Title :
Proposed Low-Power High-Speed Microring Resonator-Based Switching Technique for Dynamically Reconfigurable Optical Interconnects
Author :
Kochar, Chander ; Kodi, Avinash ; Louri, Ahmed
Author_Institution :
Arizona Univ., Tucson
Abstract :
The dynamic bandwidth re-allocation (DBR) technique balances traffic by re-allocating bandwidth from under-utilized links to over-utilized links in a network. In this letter, we propose a nonblocking, fast, low-power, and integratable optical switch that enables DBR. The basic building blocks of the proposed switch are silicon-on-insulator-based microring resonators. Analytical and numerical studies show that the active switch design gives similar performance in throughput and latency, while reducing cost (number of lasers) and area significantly when compared to implementation of DBR with only passive components. There is a slight increase in power (~0.4% for worst-case traffic pattern) using the active switch implementation.
Keywords :
bandwidth allocation; cavity resonators; integrated optics; microcavities; optical fibre networks; optical interconnections; optical resonators; photonic switching systems; silicon-on-insulator; telecommunication traffic; active switch design; dynamic bandwidth re-allocation; dynamically reconfigurable optical interconnects; high-speed microring resonator-based switching; low-power microring resonator-based switching; optical switch; over-utilized links; silicon-on-insulator-based microring resonator; telecommunication network; telecommunication traffic; under-utilized links; Bandwidth; Delay; Distributed Bragg reflectors; Optical design; Optical interconnections; Optical resonators; Optical switches; Performance analysis; Telecommunication traffic; Throughput; Dynamic bandwidth re-allocation (DBR); microring resonators; reconfigurable architectures;
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2007.902347
