8 March 2014 Photonic integration enabling new multiplexing concepts in optical board-to-board and rack-to-rack interconnects
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Proceedings Volume 8991, Optical Interconnects XIV; 89910D (2014) https://doi.org/10.1117/12.2042586
Event: SPIE OPTO, 2014, San Francisco, California, United States
Abstract
New broadband applications are causing the datacenters to proliferate, raising the bar for higher interconnection speeds. So far, optical board-to-board and rack-to-rack interconnects relied primarily on low-cost commodity optical components assembled in a single package. Although this concept proved successful in the first generations of opticalinterconnect modules, scalability is a daunting issue as signaling rates extend beyond 25 Gb/s. In this paper we present our work towards the development of two technology platforms for migration beyond Infiniband enhanced data rate (EDR), introducing new concepts in board-to-board and rack-to-rack interconnects. The first platform is developed in the framework of MIRAGE European project and relies on proven VCSEL technology, exploiting the inherent cost, yield, reliability and power consumption advantages of VCSELs. Wavelength multiplexing, PAM-4 modulation and multi-core fiber (MCF) multiplexing are introduced by combining VCSELs with integrated Si and glass photonics as well as BiCMOS electronics. An in-plane MCF-to-SOI interface is demonstrated, allowing coupling from the MCF cores to 340x400 nm Si waveguides. Development of a low-power VCSEL driver with integrated feed-forward equalizer is reported, allowing PAM-4 modulation of a bandwidth-limited VCSEL beyond 25 Gbaud. The second platform, developed within the frames of the European project PHOXTROT, considers the use of modulation formats of increased complexity in the context of optical interconnects. Powered by the evolution of DSP technology and towards an integration path between inter and intra datacenter traffic, this platform investigates optical interconnection system concepts capable to support 16QAM 40GBd data traffic, exploiting the advancements of silicon and polymer technologies.
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Dimitrios Apostolopoulos, Dimitrios Apostolopoulos, Paraskevas Bakopoulos, Paraskevas Bakopoulos, Dimitrios Kalavrouziotis, Dimitrios Kalavrouziotis, Giannis Giannoulis, Giannis Giannoulis, Giannis Kanakis, Giannis Kanakis, Nikos Iliadis, Nikos Iliadis, Christos Spatharakis, Christos Spatharakis, Johan Bauwelinck, Johan Bauwelinck, Hercules Avramopoulos, Hercules Avramopoulos, } "Photonic integration enabling new multiplexing concepts in optical board-to-board and rack-to-rack interconnects", Proc. SPIE 8991, Optical Interconnects XIV, 89910D (8 March 2014); doi: 10.1117/12.2042586; https://doi.org/10.1117/12.2042586
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