800G DSP ASIC Design Using Probabilistic Shaping and Digital Sub-Carrier Multiplexing

800G DSP ASIC Design Using Probabilistic Shaping and Digital Sub-Carrier Multiplexing

The design of application-specific integrated circuits (ASIC) is at the core of modern ultra-high-speed transponders employing advanced digital signal processing (DSP) algorithms. This manuscript discusses the motivations for jointly utilizing transmission techniques such as probabilistic shaping an...

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Veröffentlicht in:Journal of lightwave technology 2020-09, Vol.38 (17), p.4744-4756
Hauptverfasser: Sun, Han, Torbatian, Mehdi, Karimi, Mehdi, Maher, Robert, Thomson, Sandy, Tehrani, Mohsen, Gao, Yuliang, Kumpera, Ales, Soliman, George, Kakkar, Aditya, Osman, Mohammad, El-Sahn, Ziad A., Doggart, Clayton, Hou, Weikun, Sutarwala, Shailesh, Wu, Yuejian, Chitgarha, Mohammad Reza, Lal, Vikrant, Tsai, Huan-Shang, Corzine, Scott, Zhang, Jiaming, Osenbach, John, Buggaveeti, Sanketh, Morbi, Zulfikar, Olmedo, Miguel Iglesias, Leung, Irene, Xu, Xian, Samra, Parmijit, Dominic, Vince, Sanders, Steve, Ziari, Mehrdad, Napoli, Antonio, Spinnler, Bernhard, Wu, Kuang-Tsan, Kandappan, Parthiban
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Application specific integrated circuits
ASIC design
Circuit design
Digital signal processing
digital sub-carrier multiplexing
Dispersion
DSP
High speed
high-capacity systems
high-order modulation formats
Integrated circuits
Laser noise
Modulation
Multiplexing
Phase noise
probabilistic shaping
Transponders
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Zusammenfassung:The design of application-specific integrated circuits (ASIC) is at the core of modern ultra-high-speed transponders employing advanced digital signal processing (DSP) algorithms. This manuscript discusses the motivations for jointly utilizing transmission techniques such as probabilistic shaping and digital sub-carrier multiplexing in digital coherent optical transmissions systems. First, we describe the key-building blocks of modern high-speed DSP-based transponders working at up to 800G per wave. Second, we show the benefits of these transmission methods in terms of system level performance. Finally, we report, to the best of our knowledge, the first long-haul experimental transmission - e.g., over 1000 km - with a real-time 7 nm DSP ASIC and digital coherent optics (DCO) capable of data rates up to 1.6 Tb/s using two waves (2 × 800G).
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.2020.2996188