Table of Contents - ITU-T Rec. G.989.3 Amendment 2 (11/2018) 40-Gigabit-capable passive optical networks (NG-PON2): Transmission convergence layer specification Amendment 2

�1�� Scope��
�2�� References
�3�� Definitions
�4�� Abbreviations and acronyms��
�5�� Conventions��
�6�� NG-PON2 transmission convergence layer overview
�� 6.1�� TWDM transmission convergence layer��
�� 6.2�� PtP WDM AMCC transmission convergence layer overview��
�7�� TWDM resource allocation and quality of service��
�� 7.1�� Principles of downstream and upstream resource allocation��
�� 7.2�� Dynamic bandwidth assignment overview��
�� 7.3�� Reference model of dynamic bandwidth assignment��
�� 7.4�� DBA performance requirements��
�8�� NG-PON2 transmission convergence framing sublayer��
�� 8.1�� TWDM transmission convergence framing sublayer��
�� 8.2�� PtP WDM management framing sublayer��
�9�� TWDM encapsulation method��
�� 9.1�� XGEM framing��
�� 9.2�� XGEM frame delineation��
�� 9.3�� SDU fragmentation��
�� 9.4�� Mapping of services into XGEM frames��
10�� NG-PON2 PHY adaptation sublayer
�� 10.1� ��TWDM PHY adaptation sublayer��
�� 10.2�� PtP WDM management PHY adaptation sublayer��
11�� NG-PON2 PLOAM messaging channel��
�� 11.1�� Overview��
�� 11.2�� PLOAM message format��
�� 11.3�� PLOAM message definitions�
12�� NG-PON2 ONU activation�
�� 12.1�� TWDM PON ONU activation cycle��
�� 12.2�� PtP WDM ONU activation cycle��
13�� NG-PON2 OLT and ONU timing relationships��
�� 13.1�� TWDM ONU transmission timing and equalization delay��
�� 13.2�� Time of day distribution over TWDM Channel��
�� 13.3�� PtP WDM ONU transmission timing��
�� 14.1�� Performance monitoring��
�� 14.2�� Defects��
14�� TWDM performance monitoring, supervision and defects��
15�� TWDM security��
�� 15.1�� Threat model for NG-PON2��
�� 15.2�� Authentication��
�� 15.3�� Key derivation��
�� 15.4�� XGEM payload encryption system��
�� 15.5�� Data encryption key exchange and activation mechanism��
�� 15.6�� Integrity protection and data origin verification for PLOAM��
�� 15.7�� Integrity protection and data origin verification for OMCI��
�� 15.8�� Integrity and data origin verification key switching��
�� 15.9�� NG-PON2 systems with reduced data encryption strength��
16�� NG-PON2 power management��
�� 16.1�� TWDM power management�
�� 16.2�� PtP WDM power management��
17�� TWDM channel management��
�� 17.1�� Profile announcement��
�� 17.2�� ONU calibration��
�� 17.3�� ONU wavelength channel handover�
�� 17.4�� ONU wavelength channel locking��
18�� TWDM system protection�
�� 18.1�� OLT CT coordination in 1:1 Type B protection
�� 18.2�� OLT CT Type B protection state machine��
�� 18.3�� Simplified state transition diagram��
19�� Rogue behaviour and its mitigation��
�� 19.1�� Rogue ONU behaviour model in TWDM-PON
�� 19.2�� Rogue ONU behaviour model for PtP WDM��
�� 19.3�� Behaviour model when coexisting with ITU-T G.984 and ITU-T G.987 ONUs��
�� 19.4�� Protection from noise and alien ONUs��
�� 19.5�� Troublesome ONU presence detection enabled through idle window
Annex A � Hybrid error control (HEC) decoding and scrambler sequence codes��
�� A.1�� HEC decoding��
�� A.2 ��Scrambler sequence�
Annex B � Forward error correction using shortened Reed-Solomon codes��
Annex C � Secure mutual authentication via OMCI��
Annex D � Secure mutual authentication using IEEE 802.1X��
Annex E � Auxiliary management and control channel��
�� Page
Annex F � Tuning sequences��
�� F.1�� Tuning sequences��
�� F.2�� Definition of TC layer tuning time��
Annex G � Transcoded framing with FEC and OAM for PtP WDM AMCC TC��
�� G.1�� Services with 8B/10B line code��
�� G.2�� Services with 64B/66B line code��
Annex H � Wavelength channel bonding��
�� H.1�� Bonded ONU activation��
Appendix I � Downstream line data pattern conditioning��
Appendix II � Time of day derivation and error analysis��
Appendix III � Burst profiles��
Appendix IV � Golden vectors��
�� IV.1�� 10G downstream and upstream FEC codeword��
�� IV.2 ��10G upstream FEC short codeword��
�� IV.3�� 2.5G downstream and upstream FEC codeword��
�� IV.4�� 2.5G downstream FEC short codeword��
�� IV.5�� 2.5G upstream FEC short codeword��
�� IV.6�� Downstream AES-128 encryption��
�� IV.7�� Upstream AES-128 encryption��
�� IV.8�� Key derivation encryption��
�� IV.9�� Downstream PLOAM message integrity check
�� IV.10�� Upstream PLOAM message integrity check��
�� IV.11�� Upstream key reporting��
�� IV.12�� Downstream OMCI message integrity check�
Appendix V � Protection examples��
Appendix VI � ICTP: Inter-channel-termination protocol��
�� VI.1�� ICTP use cases��
�� VI.2�� ICTP primitives description��
Appendix VII � ONU equalization delay coordination across TWDM channels��
�� VII.1�� Re-ranging��
�� VII.2�� Consistent equalization delay method��
�� VII.3�� EqD pre-configuration��
Appendix VIII � PON-ID and NG-PON2 system identifier examples��
Appendix IX � Cooperative DBA by client systems for low-latency services��
�� IX.1�� PON application to low-latency services and its challenge��
�� IX.2�� Cooperative DBA by client systems��
�� IX.3�� Use case � mobile fronthaul��
�� IX.4�� Reference Point��
Appendix X � Combining OLT CTs with multiple ODN optical path loss classes� in the same NG-PON2 system� ��
�� X.1�� Motivation for combining multiple optical path loss classes in an NG-PON2 system��
�� X.2�� Best practice use case description��
Bibliography��