Table of Contents - ITU-T Rec. G.709/Y.1331 (06/2016) Interfaces for the optical transport network

�1�� Scope��
�2�� References
�3�� Definitions�
�� 3.1�� Terms defined elsewhere��
�� 3.2�� Terms defined in this Recommendation��
�4�� Abbreviations and acronyms��
�5�� Conventions��
�6�� Optical transport network interface structure��
�� 6.1�� Basic signal structure��
�� 6.2�� Information structure for OTN interfaces��
�7�� Multiplexing/mapping principles and bit rates��
�� 7.1�� Mapping��
�� 7.2�� Wavelength division multiplex��
�� 7.3�� Bit rates and capacity�
�� 7.4�� ODUk time‑division multiplex�
�8�� OTN Interfaces��
�� 8.1�� Single-OTU (SOTU) interface��
�� 8.2�� Multi-OTU (MOTU) interface��
�� 8.3�� Single-OTU with management (SOTUm) interface��
�� 8.4�� Multi-OTU with management (MOTUm) interface��
�9�� Media Element��
10�� OCh and OTSiA��
�� 10.1�� OCh��
�� 10.2�� Optical tributary signal assembly (OTSiA)��
11�� Optical transport unit (OTU)��
�� 11.1�� OTUk frame structure��
�� 11.2�� Scrambling��
�� 11.3�� OTUCn frame structure��
12�� Optical data unit (ODU)��
�� 12.1�� ODU frame structure
�� 12.2�� ODU bit rates and bit-rate tolerances
13�� Optical payload unit (OPU)
14�� Overhead information carried over the OSC and OCC��
15�� Overhead description��
�� 15.1�� Types of overhead��
�� 15.2�� Trail trace identifier and access point identifier definition��
�� 15.3�� OTS-O description��
�� 15.4�� OMS-O description��
�� 15.5�� OCh-O and OTSiG-O description��
�� 15.6�� OTU/ODU frame alignment OH description��
�� 15.7�� OTU OH description��
�� 15.8�� ODU OH description��
�� 15.9�� OPU OH description��
16�� Maintenance signals��
�� 16.1�� OTS maintenance signals��
�� 16.2�� OMS maintenance signals��
�� 16.3�� OCh and OTiSA maintenance signals��
�� 16.4�� OTU maintenance signals��
�� 16.5�� ODU maintenance signals��
�� 16.6�� Client maintenance signal��
17�� Mapping of client signals��
�� 17.1�� OPU client signal fail (CSF)��
�� 17.2�� Mapping of CBR2G5, CBR10G, CBR10G3 and CBR40G signals into OPUk��
�� 17.3�� Blank clause��
�� 17.4�� Mapping of GFP frames into OPUk (k=0,1,2,3,4,flex)��
�� 17.5�� Mapping of test signal into OPU��
�� 17.6�� Mapping of a non-specific client bit stream into OPUk��
�� 17.7�� Mapping of other constant bit-rate signals with justification into OPUk��
�� 17.8�� Mapping a 1000BASE-X and FC-1200 signal via timing transparent transcoding into OPUk��
�� 17.9�� Mapping a supra-2.488 Gbit/s CBR signal into OPUflex using BMP��
�� 17.10�� Mapping of packet client signals into OPUk��
�� 17.11�� Mapping of FlexE client signals into OPUflex using IMP��
�� 17.12�� Mapping of FlexE aware signals into OPUflex
18�� Blank clause��
19�� Mapping ODUj signals into the ODTU signal and the ODTU into the OPUk tributary slots��
�� 19.1�� OPUk tributary slot definition
�� 19.2�� ODTU definition��
�� 19.3�� Multiplexing ODTU signals into the OPUk��
�� 19.4�� OPUk multiplex overhead and ODTU justification overhead��
�� 19.5�� Mapping ODUj into ODTUjk��
�� 19.6�� Mapping of ODUj into ODTUk.ts��
20�� Mapping ODUk signals into the ODTUCn signal and the ODTUCn into the OPUCn tributary slots��
�� 20.1�� OPUCn tributary slot definition��
�� Page
�� 20.2�� ODTUCn definition��
�� 20.3�� Multiplexing ODTUCn signals into the OPUCn
�� 20.4�� OPUCn multiplex overhead and ODTU justification overhead
�� 20.5�� Mapping ODUk into ODTUCn.ts��
Annex A � Forward error correction using 16-byte interleaved RS(255,239) codecs��
Annex B � Adapting 64B/66B encoded clients via transcoding into 513B code blocks��
�� B.1�� Transmission order��
�� B.2�� Client frame recovery
�� B.3�� Transcoding from 66B blocks to 513B blocks��
�� B.4�� Link fault signalling��
Annex C � Adaptation of OTU3 and OTU4 over multichannel parallel interfaces��
Annex D � Generic mapping procedure principles��
�� D.1�� Basic principle��
�� D.2�� Applying GMP in OTN
�� D.3�� C_m(t) encoding and decoding�
�� D.4�� SC_nD(t) encoding and decoding��
Annex E � Adaptation of parallel 64B/66B encoded clients��
�� E.1�� Introduction��
�� E.2�� Clients signal format��
�� E.3�� Client frame recovery
�� E.4�� Additions to Annex B transcoding for parallel 64B/66B clients��
Annex F � Improved robustness for mapping of 40GBASE-R into OPU3 using 1027B code blocks��
�� F.1�� Introduction��
�� F.2�� 513B code block framing and flag bit protection��
�� F.3�� 66B block sequence check��
Annex G � Mapping ODU0 into a low latency OTU0 (OTU0LL)��
�� G.1�� Introduction��
�� G.2�� Optical transport unit 0 low latency (OTU0LL)�
Annex H � OTUCn sub rates (OTUCn-M)��
�� H.1�� Introduction��
�� H.2�� OTUCn-M frame format��
Appendix I � Range of stuff ratios for asynchronous mappings of CBR2G5, CBR10G, and CBR40G clients with �20 ppm bit-rate tolerance into OPUk, and for asynchronous multiplexing of ODUj into ODUk (k > j)��
Appendix II � Examples of functionally standardized OTU frame structures��
Appendix III � Example of ODUk multiplexing��
Appendix IV � Blank appendix��
Appendix V � ODUk multiplex structure identifier (MSI) examples��
Appendix VI � Parallel logic implementation of the CRC-9, CRC-8, CRC-5 and CRC-6��
Appendix VII � OTL4.10 structure��
Appendix VIII � CPRI into ODU mapping��
Appendix IX � Overview of CBR clients into OPU mapping types��
Appendix X � Overview of ODUj into OPUk mapping types��
Appendix XI � Derivation of recommended ODUflex(GFP) bit-rates and examples of ODUflex(GFP) clock generation��
�� XI.1�� Introduction��
�� XI.2�� Tributary slot sizes��
�� XI.3�� Example methods for ODUflex(GFP) clock generation
Appendix XII � Terminology changes between ITU-T G.709 Edition 4 and Edition 5��
Appendix XIII � OTUCn sub rates (OTUCn-M) Applications��
�� XIII.1�� Introduction�
�� XIII.2�� OTUCn-M frame format and rates��
�� XIII.3�� OTUCn-M fault condition��
Bibliography��