With regard to sustaining future capacity of network traffic, the current hardware technology has a big bottleneck in terms of power consumption and insufficient operation speed. To overcome this bottleneck, we have developed a single flux quantum (SFQ) packet-switching circuit. We report recent progress in developing the SFQ packet-switching application. First, we demonstrate a 40 GHz, 160 Gb/s, 4 x 4 packet switching circuit, which is currently the fastest clock frequency reported packet switch. Then, we describe a currently possible switching module using SFQ technology. Finally, we consider how SFQ technology can be used to scale the packet-switching capacity up to 100 Tbps
We have designed and experimentally verified a test bench for high frequency testing of Rapid Single...
Hardware accelerators integrating to general purpose processors are increasingly employed to achieve...
This paper proposes a novel method for transporting various types of user traffic effectively over t...
Single-flux quantum logic (SFQ) circuits, in which a flux quantum is used as an information carrier ...
We have carried out a paper feasibility study of the implementation of most common packet switching ...
We present the results of the feasibility study of ultra-fast low-power superconductor digital switc...
Abstract Packet switching revolutionized the Internet by allowing the efficient use of network resou...
[[abstract]]A switching device is required to build a realistic network which can handle the explosi...
We propose a new design approach for high-throughput arithmetic circuits based on state transitions ...
We have developed a method of designing single-flux-quantum (SFQ) logic circuits with passive gate-t...
A single-flux-quantum (SFQ) circuit is thought to be very suitable as a peripheral circuit for super...
The Single Flux Quantum (SFQ) logic family is a novel digital logic as it provides ultra-fast and en...
We experimentally demonstrated high-speed logic operations of adiabatic quantum-flux-parametron (AQF...
Superconducting quantum circuits have been proposed as qubits for developing quantum computation. Th...
AbstractIn order to control the state of qubits by a microwave pulse, the irradiation time and the a...
We have designed and experimentally verified a test bench for high frequency testing of Rapid Single...
Hardware accelerators integrating to general purpose processors are increasingly employed to achieve...
This paper proposes a novel method for transporting various types of user traffic effectively over t...
Single-flux quantum logic (SFQ) circuits, in which a flux quantum is used as an information carrier ...
We have carried out a paper feasibility study of the implementation of most common packet switching ...
We present the results of the feasibility study of ultra-fast low-power superconductor digital switc...
Abstract Packet switching revolutionized the Internet by allowing the efficient use of network resou...
[[abstract]]A switching device is required to build a realistic network which can handle the explosi...
We propose a new design approach for high-throughput arithmetic circuits based on state transitions ...
We have developed a method of designing single-flux-quantum (SFQ) logic circuits with passive gate-t...
A single-flux-quantum (SFQ) circuit is thought to be very suitable as a peripheral circuit for super...
The Single Flux Quantum (SFQ) logic family is a novel digital logic as it provides ultra-fast and en...
We experimentally demonstrated high-speed logic operations of adiabatic quantum-flux-parametron (AQF...
Superconducting quantum circuits have been proposed as qubits for developing quantum computation. Th...
AbstractIn order to control the state of qubits by a microwave pulse, the irradiation time and the a...
We have designed and experimentally verified a test bench for high frequency testing of Rapid Single...
Hardware accelerators integrating to general purpose processors are increasingly employed to achieve...
This paper proposes a novel method for transporting various types of user traffic effectively over t...