Title :
Single flux quantum packet switch circuits for large-scale communication systems
Author :
Yorozu, S. ; Kameda, Y. ; Hashimoto, Y. ; Tahara, S.
Author_Institution :
NEC Corp., Ibaraki, Japan
fDate :
6/1/2003 12:00:00 AM
Abstract :
Large-scale telecommunication systems in the larger nationwide network of the next decade will require routers having a packet switching throughput capacity of over several-tens Tbps. In such future high-end routers, the packet switch, which is the biggest bottleneck of the router, will need higher processing speeds than semiconductor devices. In this paper, we describe an SFQ packet switch architecture that is used in the internal speed-up Banyan network. According to the architecture we have designed and demonstrated a deep-pipelined 2×2 packet switch logic circuit, which is the key element in a packet switch, by applying two technological advances regarding design methodology and packaging. This circuit is among the largest SFQ random logic circuits yet reported.
Keywords :
packet switching; pipeline processing; superconducting logic circuits; telecommunication equipment; telecommunication network routing; CONNECT cell library; SFQ packet switch architecture; SFQ random logic circuit; deep-pipelined packet switch logic circuit; design methodology; high-end digital network systems; internal speed-up Banyan network; large-scale telecommunication systems; nationwide network; network routers; packaging; single flux quantum packet switch circuits; Communication switching; Design methodology; Large-scale systems; Logic circuits; Packet switching; Semiconductor devices; Switches; Switching circuits; Telecommunication switching; Throughput;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2003.813897
