Title :
Experimental assessment of a scalable and flow-controlled optical switch system for flat datacenter networks
Author :
Calabretta, Nicola ; Wang Miao ; Jun Luo ; Di Lucente, S. ; Dorren, Harm
Author_Institution :
COBRA Res. Inst., Eindhoven Univ. of Technol., Eindhoven, Netherlands
Abstract :
We propose and demonstrate an optical flat data center network based on scalable optical switch system with optical flow control. Experimental evaluation of the system at data rate of 40 Gb/s includes a 4×4 optical switch with highly distributed control for port-count independent nanosecond reconfiguration time for low latency operation. The hardware flow control at the optical level allows fast retransmission control of the electrical buffered packets at the edge nodes preventing the need of optical buffers. Moreover, this makes a dedicated flow control network redundant, which effectively reduces system complexity and power consumption. Dynamic switch operation reported 300 ns minimum end-to-end latency (including 25 m transmission link) and <; 10-6 packet loss for 0.4 load with buffer size of 16 packets.
Keywords :
computer centres; distributed control; optical control; optical switches; power consumption; bit rate 40 Gbit/s; distance 25 m; distributed control; edge nodes; electrical buffered packets; end-to-end latency; flow-controlled optical switch system; hardware flow control; optical buffers; optical flat data center network; optical flow control; packet loss; power consumption; retransmission control; scalable optical switch system; transmission link; Integrated optics; Optical buffering; Optical fibers; Optical packet switching; Optical switches; Optical transmitters; data center network; high performance computers; in-band labels; label processor; optical packet switching; optical signal processing; optical switch;
Conference_Titel :
Transparent Optical Networks (ICTON), 2014 16th International Conference on
Conference_Location :
Graz
DOI :
10.1109/ICTON.2014.6876545
