50 Gbit/s real-time test environment for integrated photonic DQPSK receivers
Cited articles
Fischer, C.: Design of a FPGA-based DQPSK transceiver for optical communication systems with data rates up to 50 Gbit/s, Diploma Thesis, University of Stuttgart, Institute for Electrical and Optical Communications Engineering, Germany, 2013.
Harris, D.: A taxonomy of parallel prefix networks, Conference Record of the Thirty-Seventh Asilomar Conference on Signals, Systems and Computers, Asilomar Grounds in Pacific Grove, CA, USA, 9–12 November, 2003.
Knoll, D., Lischke, S., Zimmermann, L., Heinemann, B., Micusik, D., Ostrovskyy, P., Winzer, G., Kroh, M., Barth, R., Grabolla, T., Schulz, K., Fraschke, M., Lisker, M., Drews, J., Trusch, A., Krüger, A., Marschmeyer, S., Richter, H., Fursenko, O.,Yamamoto, Y., Tillack, B., Wohlfeil, B., and Petermann, K.: Monolithically Integrated 25 Gbit/sec Receiver for 1.55 μm in Photonic BiCMOS Technology, Optical Fiber Communication Conference and Exposition (OFC), San Francisco, CA, USA, 9–13 March, 2014.
Seimetz, M.: High-Order Modulation for Optical Fiber Transmission, 1st edition Springer Series in Optical Sciences, edited by: W. T. Rhodes, Atlanta, Springer Verlag Berlin Heidelberg, 2009.
Winzer, P. J., Raybon, G., Song, H., Adamiecki, A., Gnauck, A. H., Fishman, D. A., Doerr, C. R., Chandrasekhar, S., Buhl, L. L., Xia, T. J., Wellbrock, G., Lee, W., Basch, B., Kawanishi, T., Higuma, K., and Painchaud, Y.: 100-Gb/s DQPSK Transmission: From Laboratory Experiments to Field Trials, J. Lightwave Technol., 26, 3388–3402, 15 October, 2008.