%0 Journal Article %1 Lin:18 %A Lin, Rui %A Kerrebrouck, Joris Van %A Pang, Xiaodan %A Verplaetse, Michiel %A Ozolins, Oskars %A Udalcovs, Aleksejs %A Zhang, Lu %A Gan, Lin %A Tang, Ming %A Fu, Songnian %A Schatz, Richard %A Westergren, Urban %A Popov, Sergei %A Liu, Deming %A Tong, Weijun %A Keulenaer, Timothy De %A Torfs, Guy %A Bauwelinck, Johan %A Yin, Xin %A Chen, Jiajia %D 2018 %I OSA %J Opt. Express %K sendate sendate-ficus %N 8 %P 10519--10526 %R 10.1364/OE.26.010519 %T Real-time 100 Gbps/&\#x03BB;/core NRZ and EDB IM/DD transmission over multicore fiber for intra-datacenter communication networks %U http://www.opticsexpress.org/abstract.cfm?URI=oe-26-8-10519 %V 26 %X A BiCMOS chip-based real-time intensity modulation/direct detection spatial division multiplexing system is experimentally demonstrated for both optical interconnects. 100 Gbps/&\#x03BB;/core electrical duobinary (EDB) transmission over 1 km 7-core multicore fiber (MCF) is carried out, achieving KP4 forward error correction (FEC) limit (BER < 2E-4). Using optical dispersion compensation, 7 &\#x00D7; 100 Gbps/&\#x03BB;/core transmission of both non-return-to-zero (NRZ) and EDB signals over 10 km MCF transmission is achieved with BER lower than 7\% overhead hard-decision FEC limit (BER < 3.8E-3). The integrated low complexity transceiver IC and analog signal processing approach make such a system highly attractive for the high-speed intra-datacenter interconnects.

@article{Lin:18, abstract = {A BiCMOS chip-based real-time intensity modulation/direct detection spatial division multiplexing system is experimentally demonstrated for both optical interconnects. 100 Gbps/\&\#x03BB;/core electrical duobinary (EDB) transmission over 1 km 7-core multicore fiber (MCF) is carried out, achieving KP4 forward error correction (FEC) limit (BER \< 2E-4). Using optical dispersion compensation, 7 \&\#x00D7; 100 Gbps/\&\#x03BB;/core transmission of both non-return-to-zero (NRZ) and EDB signals over 10 km MCF transmission is achieved with BER lower than 7\% overhead hard-decision FEC limit (BER \< 3.8E-3). The integrated low complexity transceiver IC and analog signal processing approach make such a system highly attractive for the high-speed intra-datacenter interconnects.}, added-at = {2019-03-19T15:29:25.000+0100}, author = {Lin, Rui and Kerrebrouck, Joris Van and Pang, Xiaodan and Verplaetse, Michiel and Ozolins, Oskars and Udalcovs, Aleksejs and Zhang, Lu and Gan, Lin and Tang, Ming and Fu, Songnian and Schatz, Richard and Westergren, Urban and Popov, Sergei and Liu, Deming and Tong, Weijun and Keulenaer, Timothy De and Torfs, Guy and Bauwelinck, Johan and Yin, Xin and Chen, Jiajia}, biburl = {https://www.bibsonomy.org/bibtex/2fcdbdbc37fb06a8a1c23829feef3b044/jonasmartensson}, doi = {10.1364/OE.26.010519}, interhash = {a7c3c432ced70cd531e31b627a955841}, intrahash = {fcdbdbc37fb06a8a1c23829feef3b044}, journal = {Opt. Express}, keywords = {sendate sendate-ficus}, month = apr, number = 8, pages = {10519--10526}, publisher = {OSA}, timestamp = {2019-03-19T15:29:25.000+0100}, title = {Real-time 100 Gbps/\&\#x03BB;/core NRZ and EDB IM/DD transmission over multicore fiber for intra-datacenter communication networks}, url = {http://www.opticsexpress.org/abstract.cfm?URI=oe-26-8-10519}, volume = 26, year = 2018 }