Title :
Saturn: a terabit packet switch using dual round robin
Author_Institution :
Polytech.. Univ., New York, NY, USA
fDate :
12/1/2000 12:00:00 AM
Abstract :
Large input-output buffering with a moderate speedup has been widely considered as the most feasible solution for large-capacity switches. We propose a new terabit per second packet switch and call it the Saturn switch. It uses a simple dual round-robin arbitration scheme to schedule packets, and achieves high throughput and low statistical delay bound. It employs a bit-sliced crossbar fabric to switch packets at 10 Gb/s at inputs and outputs, and adopts a novel token-tunneling technique to arbitrate contending packets at high speed (e.g., within 10 ns), thus achieving a switch capacity of more than 1 Tb/s with existing electronic technology.
Keywords :
delays; electronic switching systems; packet switching; telecommunication congestion control; 10 Gbit/s; Saturn switch; bit-sliced crossbar fabric; delay control; dual round-robin arbitration; electronic technology; high throughput; large input-output buffering; large-capacity switches; low statistical delay bound; packet contention arbitration; packet scheduling; switch capacity; terabit packet switch; token-tunneling technique; Bandwidth; Delay; Emulation; Fabrics; Internet; Optical packet switching; Packet switching; Saturn; Scheduling algorithm; Switches;
Journal_Title :
Communications Magazine, IEEE
