This work presents the design of RSFQ parallel multiplier suitable for implementation of the superconducting digital signal processor for interference cancellation in 3G cellular systems. We have designed the parallel multiplier which consists of N M-bits serial adders based on the T1 cells for M 7N sign multiplication. This multiplier consumes 74 7M 7N Josephson junctions. The 2-bit and 4-bit parallel multipliers have been designed for TRWs 8 kA/cm2 process. The maximum VHDL simulated clock speed and one bit effective area are 39 GHz and 300 7 300 μm2 correspondingly
A new architecture and a new design method have been developed for the implementation of an RSFQ Suc...
We report an RSFQ Digital Signal Processor design based on hybrid RSFQ-CMOS memory suitable for a ge...
In this paper, we present the analysis, design, andcharacterization of the first frequency multiplie...
This work presents the design of RSFQ parallel multiplier suitable for implementation of the superco...
The growing market for fast floating-point coprocessors, digital signal processing chips, and graphi...
Superconductor digital technology based on Rapid Single Flux Quantum logic (RSFQ) offers more than 5...
We have designed and tested a four-bit RSFQ multiplier-accumulator, the central component of our dec...
A rapid single-flux-quantum (RSFQ) 4-bit bit-slice multiplier is proposed. A new systolic-like multi...
RSFQ high performance Digital Signal processor capable to perform up to 13 13-bit fixed-point GMACS/...
Superconducting digital technology based on Rapid Single Flux Quantum logic (RSFQ) is a digital tech...
The Multiply-Accumulate Unit (MAC) is a central component of a Successive Interference Canceller, an...
In this work we are going to present a design of a test bed for a superconducting high speed Digital...
Ultra fast switching speed of superconducting digital circuits enable realization of Digital Signal ...
Superconducting digital RSFQ technology offers unique digital processing solutions for the telecommu...
AbstractSuperconducting digital technology based on Rapid Single Flux Quantum (RSFQ) logic offers a ...
A new architecture and a new design method have been developed for the implementation of an RSFQ Suc...
We report an RSFQ Digital Signal Processor design based on hybrid RSFQ-CMOS memory suitable for a ge...
In this paper, we present the analysis, design, andcharacterization of the first frequency multiplie...
This work presents the design of RSFQ parallel multiplier suitable for implementation of the superco...
The growing market for fast floating-point coprocessors, digital signal processing chips, and graphi...
Superconductor digital technology based on Rapid Single Flux Quantum logic (RSFQ) offers more than 5...
We have designed and tested a four-bit RSFQ multiplier-accumulator, the central component of our dec...
A rapid single-flux-quantum (RSFQ) 4-bit bit-slice multiplier is proposed. A new systolic-like multi...
RSFQ high performance Digital Signal processor capable to perform up to 13 13-bit fixed-point GMACS/...
Superconducting digital technology based on Rapid Single Flux Quantum logic (RSFQ) is a digital tech...
The Multiply-Accumulate Unit (MAC) is a central component of a Successive Interference Canceller, an...
In this work we are going to present a design of a test bed for a superconducting high speed Digital...
Ultra fast switching speed of superconducting digital circuits enable realization of Digital Signal ...
Superconducting digital RSFQ technology offers unique digital processing solutions for the telecommu...
AbstractSuperconducting digital technology based on Rapid Single Flux Quantum (RSFQ) logic offers a ...
A new architecture and a new design method have been developed for the implementation of an RSFQ Suc...
We report an RSFQ Digital Signal Processor design based on hybrid RSFQ-CMOS memory suitable for a ge...
In this paper, we present the analysis, design, andcharacterization of the first frequency multiplie...