fast switching speed of superconducting digital circuits enable realization of Digital Signal ...
Superconducting digital technology based on Rapid Single Flux Quantum logic (RSFQ) is a digital tech...
Superconducting digital technology based on Rapid Single Flux Quantum logic (RSFQ) offers more than ...
In this work we are going to present a design of a test bed for a superconducting high speed Digital...
Superconducting digital RSFQ technology offers unique digital processing solutions for the telecommu...
Superconductor digital technology based on Rapid Single Flux Quantum logic (RSFQ) offers more than 5...
RSFQ high performance Digital Signal processor capable to perform up to 13 13-bit fixed-point GMACS/...
We have designed and tested a four-bit RSFQ multiplier-accumulator, the central component of our dec...
I present the results of the feasibility study of ultra-fast low-power superconductor digital switch...
We have carried out a paper feasibility study of the implementation of most common packet switching ...
This work presents the design of RSFQ parallel multiplier suitable for implementation of the superco...
Les systèmes de télécommunication de type radio logicielle ou "Software Defined Radio" (SDR) exploit...
Abstract — Superconductor analog-to-digital converters (ADCs) and ultrafast digital circuitry enabl...
RSFQ (Rapid Single Flux Quantum) superconducting logic is suitable to process very high speed digita...
The growing market for fast floating-point coprocessors, digital signal processing chips, and graphi...