Thick-SOI Echelle grating for any-to-any wavelength routing interconnection in multi-socket computing environments

G. Dabos; S. Pitris; C. Mitsolidou; T. Alexoudi; D. Fitsios; M. Cherchi; M. Harjanne; T. Aalto; G. T. Kanellos; N. Pleros

doi:10.1117/12.2250772

20 February 2017 Thick-SOI Echelle grating for any-to-any wavelength routing interconnection in multi-socket computing environments

G. Dabos, S. Pitris, C. Mitsolidou, T. Alexoudi, D. Fitsios, M. Cherchi, M. Harjanne, T. Aalto, G. T. Kanellos, N. Pleros

Author Affiliations +

Proceedings Volume 10109, Optical Interconnects XVII; 1010914 (2017) https://doi.org/10.1117/12.2250772
Event: SPIE OPTO, 2017, San Francisco, California, United States

Abstract

As data centers constantly expand, electronic switches are facing the challenge of enhanced scalability and the request for increased pin-count and bandwidth. Photonic technology and wavelength division multiplexing have always been a strong alternative for efficient routing and their potential was already proven in the telecoms. CWDM transceivers have emerged in the board-to-board level interconnection, revealing the potential for wavelength-routing to be applied in the datacom and an AWGR-based approach has recently been proposed towards building an optical multi-socket interconnection to offer any-to-any connectivity with high aggregated throughput and reduced power consumption.

Echelle gratings have long been recognized as the multiplexing block exhibiting smallest footprint and robustness in a wide number of applications compared to other alternatives such as the Arrayed Waveguide Grating. Such filtering devices can also perform in a similar way to cyclical AWGR and serve as mid-board routing platforms in multi-socket environments. In this communication, we present such a 3x3 Echelle grating integrated on thick SOI platform with aluminum-coated facets that is shown to perform successful wavelength-routing functionality at 10 Gb/s. The device exhibits a footprint of 60x270 μm², while the static characterization showed a 3 dB on–chip loss for the best channel. The 3 dB-bandwidth of the channels was 4.5 nm and the free spectral range was 90 nm. The echelle was evaluated in a 2x2 wavelength routing topology, exhibiting a power penalty of below 0.4 dB at 10^-9 BER for the C-band. Further experimental evaluations of the platform involve commercially available CWDM datacenter transceivers, towards emulating an optically-interconnected multi-socket environment traffic scenario.

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G. Dabos, S. Pitris, C. Mitsolidou, T. Alexoudi, D. Fitsios, M. Cherchi, M. Harjanne, T. Aalto, G. T. Kanellos, and N. Pleros "Thick-SOI Echelle grating for any-to-any wavelength routing interconnection in multi-socket computing environments", Proc. SPIE 10109, Optical Interconnects XVII, 1010914 (20 February 2017); https://doi.org/10.1117/12.2250772

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