β Scribed by Le Nguyen Binh
No coin nor oath required. For personal study only.
This book offers insights into the key concepts and transporttechnology of data centres and is an invaluable source for scientists,engineers, professors and mid-senior level students.
PRELIMS.pdf
Preface
Acknowledgements
Author biography
Le Nguyen Binh
Abbreviations
CH001.pdf
Chapter 1 Historical overview and digital transmission technologies in cloud networking
1.1 Non-DSP based optical transmission technologies
1.2 Signal processor DSP based optical transmission
1.3 Increasing transmission capacity over short distances
1.4 Digital optical transmission in evolving networking
1.4.1 Traffic growth
1.4.2 Transmission technologies for intra- and inter-DC cloud networking
1.4.3 DCs and cloud computingβa historical overview
1.4.4 100 G, 400 G and beyondβtransmission technologies for cloud networking
1.5 Photonic signal processing
1.5.1 Motivations and backgrounds
1.5.2 Generic innovative models of photonic signal processors
1.6 Modulation techniques for ultra-broadband
1.6.1 Modulation formats and optical signal generation
1.7 Opto-electronic reception and processing
1.7.1 Incoherent optical receivers
1.7.2 DSPβcoherent optical receivers
1.7.3 e-DSP electronic equalization
1.8 Organization of the book
References
CH002.pdf
Chapter 2 Data center networking
2.1 The evolution of DCN and traditional telecoms networks
2.1.1 Types of data center networks
2.1.2 Performance of DCNs
2.1.3 Communication interconnection speed
2.2 Telecoms carriers and challenges from data center networking
2.2.1 Evolution to 5G transport DC based networks
2.2.2 Optical transport technology
2.2.3 Basic rates, capacity and server clusters for intra- and inter-DC connections
2.3 Exabits sβ1 integrated photonic interconnection technology for flexible data-centric optical networks
2.3.1 Introductory remarks
2.3.2 Ebps optical network topologies
2.3.3 Basic optical switches
2.3.4 Current technologies for optical switching and routing
2.3.5 Remarks
2.4 Concluding remarks
References
CH003.pdf
Chapter 3 Access and data center networking transmission technologies
3.1 Introductory remarks
3.2 DSP-based coherent optical transmission systems
3.3 Quadrature amplitude modulation (QAM)
3.3.1 112 Gβ800 Gbps QPSK coherent transmission systems
3.3.2 Modulation format 16QAM
3.3.3 Optical modulators
3.3.4 Optical transmitter
3.3.5 Optical receivers
3.3.6 IβQ imbalance estimation
3.4 Optical pre-processing reception and transmitter
3.4.1 Skew estimation
3.4.2 Fractionally spaced equalization of CD and PMD
3.4.3 Electronic digital equalization
3.5 16QAM systems
3.6 Terabits/second superchannel transmission systems
3.6.1 Overview
3.6.2 Nyquist pulse and spectra
3.6.3 Superchannel system requirements
3.6.4 System structure: DSP-based coherent receiver
3.7 Timing recovery in the Nyquist QAM channel
3.8 128 Gbps 16QAM superchannel transmission
3.9 450 Gb sβ1 32QAM Nyquist transmission systems
3.10 DSP-based heterodyne coherent reception systems
3.11 Remarks
3.12 PAM4 IM/DD systems
3.12.1 Generating PAM4 signals
3.12.2 DSP-based PAM4 generation for low cost broadband channels
3.12.3 PAM4 systems
3.13 Beyond 1.0 Tbps capacity using IM/DD systems
3.13.1 Beyond 200+ Gbps DMT transmission
3.13.2 Experimental set-up
3.13.3 Performance
3.13.4 Remarks
3.14 Higher order modulation in IM/DD systems
3.15 Concluding remarks
3.16 Appendix 1: Principles of DSP-based coherent transmission
3.17 Appendix 2: Balanced detection in coherent receivers
3.17.1 Optical front end
3.17.2 Optical mixing and polarization diversity
3.17.3 Differential amplification
3.17.4 Unmatched detector frequency responses
3.18 Intra-DC networking and access transmission
References
CH004.pdf
Chapter 4 Superchannel transmission by multi-carrier sources
4.1 Introduction
4.2 Comb generation of multi-sub-carriers
4.2.1 General structure
4.2.2 Synchronous optical modulator
4.2.3 Implementation of the comb generator
4.3 Dual band frequency shifting re-circulating comb generator
4.4 The comb generator in a multi-Tbps optical transmission system
4.5 Packing modulated comb channels in the frequency domain using Nyquist shaping
4.5.1 Analytical representation for pulse shaping
4.5.2 Implementation
4.6 Pulse shaping using ultra-high sampling rate DAC
4.7 Transmission of superchannels formed by modulated MCL
4.8 Remarks
4.9 Multi Tera-bits sβ1 optical access transport technology
4.9.1 Introductory remarks
4.9.2 100 G access systems
4.9.3 Tbps access transmission and routing technology
4.9.4 Multi-carrier comb source direct detection systems
4.10 Tbps coherent reception systems
4.11 Optical interconnect for multiple Tbps access networks
4.12 Remarks
4.13 Low cost 1.6 Tbps using un-cooled comb sources
4.13.1 DSP-assisted Tbps low cost comb source system
4.13.2 A simple generation of comb lines via cascade modulators
4.13.3 Optical injection and comb generation
4.13.4 Concluding remarks
References
CH005.pdf
Chapter 5 Photonic signal processors
5.1 Optical transformed channels and transmission: spectral domain processing
5.1.1 Optical Fourier transform (OFT) based structure
5.1.2 Optical Fourier processor OFT based structure
5.2 5G optical transport networking: from photonic devices to processors
5.2.1 Introduction
5.2.2 5G infrastructure evolution
5.2.3 Optical transport networking evolution for 5G delivery
5.3 Photonic signal processors
5.3.1 Generic deep neural network learning photonic signal processor (DNNLPSP)
5.3.2 PSP operating principles
5.3.3 ONN operating principles
References
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