Title :
Photonic interconnects for gigabit multicomputer communications
Author :
Sauer, Jon R. ; Blumenthal, Daniel J. ; Ramanan, Aruna V.
Author_Institution :
Colorado Univ., Boulder, CO, USA
Abstract :
The ways in which photonic and optoelectronic technologies could play an important role in future highly scalable and flexible interconnects for multicomputer parallel processing systems are discussed. For electronic interconnect implementation, the primary limitations arise from transmission drive power requirements, limited bandwidth, and the crosstalk-limited length. It is shown that photonic interconnects can relieve these bottlenecks in order to allow systems to scale to large numbers of nodes without degrading the interconnect performance. As an example, a network architecture capable of interconnecting thousands of processors with multigigabit average access rate per user, and peak access rates an order of magnitude higher is presented. The network topology is a shuffle-exchange, multihop, multipath, wraparound direct interconnect that utilizes self-routing and a deflection flow control technique to simplify and speed the processing. An experimental 2*2 photonic switching node based on the presented techniques is described.<>
Keywords :
multiprocessing systems; optical interconnections; optical switches; average access rate; deflection flow control; electronic interconnect; gigabit multicomputer communications; multicomputer parallel processing systems; multihop multipath interconnect; network architecture; network topology; optoelectronic technologies; peak access rates; photonic interconnects; photonic switching node; photonic technology; self-routing; shuffle-exchange; wraparound direct interconnect; Computer architecture; Concurrent computing; Hardware; Multiprocessor interconnection networks; Optical interconnections; Parallel processing; Photonics; Scalability; Telecommunication computing; Telecommunication traffic;
Journal_Title :
LTS, IEEE
