Title :
Optical high radix switch design
Author :
Binkert, Nathan ; Davis, Al ; Jouppi, Norman P. ; McLaren, Moray ; Muralimanohar, Naveen ; Schreiber, Robert ; Ahn, Jung Ho
Abstract :
Networking consumes up to 33 percent of modern data center power. Network switches are the key source of inefficiency: a switch traversal costs an order of magnitude more than a link traversal. The authors propose a new high-radix switch architecture that uses emerging integrated optical interconnect technology to reduce switch power. They tailor every component of a switch to best exploit optical technology and improve switch scalability and energy efficiency.
Keywords :
optical interconnections; optical switches; energy efficiency; high-radix switch architecture; integrated optical interconnect technology; network switches; optical high radix switch design; optical technology; switch scalability; switch traversal costs; Bandwidth; Network architecture; Optical buffering; Optical interconnections; Optical switches; Optical waveguides; Photonics; Switching circuits; high-radix switch architecture; network switches; optical interconnect technology;
Journal_Title :
Micro, IEEE
