Rec. ITU-T G.798 Amendment 2(12/2019) Characteristics of optical transport network hierarchy equipment functional blocks
Summary
History
FOREWORD
Table of Contents
1 Scope
2 References
3 Definitions
     3.1 Terms defined elsewhere
          3.1.1 Terms defined in [ITU-T G.709]
          3.1.2 Terms defined in [ITU-T G.780]
          3.1.3 Terms defined in [ITU-T G.805]
          3.1.4 Terms defined in [ITU-T G.806]
          3.1.5 Terms defined in [ITU-T G.808]
          3.1.6 Terms defined in [ITU-T G.831]
          3.1.7 Terms defined in [ITU-T G.872]
          3.1.8 Terms defined in [ITU-T G.959.1]
          3.1.9 Terms defined in [ITU-T G.7044]
     3.2 Terms defined in this Recommendation
4 Abbreviations and acronyms
5 Conventions
6 Supervision
     6.1 Alarm reporting control
     6.2 Defects
          6.2.1 Continuity supervision (loss of continuity defect)
               6.2.1.1 Loss of optical signal defect (dLOS-P)
               6.2.1.2 Loss of signal payload defect (dLOS-P)
               6.2.1.3 Loss of signal overhead defect (dLOS-O)
               6.2.1.4 Open connection indication defect (dOCI)
               6.2.1.5 Loss of tandem connection defect (dLTC)
                    6.2.1.5.1 dLTC at the ODUT layer
          6.2.2 Connectivity supervision/trail trace identifier mismatch defect (dTIM)
               6.2.2.1 dTIM at the OTS-O, OTSiG-O, OTU, ODUT and ODUP layer
          6.2.3 Signal quality supervision
               6.2.3.1  Blank clause
               6.2.3.2  Blank clause
               6.2.3.3  Blank clause
               6.2.3.4 OTU and ODU signal degrade defect (dDEG)
               6.2.3.5 Blank clause
          6.2.4 Payload mismatch supervision (dPLM)
               6.2.4.1 dPLM at the ODUP layer
               6.2.4.2 Blank clause
          6.2.5 Alignment supervision
               6.2.5.1 Loss of frame defect (dLOF)
               6.2.5.2 Loss of multiframe defect (dLOM)
               6.2.5.3 Loss of frame and multiframe defect (dLOFLOM)
               6.2.5.4 Blank clause
               6.2.5.5 Loss of lane alignment defect (dLOL)
               6.2.5.6 Loss of frame defect of logical lane (dLOFLANE)
               6.2.5.7 Loss of character synchronization (dLCS)
                    6.2.5.7.1 Loss of character synchronization of 66b blocks (dLCS)
                    6.2.5.7.2 Loss of character synchronization of 1027b blocks (dLCS)
          6.2.6 Maintenance signal supervision
               6.2.6.1 Forward defect indication payload defect (dFDI-P)
                    6.2.6.1.1 dFDI-P at the OMS-O, OCh-O and OTSiG-O layer
               6.2.6.2 Forward defect indication overhead defect (dFDI-O)
                    6.2.6.2.1 dFDI-O at the OMS-O and OTSiG-O layer
               6.2.6.3 Alarm indication signal defect (dAIS)
                    6.2.6.3.1 dAIS at OTUk layer (generic AIS)
                    6.2.6.3.2 dAIS at OTUCn, ODUT and ODUP layer
                    6.2.6.3.3 dAIS for CBR client signals (generic AIS)
               6.2.6.4 Backward defect indication payload defect (dBDI-P)
                    6.2.6.4.1 dBDI-P at OTS-O and OMS-O layer
               6.2.6.5 Backward defect indication overhead defect (dBDI-O)
                    6.2.6.5.1 dBDI-O at OTS-O and OMS-O layer
               6.2.6.6 Backward defect indication defect (dBDI)
                    6.2.6.6.1 dBDI at OTU, ODUT and ODUP layer
               6.2.6.7 Payload missing indication defect (dPMI)
                    6.2.6.7.1 dPMI at the OTS-O and OMS-O layer
               6.2.6.8 Open connection indication defect (dOCI)
                    6.2.6.8.1 dOCI at the OCh-O and OTSiG-O layer
                    6.2.6.8.2 dOCI at the ODUkP and ODUkT layer
               6.2.6.9 Locked defect (dLCK)
                    6.2.6.9.1 dLCK at the ODUP and ODUT layer
               6.2.6.10 Incoming alignment error defect (dIAE)
                    6.2.6.10.1  dIAE at the OTUk layer
                    6.2.6.10.2  dIAE at the OTUCn and ODUT layer
               6.2.6.11 Backward incoming alignment error defect (dBIAE)
                    6.2.6.11.1  dBIAE at the OTU and ODUT layer
          6.2.7 Protocol supervision
               6.2.7.1 Protection protocol supervision
                    6.2.7.1.1 ODU linear protection failure of protocol provisioning mismatch (dFOP-PM)
                    6.2.7.1.2 ODU linear protection failure of protocol no response defect (dFOP-NR)
          6.2.8 Optical supervisory channel (OSC) related defects
          6.2.9 Multiplex structure identifier mismatch supervision defect (dMSIM)
               6.2.9.1 dMSIM[i] at the ODUkP layer
               6.2.9.2 dMSIM[i] at the ODUCnP layer
               6.2.9.3 dMSIM[i] at the OMS-O layer
          6.2.10 Client signal fail defect (dCSF)
     6.3 Consequent actions
     6.4 Defect correlations
     6.5 Performance filters
          6.5.1 One-second performance monitoring filters associated with counts
               6.5.1.1 Errored block count (EBC)
               6.5.1.2 Defect second (DS)
               6.5.1.3 FEC corrected errors (FECcorrErr)
7 Information flow across reference points
8 Generic processes
     8.1 Blank clause
     8.2 Alignment processes
          8.2.1 OTU frame alignment
          8.2.2 OTU and FlexO multiframe alignment
          8.2.3 Frame and multiframe alignment for OTUC or extended ODUj
          8.2.4 Blank clause
          8.2.5 Logical OTU logical lane frame alignment
          8.2.6 Logical OTU logical lane alignment
               8.2.6.1 OTU3 multilane alignment
               8.2.6.2 OTU4 multilane alignment
          8.2.7 Block Synchronization
               8.2.7.1 66B Block synchronization
     8.3 Signal quality supervision
          8.3.1 Blank clause
          8.3.2 Blank clause
          8.3.3 Blank clause
          8.3.4 OTU, ODUT and ODUP signal quality supervision
               8.3.4.1 BIP-8 source processing
               8.3.4.2 BIP-8 sink processing
     8.4 Blank clause
     8.5 OTUk forward error correction (FEC) processing
     8.6 Trail trace identifier (TTI) processing
     8.7 Payload structure indication (PSI) acceptance processes
          8.7.1 Payload type (PT) acceptance process
          8.7.2 Multiplex structure identifier (MSI) acceptance process
               8.7.2.1 ODUk multiplex structure identifier (MSI) acceptance process
               8.7.2.2 ODUCn multiplex structure identifier (MSI) acceptance process
               8.7.2.3 OMS-O multiplex structure identifier (MSI) acceptance process
          8.7.3 Blank clause
     8.8 Status information (STAT) acceptance process
     8.9 Generic AIS generation and detection
     8.10 Generic layer fault processing
     8.11 OTSi modulator and demodulator processes
9 OTS-O layer functions
     9.1 Connection functions
     9.2 Termination functions
          9.2.1 OTS-O trail termination function (OTS-O_TT)
               9.2.1.1 OTS-O trail termination source function (OTS-O_TT_So)
               9.2.1.2 OTS-O trail termination sink function (OTS-O_TT_Sk)
     9.3 Adaptation functions
          9.3.1 OTS-O to OMS-O adaptation function (OTS-O/OMS-O_A)
               9.3.1.1 OTS-O to OMS-O adaptation source function (OTS-O/OMS-O_A_So)
               9.3.1.2 OTS-O to OMS-O adaptation sink function (OTS-O/OMS-O_A_Sk)
10 OMS-O layer functions
     10.1 Connection functions
     10.2 Termination functions
          10.2.1 OMS-O trail termination function (OMS-O_TT)
               10.2.1.1 OMS-O trail termination source function (OMS-O_TT_So)
               10.2.1.2 OMS-O trail termination sink function (OMS-O_TT_Sk)
     10.3 Adaptation functions
          10.3.1 OMS-O to OCh-O adaptation function (OMS-O/OCh-O_A)
               10.3.1.1 OMS-O to OCh-O adaptation source function (OMS-O/OCh-O_A_So)
               10.3.1.2 OMS-O to OCh-O adaptation sink function (OMS-O/OCh-O_A_Sk)
          10.3.2 OMS-O to OTSiG-O and OCh-O adaptation function (OMS-O/OTSiG|OCh-O_A)
               10.3.2.1 OMS-O to OTSiG-O and OCh-O adaptation source function (OMS-O/OTSiG|OchOCh-O_A_So)
               10.3.2.2 OMS-O to OTSiG-O and OCh-O adaptation sink function (OMS-O/OTSiG|OCh-O_A_Sk)
     10.4 Sub-layer functions
11 OSC (layer) functions
     11.1 Connection functions
     11.2 Termination functions
          11.2.1 OSC trail termination function (OSC_TT)
               11.2.1.1 OSC trail termination source function (OSC_TT_So)
               11.2.1.2 OSC trail termination sink function (OSC_TT_Sk)
     11.3 Adaptation functions
          11.3.1 OSC to OTS-O adaptation function (OSC/OTS-O_A)
               11.3.1.1 OSC to OTS-O adaptation source function (OSC/OTS-O_A_So)
               11.3.1.2 OSC to OTS-O adaptation sink function (OSC/OTS-O_A_Sk)
          11.3.2 OSC to COMMS adaptation function (OSC/COMMS_A)
               11.3.2.1 OSC to COMMS adaptation source function (OSC/COMMS_A_So)
               11.3.2.2 OSC to COMMS adaptation sink function (OSC/COMMS_A_Sk)
          11.3.3 OSC to synchronization distribution adaptation functions
12 OTSiA and OCh (layer) functions
     12.1 Connection functions
          12.1.1 OTSiA|OCh connection function (OTSiA|OCh_C)
               12.1.1.1 Subnetwork connection protection process
     12.2 Termination functions
          12.2.1 OTSiG-O trail termination function (OTSiG-O_TT)
               12.2.1.1 OTSiG-O trail termination source function (OTSiG-O_TT_So)
               12.2.1.2 OTSiG-O trail termination sink function (OTSiG-O_TT_Sk)
          12.2.2 OCh-O trail termination function (OCh-O_TT)
               12.2.1.1 OCh-O trail termination source function (OCh-O_TT_So)
               12.2.1.2 OCh-O trail termination sink function (OCh-O_TT_Sk)
          12.2.3 OTSiG|OCh non-intrusive monitor function
          12.2.4 Combined OTSiG|OCh and OTUk[V] non-intrusive monitor function (OCTk[V]m)
          12.2.5 Combined OTSiG|OCh, OTUk[V] and ODUkT non-intrusive monitor function (OCTDk[V]m)
     12.3 Adaptation functions
     12.4 Sub-layer functions
13 OTU (layer) functions
     13.1 Connection functions
     13.2 Termination functions
          13.2.1 OTU trail termination function (OTU_TT)
               13.2.1.1 OTU trail termination source function (OTU_TT_So)
               13.2.1.2 OTU trail termination sink function (OTU_TT_Sk)
          13.2.2 OTUkV trail termination function (OTUkV_TT)
               13.2.2.1 OTUkV trail termination source function (OTUkV_TT_So)
               13.2.2.2 OTUkV trail termination sink function (OTUkV_TT_Sk)
     13.3 Adaptation functions
          13.3.1 OTU to ODU adaptation function (OTU/ODU_A)
               13.3.1.1 OTU to ODU adaptation source function (OTU/ODU_A_So)
               13.3.1.2 OTU to ODU adaptation sink function (OTU/ODU_A_Sk)
          13.3.2 OTUkV to ODUk adaptation function (OTUkV/ODUk_A)
               13.3.2.1 OTUkV to ODUk adaptation source function (OTUkV/ODUk_A_So)
               13.3.2.2 OTUkV to ODUk adaptation sink function (OTUkV/ODUk_A_Sk)
          13.3.3 OTU to COMMS adaptation function (OTU/COMMS_A)
               13.3.3.1 OTU to COMMS adaptation source function (OTU/COMMS_A_So)
               13.3.3.2 OTU to COMMS adaptation sink function (OTU/COMMS_A_Sk)
          13.3.4 OTUkV to COMMS adaptation function (OTUkV/COMMS_A)
               13.3.4.1 OTUkV to COMMS adaptation source function (OTUkV/COMMS_A_So)
               13.3.4.2 OTUkV to COMMS adaptation sink function (OTUkV/COMMS_A_Sk)
          13.3.5 OTUk to synchronization distribution adaptation functions
     13.4 Sub-layer functions
14 ODU (layer) functions
     14.1 Connection functions
          14.1.1 ODUk connection function (ODU_C)
               14.1.1.1 Subnetwork connection protection process
               14.1.1.2 Compound link subnetwork connection group protection process
               14.1.1.3  Shared ODU ring protection process
     14.2 Termination functions
          14.2.1 ODUP trail termination function (ODUP_TT)
               14.2.1.1 ODUP trail termination source function (ODUP_TT_So)
               14.2.1.2 ODUP trail termination sink function (ODUP_TT_Sk)
          14.2.2 ODUP non-intrusive monitor function
     14.3 Adaptation functions
          14.3.1 ODUkP to CBRx adaptation function using AMP and BMP (ODUkP/CBRx_A)
               14.3.1.1 ODUkP to CBRx asynchronous mapping adaptation source function (ODUkP/CBRx-a_A_So) (x = 2G5, 10G, 40G)
               14.3.1.2 ODUkP to CBRx bit synchronous mapping adaptation source function (ODUkP/CBRx-b_A_So)
               14.3.1.3 ODUkP to CBRx adaptation sink function (ODUkP/CBRx_A_Sk)
          14.3.2 Blank clause
          14.3.3 ODU2P to 10G Ethernet Reconciliation sublayer adaptation functions (ODU2P/ERS10G_A)
               14.3.3.1 ODU2P to 10G Ethernet Reconciliation sublayer adaptation source function (ODU2P/ERS10G_A_So)
               14.3.3.2 ODU2P to 10G Ethernet Reconciliation Sublayer adaptation sink function (ODU2P/ERS10G_A_Sk)
          14.3.4 ODUP to NULL adaptation function (ODUP/NULL_A)
               14.3.4.1 ODUP to NULL adaptation source function (ODUP/NULL_A_So)
               14.3.4.2 ODUP to NULL adaptation sink function (ODUP/NULL_A_Sk)
          14.3.5 ODUP to PRBS adaptation function (ODUP/PRBS_A)
               14.3.5.1 ODUP to PRBS adaptation source function (ODUkP/PRBS_A_So)
               14.3.5.2 ODUP to PRBS adaptation sink function (ODUP/PRBS_A_Sk)
          14.3.6 ODUkP to RSn adaptation function (ODUkP/RSn_A)
               14.3.6.1 ODUkP to RSn asynchronous mapping adaptation source function (ODUkP/RSn-a_A_So)
               14.3.6.2 ODUkP to RSn bit synchronous mapping adaptation source function (ODUkP/RSn-b_A_So)
               14.3.6.3 ODUkP to RSn adaptation sink function (ODUkP/RSn_A_Sk)
          14.3.7 ODU0P to client adaptation function (ODU0P/CBRx_A) (0 ≤ x ≤ 1.25G)
               14.3.7.1 ODU0P to CBRx adaptation source function (ODU0P/CBRx_A_So) (0 ≤ x ≤ 1.25G)
               14.3.7.2 ODU0P to CBRx adaptation sink function (ODU0P/CBRx_A_Sk) (0 ≤ x ≤ 1.25G)
          14.3.8 ODUkP to CBRx adaptation function using GMP (ODUkP/CBRx-g_A)
               14.3.8.1 ODUkP to CBRx adaptation source function using GMP (ODUkP/CBRx-g_A_So)
               14.3.8.2 ODUkP to CBRx adaptation sink function using GMP (ODUkP/CBRx-g_A_Sk)
          14.3.9 ODUkP to ODU[i]j adaptation function (ODUkP/ODU[i]j_A)
               14.3.9.1 ODUkP to ODU[i]j adaptation source function (ODUkP/ODU[i]j_A_So)
               14.3.9.2 ODUkP to ODU[i]j adaptation sink function (ODUkP/ODU[i]j_A_Sk)
          14.3.10 ODUkP to ODUj payload type 21 adaptation function (ODUkP/ODUj-21_A)
               14.3.10.1 ODUkP to ODUj payload type 21 adaptation source function (ODUkP/ODUj-21_A_So)
               14.3.10.2 ODUkP to ODUj payload type 21 adaptation sink function (ODUkP/ODUj-21_A_Sk)
          14.3.11 ODUkP to ETH adaptation functions (ODUkP/ETH_A; k = 0,1,2,3,4,flex)
               14.3.11.1 ODUkP to ETH adaptation source function (ODUkP/ETH_A_So)
               14.3.11.2 ODUkP to ETH adaptation sink function (ODUkP/ETH_A_Sk)
          14.3.12 HAO-capable ODUk to ETH adaptation functions (ODUkP-h/ETH_A; k = flex)
               14.3.12.1 HAO-capable ODUk to ETH adaptation source function (ODUkP-h/ETH_A_So)
               14.3.12.2 HAO-capable ODUk to ETH adaptation sink function (ODUkP-h/ETH_A_Sk)
          14.3.13 HAO-capable ODUkP-h to ODUj payload type 21 adaptation function (ODUkP-h/ODUj-21_A)
               14.3.13.1 HAO-capable ODUkP to ODUj payload type 21 adaptation source function (ODUkP-h/ODUj_A_So)
               14.3.13.2 HAO-capable ODUkP to ODUj payload type 21 adaptation sink function (HAO-capable ODUkP-h/ODUj-21_A_Sk)
          14.3.14 HAO capable ODUk to MPLS-TP Adaptation functions (ODUkP-h/MT_A; k=ODUflex)
          14.3.15 ODU2eP to FC-1200 client adaptation function (ODU2eP/FC-1200_A)
               14.3.15.1 ODU2eP to FC-1200 client adaptation source function (ODU2eP/FC-1200_A_So)
               14.3.15.2 ODU2eP to FC-1200 client adaptation sink function (ODU2eP/FC-1200_A_Sk)
          14.3.16 ODUCnP to ODUk adaptation function (ODUCnP/ODUk_A)
               14.3.16.1 ODUCnP to ODUk adaptation source function (ODUCnP/ODUk_A_So)
               14.3.16.2 ODUCnP to ODUk adaptation sink function (ODUCnP/ODUk_A_Sk)
          14.3.17 ODUflexP to FlexE client adaptation function using IMP (ODUflexP/FlexEC_A)
               14.3.17.1 ODUflexP to FlexE client adaptation source function using IMP (ODUflexP/FlexEC_A_So)
               14.3.17.2 ODUflexP to FlexE client adaptation sink function using IMP (ODUflexP/FlexEC_A_Sk)
          14.3.18 ODUflexP to FlexE sub-group adaptation function using BGMP (ODUflexP/FlexESG_A)
               14.3.18.1 ODUflexP to FlexE sub-group adaptation source function using BGMP (ODUflexP/FlexESG_A_So)
               14.3.18.2 ODUflexP to FlexE sub-group adaptation sink function using BGMP (ODUflexP/FlexESG_A_Sk)
          14.3.19 ODUkP to MPLS-TP adaptation functions (ODUkP/MT_A; k = 0,1,2,3,4,flex)
          14.3.20 ODUflexP to ETCy adaptation function using BMP (ODUflexP/ETCy_A)
               14.3.20.1 ODUflexP to ETCy adaptation source function using BMP (ODUflexP/ETCy_A_So)
               14.3.20.2 ODUflexP to ETCy adaptation sink function using BMP (ODUflexP/ETCy_A_Sk)
     14.4 COMMS functions
          14.4.1 ODUP to COMMS adaptation function (ODUP/COMMS_A)
               14.4.1.1 ODUP to COMMS adaptation source function (ODUP/COMMS_A_So)
               14.4.1.2 ODUP to COMMS adaptation sink function (ODUP/COMMS_A_Sk)
          14.4.2 ODU to COMMS access function (ODU/COMMS_AC)
               14.4.2.1 ODU to COMMS access source function (ODU/COMMS_AC_So)
               14.4.2.2 ODU to COMMS access sink function (ODU/COMMS_AC_Sk)
     14.5 Sub-layer functions
          14.5.1 ODU tandem connection sub-layer (ODUT) functions
               14.5.1.1 ODUT trail termination function (ODUT_TT)
                    14.5.1.1.1  ODUT trail termination source function (ODUT_TT_So)
                    14.5.1.1.2  ODUT trail termination sink function (ODUT_TT_Sk)
                    14.5.1.1.3  ODUT non-intrusive monitoring function (ODUTm_TT_Sk)
               14.5.1.2 ODUT to ODU adaptation function (ODUT/ODU_A)
                    14.5.1.2.1  ODUT to ODU adaptation source function (ODUT/ODU_A_So)
                    14.5.1.2.2  ODUT to ODU adaptation sink function (ODUT/ODU_A_Sk)
               14.5.1.3 ODUT TCM control functions (ODUT_TCMC)
                    14.5.1.3.1  ODUT control function for manual activation (ODUT_TCMCm)
     14.6 Blank clause
15 FlexO functions
     15.1 Connection functions
     15.2 Termination functions
          15.2.1 FlexO trail termination function (FlexO_TT)
               15.2.1.1 FlexO trail termination source function (FlexO_TT_So)
               15.2.1.2 FlexO trail termination sink function (FlexO_TT_Sk)
     15.3 Adaptation functions
          15.3.1 FlexO-n to OTUCn adaptation function (FlexO-n/OTUCn_A)
               15.3.1.1 FlexO-n to OTUCn adaptation source function (FlexO-n/OTUCn_A_So)
               15.3.1.2 FlexO-n to OTUCn adaptation sink function (FlexO-n/OTUCn_A_Sk)
          15.3.2 FlexO to FCC adaptation functions
               15.3.2.1 FlexO to FCC adaptation source function (FlexO/FCC_A_So)
               15.3.2.2 FlexO to FCC adaptation sink function (FlexO/FCC_A_Sk)
          15.3.3 FlexO to synchronization distribution adaptation functions
16 OTSi adaptation functions
     16.1 OTSi to OTUk adaptation function (OTSi/OTUk_A)
          16.1.1 OTSi to OTUk adaptation source function (OTSi/OTUk_A_So)
          16.1.2 OTSi to OTUk adaptation sink function (OTSi/OTUk_A_Sk)
     16.2 OTSi to OTUkV adaptation function (OTSi/OTUkV_A)
          16.2.1 OTSi to OTUkV adaptation source function (OTSi/OTUkV_A_So)
          16.2.2 OTSi to OTUkV adaptation sink function (OTSi/OTUkV_A_Sk)
     16.3 OTSiG to OTUk adaptation function (OTSiG/OTUk_A)
          16.3.1 OTSiG to OTUk adaptation source function (OTSiG/OTUk_A_So)
          16.3.2 OTSiG to OTUk adaptation sink function (OTSiG/OTUk_A_Sk)
     16.4 OTSiG to OTUkV adaptation function (OTSiG/OTUkV_A)
          16.4.1 OTSiG to OTUkV adaptation source function (OTSiG/OTUkV_A_So)
          16.4.2 OTSiG to OTUkV adaptation sink function (OTSiG/OTUkV_A_Sk)
     16.5 OTSi to OTUCn adaptation function (OTSi/OTUCn_A)
          16.5.1 OTSi to OTUCn adaptation source function (OTSi/OTUCn_A_So)
          16.5.2 OTSi to OTUCn adaptation sink function (OTSi/OTUCn_A_Sk)
     16.6 OTSiG to OTUCn adaptation function (OTSiG/OTUCn_A)
          16.6.1 OTSiG to OTUCn adaptation source function (OTSiG/OTUCn_A_So)
          16.6.2 OTSiG to OTUCn adaptation sink function (OTSiG/OTUCn_A_Sk)
     16.7 OTSi to FlexO adaptation function (OTSiG/FlexO_A)
          16.7.1 OTSi to FlexO-1-SC adaptation source function (OTSi/FlexO-1-SC_A_So)
          16.7.2 OTSi to FlexO-1-SC adaptation sink function (OTSi/FlexO-1-SC_A_Sk)
     16.8 OTSiG to FlexO adaptation function (OTSiG/FlexO_A)
          16.8.1 OTSiG to FlexO adaptation source function (OTSiG/FlexO_A_So)
          16.8.2 OTSiG to FlexO adaptation sink function (OTSiG/FlexO_A_Sk)
     16.9 OTSi to OSC adaptation function (OTSi/OSC_A)
          16.9.1 OTSi to OSC adaptation source function (OTSi/OSC_A_So)
          16.9.2 OTSi to OSC adaptation sink function (OTSi/OSC_A_Sk)
17 Media element
Annex A  Optical section (OSx) and constant bit rate (CBRx) layer functions
     A.1 Connection functions
     A.2 Termination functions
          A.2.1 OSx trail termination function (OSx_TT) (x = 2G5, 10G, 40G, FC-y)
               A.2.1.1 OS trail termination source function (OSx_TT_So) (x = 2G5, 10G, 40G, FC-y)
               A.2.1.2 OSx trail termination sink function (OSx_TT_Sk) (x = 2G5, 10G, 40G, FC-y)
     A.3 Adaptation functions
          A.3.1 OSx to CBRx adaptation (OSx/CBRx_A) (x = 2G5, 10G, 40G, FC-y)
               A.3.1.1 OSx to CBRx adaptation source function without FEC (OSx/CBRx_A_So) (x = 2G5, 10G, 40G, FC-y)
               A.3.1.2 OSx to CBRx adaptation sink function without FEC (OSx/CBRx_A_Sk) (x = 2G5, 10G, 40G, FC-y)
               A.3.1.3 OSM256.4 to CBRx adaptation source function
               A.3.1.4 OSM256.4 to CBRx adaptation sink function
               A.3.1.5 OSx to CBRx adaptation source function for 64B/66B encoded clients with FEC (OSx/CBRx-b_A_So) (x = FC-y)
               A.3.1.6 OSx to CBRx adaptation sink function for 64B/66B encoded clients with optional FEC (OSx/CBRx-b_A_Sk) (x = FC-y)
               A.3.1.7 OSx to CBRx adaptation sink function for 64B/66B encoded clients with mandatory FEC (OSx/CBRx-c_A_Sk) (x = FC-y)
Annex B  Generic FlexE and FlexO supervision and processes
     B.1 Supervision
          B.1.1 Defects
               B.1.1.1 Alignment supervision
                    B.1.1.1.1 FlexE overhead Loss of Frame (dLOF)
                    B.1.1.1.2 FlexE overhead Loss of Multi-frame (dLOM)
               B.1.1.12 Group supervision
                    B.1.1.2.1 Group ID Mismatch (dGIDM)
                    B.1.1.2.2 FlexO/FlexE PHY Map Mismatch (dPMMdFMM)
     B.2 Generic processes
          B.2.1 Alignment processes
               B.2.1.1 FlexE overhead frame alignment
               B.2.1.2 FlexE overhead multi-frame alignment
          B.2.2 Overhead acceptance processes
               B.2.2.1 Group Identification (GID) acceptance process
               B.2.2.2 PHY FlexO/FlexE Instance Identification (PIDIID) acceptance process
                    B.2.2.2.1 FlexO PID IID acceptance process
                    B.2.2.2.2 FlexE PID IID acceptance process
               B.2.2.3 PHY Map acceptance process
                    B.2.2.3.1 FlexO PHY Map acceptance process
                    B.2.2.3.2 FlexE PHY Map acceptance process
Appendix I  Applications and functional diagrams
     I.1 Transparent CBRx tributary interface port with optional SDH RS non-intrusive monitor on OTN equipment
     I.2 SOTU tributary interface port on OTN equipment
     I.3 Selectable CBRx/SOTU tributary interface port on OTN equipment
     I.4 SOTU interface ports on non-OTN equipment
     I.5 MOTUm interface port with 3-R regeneration functionality for an ODUk connection function
Appendix II  Blank appendix
Appendix III  Performance of processes
     III.1 Introduction
     III.2 OTUk frame alignment process
          III.2.1 False out-of-frame events
          III.2.2 Minimum average time between false out-of-frame events
          III.2.3 False in-frame events
          III.2.4 Frame alignment time
     III.3 STAT acceptance process and related defect detection
          III.3.1 Average acceptance, raising and clearing time
          III.3.2 Mean time between false OTUCn dAIS, ODUP/T dAIS and ODU T dIAE defects due to bit errors assuming a transmitted STAT value of "001" (normal path signal)
          III.3.3 Mean time between false ODU dOCI defects due to bit errors assuming a transmitted STAT value of "001" (normal path signal)
          III.3.4 Mean time between false ODUT dLTC and ODUP/T dLCK defects due to bit errors assuming a transmitted STAT value of "001" (normal path signal)
     III.4 OTU dIAE, OTU dBDI, ODU dBDI detection
          III.4.1 Average raising and clearing time
          III.4.2 Mean time between false defects due to bit errors
     III.5 PT acceptance process and ODUPdPLM detection
          III.5.1 Average acceptance, raising and clearing time
          III.5.2 Mean time between false PLM defects due to bit errors
     III.6 Generic AIS and OTUk AIS detection
          III.6.1 Average dAIS detection time
     III.7 OTU and ODUT dBIAE detection process
          III.7.1 Average dBIAE detection time
          III.7.2 Mean time between false BIAE defects due to bit errors
Appendix IV  TTI processing examples
     IV.1 Example 1
          IV.1.1 Trail trace identifier (TTI) acceptance and reporting process
          IV.I.2 SAPI/DAPI compare process
          IV.1.3 Performance of example 1
               IV.1.3.1 Average TTI acceptance time
               IV.1.3.2 Average dTIM detection and clearing time
               IV.1.3.3 Mean time between false TIM defects due to bit errors
     IV.2 Example 2
          IV.2.1 TTI reporting
          IV.2.2 SAPI/DAPI compare process
          IV.2.3 Performance of example 2
               IV.2.3.1 Average TTI acceptance time
               IV.2.3.2 Average dTIM detection time
               IV.2.3.3 Average dTIM clearing time
               IV.2.3.4 Mean time between false TIM defects due to bit errors
Appendix V  Blank appendix
Appendix VI  OTSi client mapping of pre-OTN signals
     VI.1 OTSi to CBRx adaptation (OTSi/CBRx_A)
          VI.1.1 OTSi to CBRx adaptation source function (OTSi/CBRx_A_So); x = 2G5, 10G, 40G
          VI.1.2 OTSi to CBRx adaptation sink function (OTSi/CBRx_A_Sk); x = 2G5, 10G, 40G
     VI.2 OTSi to GbE adaptation function (OTSi/GbE_A)
     VI.3 OTSi to RSn adaptation (OTSi/RSn_A)
          VI.3.1 OTSi to RSn adaptation source function (OTSi/RSn_A_So)
          VI.3.2 OTSi to RSn adaptation sink function (OTSi/RSn_A_Sk)
Appendix VII  Examples of media elements
Appendix VIII  Trail protection of OTS-O/OMS-O layers in support of media layer protection
     VIII.1 OxS-O trail protection sub-layer functions
          VIII.1.1 OxS-OP 1+1 unidirectional trail protection connection function (OxS-OP1+1u_C)
               VIII.1.1.1 OxS-OP 1+1 unidirectional trail protection connection source function (OxS-OP1+1u_C_So)
               VIII.1.1.2 OxS-OP 1+1 unidirectional trail protection connection sink function (OxS-OP1+1u_C_Sk)
          VIII.1.2 OxS-OP trail termination function (OxS-OP_TT)
               VIII.1.2.1  OxS-OP trail termination source function (OxS-OP_TT_So)
               VIII.1.2.2  OxS-OP trail termination sink function (OxS-OP_TT_Sk)
          VIII.1.3 OxS-O to OxS-OP adaptation function (OxS-O/OxS-OP_A)
               VIII.1.3.1  OxS-O to OxS-OP adaptation source function (OxS-O/OxS-OP_A_So)
               VIII.1.3.2  OxS-O to OxS-OP adaptation sink function (OxS-O/OxS-OP_A_Sk)
Appendix IX  Examples of compound adaptation functions without SM monitoring
Bibliography