1 Scope
2 References
3 Terms and definitions
3.1 Terms defined elsewhere
3.2 Terms defined in this Recommendation
4 Abbreviations and acronyms
5 Conventions
6 Functional architecture of Ethernet transport networks
6.1 General
6.2 Ethernet network layered structure
6.3 Ethernet (ETH) layer network
6.4 Ethernet PHY (ETY) layer network
6.5 Server/Client associations
6.6 Ethernet network topology
7 Ethernet network management
7.1 Ethernet maintenance entity groups
7.2 Ethernet maintenance entity group supervision techniques
7.3 Ethernet layer network management requirements
7.4 Ethernet layer network traffic management
7.5 ETH transport processing functions
8 Ethernet survivability techniques
9 Transport functional architecture of Ethernet networks (using [ITU-T
G.800])
9.1 General principles
9.2 Ethernet transport network layered structure
9.3 Ethernet MAC (ETH) layer network
9.4 Server/client associations
9.5 Ethernet network topology
9.6 Ethernet network management
Annex A – Flow domain fragments
Appendix I – Flows and their properties
Appendix II – G.8010/Y.1306 model of 2-port bridge
Appendix III – Overview of the VLAN ID in the MAC SDU and VLAN ID
processing
Appendix IV – ETHn_CI (n = 0, 1, 2) traffic unit formats
Appendix V – Maintenance entity group level allocation examples
Appendix VI – Allocation of ITU-T G.8013 ETH OAM messages onto G.8010/Y.1306
atomic functions
Appendix VII – Deployment scenario for the ETH group
Appendix VIII – ITU-T G.800 modelling conventions
VIII.1 Terminology
VIII.2 Diagrammatic conventions
Appendix IX – Mapping between clause 9 and clause 6/7 architectural
components
Appendix X – Mapping between clause 9 and IEEE 802.1 architectural
components
Appendix XI – Rooted multipoint using asymmetric VLANs
Appendix XII – Rooted multipoint use in MP-MP service (split horizon)