CMOS DAC Supported 1.1 Tb/s/λ DWDM Transmission at 9.8 bit/s/Hz Over DCI Distances
Fred Buchali, Vincent Lauinger, Mathieu Chagnon, Karsten Schuh, Vahid Aref
Abstract
We report on a 16-nm CMOS DAC based transmitter optimization enabling bitrates up to 1.1 Tb/s. We describe the transmitter optimization and derive the maximization of the net bitrate. Based on back-to-back experiments we optimize the entropy of the probabilistically shaped QAM format, which we further apply for subsequent transmission experiments over data center interconnect distances. Finally, we successfully demonstrate DWDM transmission of 17 channels in a 112.5 GHz grid operated at 105 GBaud over 80 km up to 118 km achieving a net bitrate of 1.1 Tb/s and spectral efficiencies of 9.8 bit/s/Hz.
Topics & Concepts
TransmitterTransmission (telecommunications)CMOSWavelength-division multiplexingElectronic engineeringQuadrature amplitude modulationPhase-shift keyingComputer scienceBit error rateOpticsPhysicsTelecommunicationsEngineeringChannel (broadcasting)WavelengthOptical Network TechnologiesError Correcting Code TechniquesAdvanced Wireless Communication Techniques