Real-Time Implementation of Coherent Receiver DSP Adopting Stream Split Assignment on GPU for Flexible Optical Access Systems

We aim to maximize the flexibility of access networks by combining two trends: digital signal processing (DSP)-based physical (PHY) layer technologies and network function virtualization (NFV). We implement an advanced DSP-PHY on a general-purpose server. However, given that the server must handle high data transfer rate, the transfer time is a significant issue for softwarizing DSP-PHY. This article proposes a pipeline architecture that adopts split assignment of the transfer stream; it can execute data transfer and DSP-PHY calculation in parallel which significantly reduces the processing time. We implement on a graphic processing unit (GPU) a 5-Gbit/s coherent receiver DSP handling the output of a 40-Gbit/s analog-to-digital converter. As evaluated in an optical system, our proposal significantly relaxes the processing time requirement for DSP algorithm calculations; the processing time margin is 11.2 times greater than that of previous work. An additional digital filter is also successfully implemented in real time; it offers an optical power budget of 47.2-dB, a gain of 2-dB.

[1]  Sang-Yuep Kim,et al.  Coherent receiver DSP implemented on a general-purpose server for a full software-defined access system , 2019, IEEE/OSA Journal of Optical Communications and Networking.

[2]  Wonyong Sung,et al.  GPU based implementation of recursive digital filtering algorithms , 2013, 2013 IEEE International Conference on Acoustics, Speech and Signal Processing.

[3]  Seb J Savory,et al.  Digital filters for coherent optical receivers. , 2008, Optics express.

[4]  Kazuro Kikuchi,et al.  Adaptive frequency-domain equalization in digital coherent optical receivers. , 2011, Optics express.

[5]  Jun-ichi Kani,et al.  Coherent Receiver DSP Implemented on a General-Purpose Server for Full Software-Defined Optical Access , 2018, 2018 Optical Fiber Communications Conference and Exposition (OFC).

[6]  Takashi Inoue,et al.  Virtualization of EPON OLT functions and collision suppression techniques for Multi-Point MAC control , 2016, 2016 Optical Fiber Communications Conference and Exhibition (OFC).

[7]  Takashi Yamada,et al.  Design of softwarized EPON OLT and its transmission jitter suppression techniques over MPCP , 2017, 2017 Optical Fiber Communications Conference and Exhibition (OFC).

[8]  Jun-ichi Kani,et al.  Demonstration of Real-Time Burst-Mode Digital Coherent Reception With Wide Dynamic Range in DSP-Based PON Upstream , 2017, Journal of Lightwave Technology.

[9]  Margaret Martonosi,et al.  Cache decay: exploiting generational behavior to reduce cache leakage power , 2001, ISCA 2001.

[10]  D. Godard,et al.  Self-Recovering Equalization and Carrier Tracking in Two-Dimensional Data Communication Systems , 1980, IEEE Trans. Commun..

[11]  P. Bayvel,et al.  A baud-rate sampled coherent transceiver with digital pulse shaping and interpolation , 2013, 2013 Optical Fiber Communication Conference and Exposition and the National Fiber Optic Engineers Conference (OFC/NFOEC).

[12]  Jun-ichi Kani,et al.  Software Implementation of 10G-EPON Upstream Physical-Layer Processing for Flexible Access Systems , 2019, Journal of Lightwave Technology.

[13]  Yong Dou,et al.  A multi-standard efficient column-layered LDPC decoder for Software Defined Radio on GPUs , 2013, 2013 IEEE 14th Workshop on Signal Processing Advances in Wireless Communications (SPAWC).

[14]  Sang-Yuep Kim,et al.  Real-time demonstration of 30 Gbit/s hierarchical star 8-QAM passive optical network employing fractionally-spaced signed-error radius directed equalisation , 2016 .

[15]  Jun-ichi Kani,et al.  Flexible Access System Architecture (FASA) to Support Diverse Requirements and Agile Service Creation , 2018, Journal of Lightwave Technology.

[16]  Xu Tang,et al.  Real-Time Implementation of Particle-PHD Filter Based on GPU , 2014, 2014 IEEE 17th International Conference on Computational Science and Engineering.

[17]  Yong Lin,et al.  High Throughput LDPC Decoder on GPU , 2014, IEEE Communications Letters.

[18]  Xinxin Mei,et al.  A measurement study of GPU DVFS on energy conservation , 2013, HotPower '13.

[19]  Jun-ichi Kani,et al.  10-Gb/s Software Implementation of Burst-Frame Synchronization Using Array-Access Bitshift and Dual-Stage Detection for Flexible Access Systems , 2018, Journal of Lightwave Technology.