DSP Design for Coherent Optical Point-to-Multipoint Transmission
T. Duthel, C.R.S. Fludger, Liu Bo, Stenio M. Ranzini, Antonio Napoli, Nikolai Sölch, S. M. Bilal, Sofia B. Amado, Saleem Alreesh, Jacqueline E. Sime, Amir Rashidinejad, Sezer Erkılınç, Júlio C. M. Diniz, Aditya Kakkar, Djalal Falih Bendimerad, Mathieu Chagnon, A. Mathur, Vince Dominic, Parmijit Samra, Henrik Åhlfeldt, Magnus Olson, Han Sun, Azmina Somani, Dave Welch
Abstract
A real-time implementation of a coherent optical pluggable module using digital sub-carrier (DSC) multiplexing has recently been demonstrated. Whilst these modules can support traditional point-to-point (P2P) applications, similar to e.g., 400ZR(+) – with at least the same performance, it is the point-to-multi-point (P2MP) functionality that differentiates their capabilities from a single-carrier implementation. The superior performance of coherent transmission and its insensitivity to link effects, in combination with P2MP capability, allows for new network architectures and can dramatically simplify how metro and access networks are designed. The enabling engine is the DSP ASIC, which generates and demodulates the sub-carriers in the digital domain and furthermore, handles P2MP operation-related aspects. Within the DSP, most of the functional blocks are equivalent to its single-carrier counterpart – even the DSP functionality and algorithms are very similar. Just a few additional mechanisms inside the DSP are needed to process DSCs. This paper details the related DSP design and discusses the requirements on the DSP algorithms that accommodate the low per sub-carrier symbol rate and the operation on intermediate digital carriers.