Title :
An All-Optical Token Technique Enabling a Fully-Distributed Control Plane in AWGR-Based Optical Interconnects
Author :
Proietti, Roberto ; Yin, Yawei ; Yu, Runxiang ; Nitta, Christopher ; Akella, Venkatesh ; Yoo, S.J.B.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of California, Davis, Davis, CA, USA
Abstract :
This paper proposes and experimentally demonstrates a fully-distributed All-Optical TOKEN (AO-TOKEN) contention resolution technique for AWGR-based optical interconnects. The AO-TOKEN technique is implemented by exploiting the saturation effect in SOAs placed at the AWGR outputs. A polarization-diversity scheme allows thoe data and control planes to share the same physical link. The AO-TOKEN is more scalable than alternative electrical/optical solutions since it eliminates the need for a centralized electrical control plane. Our experimental results show that the technique can work over a wavelength-range of ≈ 23 nm using off-the-shelf components. We also successfully demonstrate all-optical contention resolution, packet transmission, and switching with error-free operation at 10 Gb/s.
Keywords :
diffraction gratings; optical interconnections; optical waveguides; AWGR-based optical interconnects; all-optical contention resolution; all-optical token technique; alternative electrical/optical solutions; centralized electrical control plane; contention resolution technique; error-free operation; fully-distributed control plane; packet transmission; polarization-diversity scheme; Field programmable gate arrays; Logic gates; Optical buffering; Optical polarization; Optical saturation; Optical switches; Semiconductor optical amplifiers; All-optical; arrayed waveguide gratings; contention resolution; data centers; optical interconnects;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2012.2231664
