Table Of Contents

Alarm Troubleshooting

2.1  Alarm Indexes by Default Severity

2.1.1  Critical Alarms (CR)

2.1.2  Major Alarms (MJ)

2.1.3  Minor Alarms (MN)

2.1.4  NA Conditions

2.1.5  NR Conditions

2.2  Alarms and Conditions Listed By Alphabetical Entry

2.3  Alarm Logical Objects

2.4  Alarm List by Logical Object Type

2.5  Trouble Notifications

2.5.1  Alarm Characteristics

2.5.2  Condition Characteristics

2.5.3  Severities

2.5.4  Alarm Hierarchy

2.5.5  Service Effect

2.5.6  States

2.6  Safety Summary

2.7  Alarm Procedures

2.7.1  AIS

Clear the AIS Condition

2.7.2  AIS-L

Clear the AIS-L Condition

2.7.3  AIS-P

Clear the AIS-P Condition

2.7.4  AIS-V

Clear the AIS-V Condition

2.7.5  ALS

2.7.6  AMPLI-INIT

2.7.7  APC-CORRECTION-SKIPPED

2.7.8  APC-DISABLED

2.7.9  APC-END

2.7.10  APC-OUT-OF-RANGE

2.7.11  APSB

2.7.12  APSCDFLTK

Clear the APSCDFLTK Alarm

2.7.13  APSC-IMP

Clear the APSC-IMP Alarm

2.7.14  APSCINCON

Clear the APSCINCON Alarm

2.7.15  APSCM

Clear the APSCM Alarm

2.7.16  APSCNMIS

Clear the APSCNMIS Alarm

2.7.17  APSIMP

Clear the APSIMP Alarm

2.7.18  APS-INV-PRIM

2.7.19  APSMM

Clear the APSMM Alarm

2.7.20  APS-PRIM-FAC

Clear the APS-PRIM-FAC Condition

2.7.21  APS-PRIM-SEC-MISM

Clear the APS-PRIM-SEC-MISM Alarm

2.7.22  AS-CMD

Clear the AS-CMD Condition

2.7.23  AS-MT

Clear the AS-MT Condition

2.7.24  AS-MT-OOG

2.7.25  AUD-LOG-LOSS

Clear the AUD-LOG-LOSS Condition

2.7.26  AUD-LOG-LOW

2.7.27  AUTOLSROFF

Clear the AUTOLSROFF Alarm

2.7.28  AUTORESET

Clear the AUTORESET Alarm

2.7.29  AUTOSW-AIS

Clear the AUTOSW-AIS Condition

2.7.30  AUTOSW-LOP (STSMON)

Clear the AUTOSW-LOP (STSMON) Condition

2.7.31  AUTOSW-LOP (VT-MON)

Clear the AUTOSW-LOP (VT-MON) Condition

2.7.32  AUTOSW-PDI

Clear the AUTOSW-PDI Condition

2.7.33  AUTOSW-SDBER

Clear the AUTOSW-SDBER Condition

2.7.34  AUTOSW-SFBER

Clear the AUTOSW-SFBER Condition

2.7.35  AUTOSW-UNEQ (STSMON)

Clear the AUTOSW-UNEQ (STSMON) Condition

2.7.36  AUTOSW-UNEQ (VT-MON)

Clear the AUTOSW-UNEQ (VT-MON) Condition

2.7.37  AWG-DEG

2.7.38  AWG-FAIL

2.7.39  AWG-OVERTEMP

2.7.40  AWG-WARM-UP

2.7.41  BAT-FAIL

Clear the BAT-FAIL Alarm

2.7.42  BKUPMEMP

Clear the BKUPMEMP Alarm

2.7.43  BLSROSYNC

2.7.44  BLSR-SW-VER-MISM

Clear the BLSR-SW-VER-MISM Alarm

2.7.45  BPV

Clear the BPV Alarm

2.7.46  CARLOSS (CE1000, CE100T)

Clear the CARLOSS (CE100T) Alarm

2.7.47  CARLOSS (E1000F, E100T)

Clear the CARLOSS (E1000F, E100T) Alarm

2.7.48  CARLOSS (EQPT)

Clear the CARLOSS (EQPT) Alarm

2.7.49  CARLOSS (FC)

2.7.50  CARLOSS (G1000)

Clear the CARLOSS (G1000) Alarm

2.7.51  CARLOSS (GE)

2.7.52  CARLOSS (ISC)

2.7.53  CARLOSS (ML1000, ML100T, MLFX)

Clear the CARLOSS (ML1000, ML100T, MLFX) Alarm

2.7.54  CARLOSS (TRUNK)

2.7.55  CASETEMP-DEG

2.7.56  CLDRESTART

Clear the CLDRESTART Condition

2.7.57  COMIOXC

Clear the COMIOXC Alarm

2.7.58  COMM-FAIL

Clear the COMM-FAIL Alarm

2.7.59  CONTBUS-A-18

Clear the CONTBUS-A-18 Alarm

2.7.60  CONTBUS-B-18

Clear the CONTBUS-B-18 Alarm

2.7.61  CONTBUS-DISABLED

Clear the CONTBUS-DISABLED Alarm

2.7.62  CONTBUS-IO-A

Clear the CONTBUS-IO-A Alarm

2.7.63  CONTBUS-IO-B

Clear the CONTBUS-IO-B Alarm

2.7.64  CTNEQPT-MISMATCH

Clear the CTNEQPT-MISMATCH Condition

2.7.65  CTNEQPT-PBPROT

Clear the CTNEQPT-PBPROT Alarm

2.7.66  CTNEQPT-PBWORK

Clear the CTNEQPT-PBWORK Alarm

2.7.67  DATAFLT

Clear the DATAFLT Alarm

2.7.68  DBOSYNC

Clear the DBOSYNC Alarm

2.7.69  DISCONNECTED

Clear the DISCONNECTED Alarm

2.7.70  DS3-MISM

Clear the DS3-MISM Condition

2.7.71  DSP-COMM-FAIL

2.7.72  DSP-FAIL

2.7.73  DUP-IPADDR

Clear the DUP-IPADDR Alarm

2.7.74  DUP-NODENAME

Clear the DUP-NODENAME Alarm

2.7.75  DUP-SHELF-ID

2.7.76  EHIBATVG

Clear the EHIBATVG Alarm

2.7.77  ELWBATVG

Clear the ELWBATVG Alarm

2.7.78  ENCAP-MISMATCH-P

Clear the ENCAP-MISMATCH-P Alarm

2.7.79  EOC

Clear the EOC Alarm

2.7.80  EOC-L

Clear the EOC-L Alarm

2.7.81  EQPT

Clear the EQPT Alarm

2.7.82  EQPT-DIAG

Clear the EQPT-DIAG Alarm

2.7.83  EQPT-MISS

Clear the EQPT-MISS Alarm

2.7.84  ERFI-P-CONN

Clear the ERFI-P-CONN Condition

2.7.85  ERFI-P-PAYLD

Clear the ERFI-P-PAYLD Condition

2.7.86  ERFI-P-SRVR

Clear the ERFI-P-SRVR Condition

2.7.87  ERROR-CONFIG

Clear the ERROR-CONFIG Alarm

2.7.88  ETH-LINKLOSS

Clear the ETH-LINKLOSS Condition

2.7.89  E-W-MISMATCH

Clear the E-W-MISMATCH Alarm with a Physical Switch

Clear the E-W-MISMATCH Alarm in CTC

2.7.90  EXCCOL

Clear the EXCCOL Alarm

2.7.91  EXERCISE-RING-FAIL

Clear the EXERCISE-RING-FAIL Condition

2.7.92  EXERCISE-SPAN-FAIL

Clear the EXERCISE-SPAN-FAIL Condition

2.7.93  EXT

Clear the EXT Alarm

2.7.94  EXTRA-TRAF-PREEMPT

Clear the EXTRA-TRAF-PREEMPT Alarm

2.7.95  FAILTOSW

Clear the FAILTOSW Condition

2.7.96  FAILTOSW-PATH

Clear the FAILTOSW-PATH Condition in a Path Protection Configuration

2.7.97  FAILTOSWR

Clear the FAILTOSWR Condition in a BLSR Configuration

2.7.98  FAILTOSWS

Clear the FAILTOSWS Condition

2.7.99  FAN

Clear the FAN Alarm

2.7.100  FC-NO-CREDITS

Clear the FC-NO-CREDITS Alarm

2.7.101  FDI

2.7.102  FE-AIS

Clear the FE-AIS Condition

2.7.103  FEC-MISM

2.7.104  FE-DS1-MULTLOS

Clear the FE-DS1-MULTLOS Condition

2.7.105  FE-DS1-NSA

Clear the FE-DS1-NSA Condition

2.7.106  FE-DS1-SA

Clear the FE-DS1-SA Condition

2.7.107  FE-DS1-SNGLLOS

Clear the FE-DS1-SNGLLOS Condition

2.7.108  FE-DS3-NSA

Clear the FE-DS3-NSA Condition

2.7.109  FE-DS3-SA

Clear the FE-DS3-SA Condition

2.7.110  FE-EQPT-NSA

Clear the FE-EQPT-NSA Condition

2.7.111  FE-FRCDWKSWBK-SPAN

Clear the FE-FRCDWKSWBK-SPAN Condition

2.7.112  FE-FRCDWKSWPR-RING

Clear the FE-FRCDWKSWPR-RING Condition

2.7.113  FE-FRCDWKSWPR-SPAN

Clear the FE-FRCDWKSWPR-SPAN Condition

2.7.114  FE-IDLE

Clear the FE-IDLE Condition

2.7.115  FE-LOCKOUTOFPR-SPAN

Clear the FE-LOCKOUTOFPR-SPAN Condition

2.7.116  FE-LOF

Clear the FE-LOF Condition

2.7.117  FE-LOS

Clear the FE-LOS Condition

2.7.118  FE-MANWKSWBK-SPAN

Clear the FE-MANWKSWBK-SPAN Condition

2.7.119  FE-MANWKSWPR-RING

Clear the FE-MANWKSWPR-RING Condition

2.7.120  FE-MANWKSWPR-SPAN

Clear the FE-MANWKSWPR-SPAN Condition

2.7.121  FEPRLF

Clear the FEPRLF Alarm on a Four-Fiber BLSR

2.7.122  FIBERTEMP-DEG

2.7.123  FORCED-REQ

Clear the FORCED-REQ Condition

2.7.124  FORCED-REQ-RING

Clear the FORCED-REQ-RING Condition

2.7.125  FORCED-REQ-SPAN

Clear the FORCED-REQ-SPAN Condition

2.7.126  FRCDSWTOINT

2.7.127  FRCDSWTOPRI

2.7.128  FRCDSWTOSEC

2.7.129  FRCDSWTOTHIRD

2.7.130  FRNGSYNC

Clear the FRNGSYNC Condition

2.7.131  FSTSYNC

2.7.132  FULLPASSTHR-BI

Clear the FULLPASSTHR-BI Condition

2.7.133  GAIN-HDEG

2.7.134  GAIN-HFAIL

2.7.135  GAIN-LDEG

2.7.136  GAIN-LFAIL

2.7.137  GCC-EOC

2.7.138  GE-OOSYNC

2.7.139  GFP-CSF

Clear the GFP-CSF Alarm

2.7.140  GFP-DE-MISMATCH

Clear the GFP-DE-MISMATCH Alarm

2.7.141  GFP-EX-MISMATCH

Clear the GFP-EX-MISMATCH Alarm

2.7.142  GFP-LFD

Clear the GFP-LFD Alarm

2.7.143  GFP-NO-BUFFERS

Clear the GFP-NO-BUFFERS Alarm

2.7.144  GFP-UP-MISMATCH

Clear the GFP-UP-MISMATCH Alarm

2.7.145  HELLO

Clear the HELLO Alarm

2.7.146  HIBATVG

Clear the HIBATVG Alarm

2.7.147  HI-CCVOLT

Clear the HI-CCVOLT Condition

2.7.148  HI-LASERBIAS

Clear the HI-LASERBIAS Alarm

2.7.149  HI-LASERTEMP

Clear the HI-LASERTEMP Alarm

2.7.150  HI-RXPOWER

Clear the HI-RXPOWER Alarm

2.7.151  HITEMP

Clear the HITEMP Alarm

2.7.152  HI-TXPOWER

Clear the HI-TXPOWER Alarm

2.7.153  HLDOVRSYNC

Clear the HLDOVRSYNC Condition

2.7.154  I-HITEMP

Clear the I-HITEMP Alarm

2.7.155  INCOMPATIBLE-SEND-PDIP

Clear the INCOMPATIBLE-SEND-PDIP Alarm

2.7.156  INCOMPATIBLE-SW

Clear the INCOMPATIBLE-SW Alarm

2.7.157  IMPROPRMVL

Clear the IMPROPRMVL Alarm

2.7.158  INC-ISD

2.7.159  INHSWPR

Clear the INHSWPR Condition

2.7.160  INHSWWKG

Clear the INHSWWKG Condition

2.7.161  INTRUSION-PSWD

Clear the INTRUSION-PSWD Condition

2.7.162  INVMACADR

Clear the INVMACADR Alarm

2.7.163  IOSCFGCOPY

2.7.164  ISIS-ADJ-FAIL

Clear the ISIS-ADJ-FAIL Alarm

2.7.165  KB-PASSTHR

Clear the KB-PASSTHR Condition

2.7.166  KBYTE-APS-CHANNEL-FAILURE

Clear the KBYTE-APS-CHANNEL-FAILURE Alarm

2.7.167  LAN-POL-REV

Clear the LAN-POL-REV Condition

2.7.168  LASER-APR

2.7.169  LASERBIAS-DEG

2.7.170  LASERBIAS-FAIL

2.7.171  LASEREOL

Clear the LASEREOL Alarm

2.7.172  LASERTEMP-DEG

2.7.173  LCAS-CRC

Clear the LCAS-CRC Condition

2.7.174  LCAS-RX-FAIL

Clear the LCAS-RX-FAIL Condition

2.7.175  LCAS-TX-ADD

2.7.176  LCAS-TX-DNU

2.7.177  LKOUTPR-S

Clear the LKOUTPR-S Condition

2.7.178  LOA

Clear the LOA Alarm

2.7.179  LOCKOUT-REQ

Clear the LOCKOUT-REQ Condition

2.7.180  LOF (BITS)

Clear the LOF (BITS) Alarm

2.7.181  LOF (DS1)

Clear the LOF (DS1) Alarm

2.7.182  LOF (DS3)

Clear the LOF (DS3) Alarm

2.7.183  LOF (E1)

Clear the LOF (E1) Alarm

2.7.184  LOF (EC1)

Clear the LOF (EC1) Alarm

2.7.185  LOF (OCN)

Clear the LOF (OCN) Alarm

2.7.186  LOF (STSTRM)

Clear the LOF (STSTRM) Alarm

2.7.187  LOF (TRUNK)

2.7.188  LOGBUFR90

2.7.189  LOGBUFROVFL

Clear the LOGBUFROVFL Alarm

2.7.190  LO-LASERBIAS

Clear the LO-LASERBIAS Alarm

2.7.191  LO-LASERTEMP

Clear the LO-LASERTEMP Alarm

2.7.192  LOM

Clear the LOM Alarm

2.7.193  LOP-P

Clear the LOP-P Alarm

2.7.194  LOP-V

Clear the LOP-V Alarm

2.7.195  LO-RXPOWER

Clear the LO-RXPOWER Alarm

2.7.196  LOS (2R)

2.7.197  LOS (BITS)

Clear the LOS (BITS) Alarm

2.7.198  LOS (DS1)

Clear the LOS (DS1) Alarm

2.7.199  LOS (DS3)

Clear the LOS (DS3) Alarm

2.7.200  LOS (E1)

Clear the LOS (E1) Alarm

2.7.201  LOS (EC1)

Clear the LOS (EC1) Alarm

2.7.202  LOS (ESCON)

2.7.203  LOS (FUDC)

Clear the LOS (FUDC) Alarm

2.7.204  LOS (ISC)

2.7.205  LOS (MSUDC)

2.7.206  LOS (OCN)

Clear the LOS (OCN) Alarm

2.7.207  LOS (OTS)

2.7.208  LOS (TRUNK)

2.7.209  LOS-O

2.7.210  LOS-P (OCH)

2.7.211  LOS-P (OMS, OTS)

2.7.212  LOS-P (TRUNK)

2.7.213  LO-TXPOWER

Clear the LO-TXPOWER Alarm

2.7.214  LPBKCRS

Clear the LPBKCRS Condition

2.7.215  LPBKDS1FEAC-CMD

2.7.216  LPBKDS3FEAC

Clear the LPBKDS3FEAC Condition

2.7.217  LPBKDS3FEAC-CMD

2.7.218  LPBKFACILITY (CE1000, CE100T)

Clear the LPBKFACILITY (CE1000, CE100T) Condition

2.7.219  LPBKFACILITY (DS1, DS3)

Clear the LPBKFACILITY (DS1, DS3) Condition

2.7.220  LPBKFACILITY (E1)

Clear the LPBKFACILITY (E1) Condition

2.7.221  LPBKFACILITY (EC1)

Clear the LPBKFACILITY (EC1) Condition

2.7.222  LPBKFACILITY (ESCON)

2.7.223  LPBKFACILITY (FC)

2.7.224  LPBKFACILITY (FCMR)

Clear the LPBKFACILITY (FCMR) Condition

2.7.225  LPBKFACILITY (G1000)

Clear the LPBKFACILITY (G1000) Condition

2.7.226  LPBKFACILITY (GE)

2.7.227  LPBKFACILITY (ISC)

2.7.228  LPBKFACILITY (OCN)

Clear the LPBKFACILITY (OCN) Condition

2.7.229  LPBKFACILITY (TRUNK)

2.7.230  LPBKTERMINAL (CE1000, CE100T)

Clear the LPBKTERMINAL (CE1000, CE100T) Condition

2.7.231  LPBKTERMINAL (DS1, DS3)

Clear the LPBKTERMINAL (DS1, DS3) Condition

2.7.232  LPBKTERMINAL (E1)

Clear the LPBKTERMINAL (E1) Condition

2.7.233  LPBKTERMINAL (EC1)

Clear the LPBKTERMINAL (EC1) Condition

2.7.234  LPBKTERMINAL (ESCON)

2.7.235  LPBKTERMINAL (FC)

2.7.236  LPBKTERMINAL (FCMR)

Clear the LPBKTERMINAL (FCMR) Condition

2.7.237  LPBKTERMINAL (G1000)

Clear the LPBKTERMINAL (G1000) Condition

2.7.238  LPBKTERMINAL (GE)

2.7.239  LPBKTERMINAL (ISC)

2.7.240  LPBKTERMINAL (OCN)

Clear the LPBKTERMINAL (OCN) Condition

2.7.241  LPBKTERMINAL (TRUNK)

2.7.242  LWBATVG

Clear the LWBATVG Alarm

2.7.243  MAN-REQ

Clear the MAN-REQ Condition

2.7.244  MANRESET

2.7.245  MANSWTOINT

2.7.246  MANSWTOPRI

2.7.247  MANSWTOSEC

2.7.248  MANSWTOTHIRD

2.7.249  MANUAL-REQ-RING

Clear the MANUAL-REQ-RING Condition

2.7.250  MANUAL-REQ-SPAN

Clear the MANUAL-REQ-SPAN Condition

2.7.251  MEA (AIP)

Clear the MEA (AIP) Alarm

2.7.252  MEA (BIC)

Clear the MEA (BIC) Alarm

2.7.253  MEA (EQPT)

Clear the MEA (EQPT) Alarm

2.7.254  MEA (FAN)

Clear the MEA (FAN) Alarm

2.7.255  MEA (PPM)

2.7.256  MEM-GONE

2.7.257  MEM-LOW

2.7.258  MFGMEM

Clear the MFGMEM Alarm

2.7.259  NO-CONFIG

Clear the NO-CONFIG Condition

2.7.260  NOT-AUTHENTICATED

2.7.261  OCHNC-INC

2.7.262  OCHTERM-INC

2.7.263  ODUK-1-AIS-PM

2.7.264  ODUK-2-AIS-PM

2.7.265  ODUK-3-AIS-PM

2.7.266  ODUK-4-AIS-PM

2.7.267  ODUK-AIS-PM

2.7.268  ODUK-BDI-PM

2.7.269  ODUK-LCK-PM

2.7.270  ODUK-OCI-PM

2.7.271  ODUK-SD-PM

2.7.272  ODUK-SF-PM

2.7.273  ODUK-TIM-PM

2.7.274  OOU-TPT

Clear the OOT-TPT Condition

2.7.275  OPEN-SLOT

Clear the OPEN-SLOT Condition

2.7.276  OPTNTWMIS

2.7.277  OPWR-HDEG

2.7.278  OPWR-HFAIL

2.7.279  OPWR-LDEG

2.7.280  OPWR-LFAIL

2.7.281  OSRION

2.7.282  OTUK-AIS

2.7.283  OTUK-BDI

2.7.284  OTUK-IAE

2.7.285  OTUK-LOF

2.7.286  OTUK-SD

2.7.287  OTUK-SF

2.7.288  OTUK-TIM

2.7.289  OUT-OF-SYNC

2.7.290  PARAM-MISM

2.7.291  PDI-P

Clear the PDI-P Condition

2.7.292  PEER-NORESPONSE

Clear the PEER-NORESPONSE Alarm

2.7.293  PLM-P

Clear the PLM-P Alarm

2.7.294  PLM-V

Clear the PLM-V Alarm

2.7.295  PMI

2.7.296  PORT-ADD-PWR-DEG-HIGH

2.7.297  PORT-ADD-PWR-DEG-LOW

2.7.298  PORT-ADD-PWR-FAIL-HIGH

2.7.299  PORT-ADD-PWR-FAIL-LOW

2.7.300  PORT-FAIL

2.7.301  PORT-MISMATCH

Clear the PORT-MISMATCH Alarm

2.7.302  PRC-DUPID

Clear the PRC-DUPID Alarm

2.7.303  PROTNA

Clear the PROTNA Alarm

2.7.304  PROV-MISMATCH

2.7.305  PTIM

2.7.306  PWR-FAIL-A

Clear the PWR-FAIL-A Alarm

2.7.307  PWR-FAIL-B

Clear the PWR-FAIL-B Alarm

2.7.308  PWR-FAIL-RET-A

Clear the PWR-FAIL-RET-A Alarm

2.7.309  PWR-FAIL-RET-B

Clear the PWR-FAIL-RET-A Alarm

2.7.310  RAI

Clear the RAI Condition

2.7.311  RCVR-MISS

Clear the RCVR-MISS Alarm

2.7.312  RFI

2.7.313  RFI-L

Clear the RFI-L Condition

2.7.314  RFI-P

Clear the RFI-P Condition

2.7.315  RFI-V

Clear the RFI-V Condition

2.7.316  RING-ID-MIS

Clear the RING-ID-MIS Alarm

2.7.317  RING-MISMATCH

Clear the RING-MISMATCH Alarm

2.7.318  RING-SW-EAST

2.7.319  RING-SW-WEST

2.7.320  ROLL

2.7.321  ROLL-PEND

2.7.322  RPRW

Clear the RPRW Condition

2.7.323  RUNCFG-SAVENEED

2.7.324  SD (DS1, DS3)

Clear the SD (DS1, DS3) Condition

2.7.325  SD (E1)

Clear the SD (E1) Condition

2.7.326  SD (TRUNK)

2.7.327  SD-L

Clear the SD-L Condition

2.7.328  SD-L (TRUNK)

2.7.329  SD-P

Clear the SD-P Condition

2.7.330  SD-V

Clear the SD-V Condition

2.7.331  SF (DS1, DS3)

Clear the SF (DS1, DS3) Condition

2.7.332  SF (E1)

Clear the SF (E1) Condition

2.7.333  SF (TRUNK)

2.7.334  SF-L

Clear the SF-L Condition

2.7.335  SF-L (TRUNK)

2.7.336  SF-P

Clear the SF-P Condition

2.7.337  SFTWDOWN

2.7.338  SF-V

Clear the SF-V Condition

2.7.339  SHELF-COMM-FAIL

2.7.340  SH-INS-LOSS-VAR-DEG-HIGH

2.7.341  SH-INS-LOSS-VAR-DEG-LOW

2.7.342  SHUTTER-OPEN

2.7.343  SIGLOSS

Clear the SIGLOSS Alarm

2.7.344  SNTP-HOST

Clear the SNTP-HOST Alarm

2.7.345  SPANLENGTH-OUT-OF-RANGE

2.7.346  SPAN-SW-EAST

2.7.347  SPAN-SW-WEST

2.7.348  SQUELCH

Clear the SQUELCH Condition

2.7.349  SQUELCHED

Clear the SQUELCHED Condition

2.7.350  SQM

Clear the SQM Alarm

2.7.351  SSM-DUS

2.7.352  SSM-FAIL

Clear the SSM-FAIL Alarm

2.7.353  SSM-LNC

2.7.354  SSM-OFF

Clear the SSM-OFF Condition

2.7.355  SSM-PRC

2.7.356  SSM-PRS

2.7.357  SSM-RES

2.7.358  SSM-SDN-TN

2.7.359  SSM-SETS

2.7.360  SSM-SMC

2.7.361  SSM-ST2

2.7.362  SSM-ST3

2.7.363  SSM-ST3E

2.7.364  SSM-ST4

2.7.365  SSM-STU

Clear the SSM-STU Condition

2.7.366  SSM-TNC

2.7.367  STS-SQUELCH-L

2.7.368  SW-MISMATCH

Clear the SW-MISMATCH Condition

2.7.369  SWMTXMOD-PROT

Clear the SWMTXMOD-PROT Alarm

2.7.370  SWMTXMOD-WORK

Clear the SWMTXMOD-WORK Alarm

2.7.371  SWTOPRI

2.7.372  SWTOSEC

Clear the SWTOSEC Condition

2.7.373  SWTOTHIRD

Clear the SWTOTHIRD Condition

2.7.374  SYNC-FREQ

Clear the SYNC-FREQ Condition

2.7.375  SYNCLOSS

Clear the SYNCLOSS Alarm

2.7.376  SYNCPRI

Clear the SYNCPRI Alarm

2.7.377  SYNCSEC

Clear the SYNCSEC Alarm

2.7.378  SYNCTHIRD

Clear the SYNCTHIRD Alarm

2.7.379  SYSBOOT

2.7.380  TEMP-MISM

Clear the TEMP-MISM Condition

2.7.381  TIM

Clear the TIM Alarm

2.7.382  TIM-MON

Clear the TIM-MON Alarm

2.7.383  TIM-P

Clear the TIM-P Alarm

2.7.384  TIM-S

Clear the TIM-S Alarm

2.7.385  TIM-V

Clear the TIM-V Alarm

2.7.386  TPTFAIL (CE100T, CE1000)

Clear the TPTFAIL (CE100T, CE1000) Alarm

2.7.387  TPTFAIL (FCMR)

Clear the TPTFAIL (FCMR) Alarm

2.7.388  TPTFAIL (G1000)

Clear the TPTFAIL (G1000) Alarm

2.7.389  TPTFAIL (ML100T, ML1000, MLFX)

Clear the TPTFAIL (ML100T, ML1000, MLFX) Alarm

2.7.390  TRMT

Clear the TRMT Alarm

2.7.391  TRMT-MISS

Clear the TRMT-MISS Alarm

2.7.392  TX-AIS

Clear the TX-AIS Condition

2.7.393  TX-LOF

Clear the TX-LOF Condition

2.7.394  TX-RAI

Clear the TX-RAI Condition

2.7.395  UNC-WORD

2.7.396  UNEQ-P

Clear the UNEQ-P Alarm

2.7.397  UNEQ-V

Clear the UNEQ-V Alarm

2.7.398  UNREACHABLE-TARGET-POWER

2.7.399  UT-COMM-FAIL

2.7.400  UT-FAIL

2.7.401  VCG-DEG

Clear the VCG-DEG Condition

2.7.402  VCG-DOWN

Clear the VCG-DOWN Condition

2.7.403  VOA-HDEG

2.7.404  VOA-HFAIL

2.7.405  VOA-LDEG

2.7.406  VOA-LFAIL

2.7.407  VOLT-MISM

Clear the VOLT-MISM Condition

2.7.408  VT-SQUELCH-L

2.7.409  WKSWPR

Clear the WKSWPR Condition

2.7.410  WTR

2.7.411  WVL-MISMATCH

2.8  Traffic Card LED Activity

2.8.1  Typical Traffic Card LED Activity After Insertion

2.8.2  Typical Traffic Card LED Activity During Reset

2.8.3  Typical Card LED State After Successful Reset

2.8.4  Typical Cross-Connect LED Activity During Side Switch

2.9  Frequently Used Alarm Troubleshooting Procedures

2.9.1  Node and Ring Identification, Change, Visibility, and Termination

Identify a BLSR Ring Name or Node ID Number

Change a BLSR Ring Name

Change a BLSR Node ID Number

Verify Node Visibility for Other Nodes

2.9.2  Protection Switching, Lock Initiation, and Clearing

Initiate a 1+1 Force Switch Command

Initiate a 1+1 Manual Switch Command

Clear a 1+1 Force or Manual Switch Command

Initiate a Lock-On Command

Initiate a Card or Port Lockout Command

Clear a Lock-On or Lockout Command

Initiate a 1:1 Card Switch Command

Initiate a Force Switch for All Circuits on a Path Protection Span

Initiate a Manual Switch for All Circuits on a Path Protection Span

Initiate a Lockout for All Circuits on a Protect Path Protection Span

Clear an External Switching Command on a Path Protection Span

Initiate a Force Ring Switch on a BLSR

Initiate a Force Span Switch on a Four-Fiber BLSR

Initiate a Manual Span Switch on a BLSR

Initiate a Manual Ring Switch on a BLSR

Initiate a Lockout on a BLSR Protect Span

Initiate an Exercise Ring Switch on a BLSR

Initiate an Exercise Ring Switch on a Four Fiber BLSR

Clear a BLSR External Switching Command

2.9.3  CTC Card Resetting and Switching

Reset a Traffic Card in CTC

Reset an Active TCC2/TCC2P Card and Activate the Standby Card

Side Switch the Active and Standby Cross-Connect Cards

2.9.4  Physical Card Reseating, Resetting, and Replacement

Remove and Reinsert (Reseat) the Standby TCC2/TCC2P Card

Remove and Reinsert (Reseat) Any Card

Physically Replace a Traffic Card

Physically Replace an In-Service Cross-Connect Card

2.9.5  Generic Signal and Circuit Procedures

Verify the Signal BER Threshold Level

Delete a Circuit

Verify or Create Node Section DCC Terminations

Clear an OC-N Card Facility or Terminal Loopback Circuit

Clear an OC-N Card Cross-Connect (XC) Loopback Circuit

Clear a DS3XM-6, DS3XM-12, or DS3E-12 Card Loopback Circuit

Clear Other Electrical Card or Ethernet Card Loopbacks

Clear an MXP, TXP, or FC_MR-4 Card Loopback Circuit

2.9.6  Air Filter and Fan Procedures

Inspect, Clean, and Replace the Reusable Air Filter

Remove and Reinsert a Fan-Tray Assembly

Replace the Fan-Tray Assembly

2.9.7  Interface Procedures

Replace the Electrical Interface Assembly

Replace the Alarm Interface Panel

Alarm Troubleshooting

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Note The terms "Unidirectional Path Switched Ring" and "UPSR" may appear in Cisco literature. These terms do not refer to using Cisco ONS 15xxx products in a unidirectional path switched ring configuration. Rather, these terms, as well as "Path Protected Mesh Network" and "PPMN," refer generally to Cisco's path protection feature, which may be used in any topological network configuration. Cisco does not recommend using its path protection feature in any particular topological network configuration.

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This chapter gives a description, severity, and troubleshooting procedure for each commonly encountered Cisco ONS 15454 alarm and condition. Tables 2-1 through 2-5 provide lists of ONS 15454 alarms organized by severity. Table 2-6 provides a list of alarms organized alphabetically. Table 2-7 gives definitions of all ONS 15454 alarm logical objects, which are the basis of the alarm profile list in Table 2-8. For a comprehensive list of all conditions and instructions for using TL1 commands, refer to the Cisco ONS SONET TL1 Command Guide .

An alarm's troubleshooting procedure applies to both the Cisco Transport Controller (CTC) and TL1 version of that alarm. If the troubleshooting procedure does not clear the alarm, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call the Cisco Technical Assistance Center 1 800 553-2447.

For more information about alarm profiles, refer to the "Manage Alarms" chapter in the Cisco ONS 15454 Procedure Guide.

2.1  Alarm Indexes by Default Severity

The following tables group alarms and conditions by their default severities in the ONS 15454 system. These severities are the same whether they are reported in the CTC Alarms window severity (SEV) column or in TL1.

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Note The CTC default alarm profile contains some alarms or conditions that are not currently implemented but are reserved for future use.

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Note The CTC default alarm profile in some cases contains two severities for one alarm (for example, MJ/MN). The ONS 15454 platform default severity comes first (in this example, MJ), but the alarm can be demoted to the second severity in the presence of a higher-ranking alarm. This is in accordance with Telcordia GR-474.

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2.1.1  Critical Alarms (CR)

Table 2-1 alphabetically lists ONS 15454 Critical (CR) alarms.

Table 2-1 ONS 15454 Critical Alarm List 

AUTOLSROFF (OCN)	LOF (TRUNK)	OPWR-HFAIL (OMS)
AWG-FAIL (OTS)	LOM (STSMON)	OPWR-HFAIL (OTS)
AWG-OVERTEMP (OTS)	LOM (STSTRM)	OPWR-LFAIL (AOTS)
BKUPMEMP (EQPT)	LOM (TRUNK)	OPWR-LFAIL (OCH)
COMIOXC (EQPT)	LOP-P (STSMON)	OPWR-LFAIL (OMS)
CONTBUS-DISABLED (EQPT)	LOP-P (STSTRM)	OPWR-LFAIL (OTS)
CTNEQPT-PBPROT (EQPT)	LOS (2R)	OTUK-LOF (TRUNK)
CTNEQPT-PBWORK (EQPT)	LOS (DS3)	OTUK-TIM (TRUNK)
ENCAP-MISMATCH-P (STSTRM)	LOS (EC1)	PLM-P (STSMON)
EQPT (AICI-AEP)	LOS (ESCON)	PLM-P (STSTRM)
EQPT (AICI-AIE)	LOS (ISC)	PORT-ADD-PWR-FAIL-HIGH (OCH)
EQPT (EQPT)	LOS (OCN)	PORT-ADD-PWR-FAIL-LOW (OCH)
EQPT (PPM)	LOS (OTS)	PORT-FAIL (OCH)
EQPT-DIAG (EQPT)	LOS (TRUNK)	SQM (STSTRM)
EQPT-MISS (FAN)	LOS-P (OCH)	SWMTXMOD-PROT (EQPT)
FAN (FAN)	LOS-P (OMS)	SWMTXMOD-WORK (EQPT)
GAIN-HFAIL (AOTS)	LOS-P (OTS)	TIM (OCN)
GAIN-LFAIL (AOTS)	LOS-P (TRUNK)	TIM (TRUNK)
GE-OOSYNC (FC)	MEA (AIP)	TIM-P (STSTRM)
GE-OOSYNC (GE)	MEA (BIC)	TIM-S (EC1)
GE-OOSYNC (ISC)	MEA (EQPT)	TIM-S (OCN)
GE-OOSYNC (TRUNK)	MEA (FAN)	UNEQ-P (STSMON)
HITEMP (NE)	MEA (PPM)	UNEQ-P (STSTRM)
I-HITEMP (NE)	MFGMEM (AICI-AEP)	VOA-HFAIL (AOTS)
IMPROPRMVL (EQPT)	MFGMEM (AICI-AIE)	VOA-HFAIL (OCH)
IMPROPRMVL (PPM)	MFGMEM (AIP)	VOA-HFAIL (OMS)
LOA (VCG)	MFGMEM (BPLANE)	VOA-HFAIL (OTS)
LOF (DS3)	MFGMEM (FAN)	VOA-LFAIL (AOTS)
LOF (EC1)	MFGMEM (PPM)	VOA-LFAIL (OCH)
LOF (OCN)	OPWR-HFAIL (AOTS)	VOA-LFAIL (OMS)
LOF (STSTRM)	OPWR-HFAIL (OCH)	VOA-LFAIL (OTS)

2.1.2  Major Alarms (MJ)

Table 2-2 alphabetically lists ONS 15454 Major (MJ) alarms.

Table 2-2 ONS 15454 Major Alarm List 

APSCM (OCN)	GFP-EX-MISMATCH (FCMR)	PROV-MISMATCH (TRUNK)
APSCNMIS (OCN)	GFP-EX-MISMATCH (GFP-FAC)	PTIM (TRUNK)
BAT-FAIL (PWR)	GFP-LFD (CE1000)	RCVR-MISS (DS1)
BLSROSYNC (OCN)	GFP-LFD (CE100T)	RCVR-MISS (E1)
BLSR-SW-VER-MISM (OCN)	GFP-LFD (FCMR)	RING-ID-MIS (OCN)
CARLOSS (ML1000)	GFP-LFD (GFP-FAC)	RING-ID-MIS (OSC-RING)
CARLOSS (CE1000)	GFP-LFD (LOGFAC)	RING-MISMATCH (OCN)
CARLOSS (CE100T)	GFP-LFD (ML1000)	SHELF-COMM-FAIL (SHELF)
CARLOSS (E1000F)	GFP-LFD (ML100T)	SIGLOSS (ESCON)
CARLOSS (E100T)	GFP-LFD (MLFX)	SIGLOSS (FC)
CARLOSS (EQPT)	GFP-NO-BUFFERS (FCMR)	SIGLOSS (FCMR)
CARLOSS (FC)	GFP-NO-BUFFERS (GFP-FAC)	SIGLOSS (GE)
CARLOSS (G1000)	GFP-UP-MISMATCH (CE1000)	SIGLOSS (ISC)
CARLOSS (GE)	GFP-UP-MISMATCH (CE100T)	SIGLOSS (TRUNK)
CARLOSS (ISC)	GFP-UP-MISMATCH (FCMR)	SQM (VT-TERM)
CARLOSS (LOGFAC)	GFP-UP-MISMATCH (GFP-FAC)	SYNCLOSS (FC)
CARLOSS (ML100T)	GFP-UP-MISMATCH (LOGFAC)	SYNCLOSS (FCMR)
CARLOSS (MLFX)	GFP-UP-MISMATCH (ML1000)	SYNCLOSS (GE)
CARLOSS (TRUNK)	GFP-UP-MISMATCH (ML100T)	SYNCLOSS (ISC)
DBOSYNC (NE)	GFP-UP-MISMATCH (MLFX)	SYNCLOSS (TRUNK)
DSP-COMM-FAIL (TRUNK)	HIBATVG (PWR)	SYNCPRI (NE-SREF)
DSP-FAIL (TRUNK)	INVMACADR (AIP)	SYSBOOT (NE)
DUP-SHELF-ID (SHELF)	LASERBIAS-FAIL (AOTS)	TIM-V (VT-TERM)
EHIBATVG (PWR)	LOF (DS1)	TPTFAIL (CE1000)
ELWBATVG (PWR)	LOF (E1)	TPTFAIL (CE100T)
E-W-MISMATCH (OCN)	LOM (VT-TERM)	TPTFAIL (FCMR)
EXTRA-TRAF-PREEMPT (OCN)	LOP-V (VT-MON)	TPTFAIL (G1000)
FC-NO-CREDITS (FC)	LOP-V (VT-TERM)	TPTFAIL (LOGFAC)
FC-NO-CREDITS (FCMR)	LOS (DS1)	TPTFAIL (ML1000)
FC-NO-CREDITS (TRUNK)	LOS (E1)	TPTFAIL (ML100T)
GFP-CSF (CE1000)	LWBATVG (PWR)	TPTFAIL (MLFX)
GFP-CSF (CE100T)	MEA (SHELF)	TRMT (DS1)
GFP-CSF (FCMR)	MEM-GONE (EQPT)	TRMT (E1)
GFP-CSF (GFP-FAC)	ODUK-TIM-PM (TRUNK)	TRMT-MISS (DS1)
GFP-CSF (LOGFAC)	OPTNTWMIS (NE)	TRMT-MISS (E1)
GFP-CSF (ML100T)	OUT-OF-SYNC (FC)	UNEQ-V (VT-MON)
GFP-CSF (ML1000)	OUT-OF-SYNC (GE)	UNEQ-V (VT-TERM)
GFP-CSF (MLFX)	OUT-OF-SYNC (TRUNK)	UT-COMM-FAIL (TRUNK)
GFP-DE-MISMATCH (FCMR)	PEER-NORESPONSE (EQPT)	UT-FAIL (TRUNK)
GFP-DE-MISMATCH (GFP-FAC)	PLM-V (VT-TERM)	WVL-MISMATCH (TRUNK)
GFP-EX-MISMATCH (CE1000)	PRC-DUPID (OCN)	—

2.1.3  Minor Alarms (MN)

Table 2-3 alphabetically lists ONS 15454 Minor (MN) alarms.

Table 2-3 ONS 15454 Minor Alarm List 

APSB (OCN)	HI-RXPOWER (FC)	MEM-LOW (EQPT)
APSCDFLTK (OCN)	HI-RXPOWER (GE)	OPWR-HDEG (AOTS)
APSC-IMP (OCN)	HI-RXPOWER (ISC)	OPWR-HDEG (OCH)
APSCINCON (OCN)	HI-RXPOWER (OCN)	OPWR-HDEG (OMS)
APSIMP (OCN)	HITEMP (EQPT)	OPWR-HDEG (OTS)
APS-INV-PRIM (OCN)	HI-TXPOWER (2R)	OPWR-LDEG (AOTS)
APSMM (OCN)	HI-TXPOWER (EQPT)	OPWR-LDEG (OCH)
APS-PRIM-SEC-MISM (OCN)	HI-TXPOWER (ESCON)	OPWR-LDEG (OMS)
AUTORESET (EQPT)	HI-TXPOWER (FC)	OPWR-LDEG (OTS)
AUTOSW-UNEQ (VT-MON)	HI-TXPOWER (GE)	OTUK-IAE (TRUNK)
AWG-DEG (OTS)	HI-TXPOWER (ISC)	PORT-ADD-PWR-DEG-HI (OCH)
BPV (BITS)	HI-TXPOWER (OCN)	PORT-ADD-PWR-DEG-LOW (OCH)
CASETEMP-DEG (AOTS)	HI-TXPOWER (PPM)	PROTNA (EQPT)
COMM-FAIL (EQPT)	ISIS-ADJ-FAIL (OCN)	PROV-MISMATCH (PPM)
CONTBUS-A-18 (EQPT)	KBYTE-APS-CHANNEL-FAILURE (OCN)	PWR-FAIL-A (EQPT)
CONTBUS-B-18 (EQPT)	LASERBIAS-DEG (AOTS)	PWR-FAIL-B (EQPT)
CONTBUS-IO-A (EQPT)	LASERBIAS-DEG (OTS)	PWR-FAIL-RET-A (EQPT)
CONTBUS-IO-B (EQPT)	LASEREOL (OCN)	PWR-FAIL-RET-B (EQPT)
DATAFLT (NE)	LASERTEMP-DEG (AOTS)	SFTWDOWN (EQPT)
DUP-IPADDR (NE)	LOF (BITS)	SH-INS-LOSS-VAR-DEG-HIGH (OTS)
DUP-NODENAME (NE)	LO-LASERBIAS (EQPT)	SH-INS-LOSS-VAR-DEG-LOW (OTS)
EOC (OCN)	LO-LASERBIAS (OCN)	SNTP-HOST (NE)
EOC (TRUNK)	LO-LASERBIAS (PPM)	SPANLENGTH-OUT-OF-RANGE (OTS)
EOC-L (OCN)	LO-LASERTEMP (EQPT)	SSM-FAIL (BITS)
EOC-L (TRUNK)	LO-LASERTEMP (OCN)	SSM-FAIL (DS1)
ERROR-CONFIG (EQPT)	LO-LASERTEMP (PPM)	SSM-FAIL (E1)
EXCCOL (EQPT)	LO-RXPOWER (2R)	SSM-FAIL (OCN)
EXT (ENVALRM)	LO-RXPOWER (ESCON)	SSM-FAIL (TRUNK)
FEPRLF (OCN)	LO-RXPOWER (FC)	SYNCPRI (EXT-SREF)
FIBERTEMP-DEG (AOTS)	LO-RXPOWER (GE)	SYNCSEC (EXT-SREF)
GAIN-HDEG (AOTS)	LO-RXPOWER (ISC)	SYNCSEC (NE-SREF)
GAIN-LDEG (AOTS)	LO-RXPOWER (OCN)	SYNCTHIRD (EXT-SREF)
GCC-EOC (TRUNK)	LO-TXPOWER (2R)	SYNCTHIRD (NE-SREF)
HI-LASERBIAS (2R)	LOS (BITS)	TIM-MON (OCN)
HI-LASERBIAS (EQPT)	LOS (FUDC)	TIM-MON (TRUNK)
HI-LASERBIAS (ESCON)	LOS (MSUDC)	TIM-P (STSMON)
HI-LASERBIAS (FC)	LOS-O (OCH)	UNREACHABLE-TARGET-POWER (OCH)
HI-LASERBIAS (GE)	LOS-O (OMS)	VOA-HDEG (AOTS)
HI-LASERBIAS (ISC)	LOS-O (OTS)	VOA-HDEG (OCH)
HI-LASERBIAS (OCN)	LO-TXPOWER (EQPT)	VOA-HDEG (OMS)
HI-LASERBIAS (PPM)	LO-TXPOWER (ESCON)	VOA-HDEG (OTS)
HI-LASERTEMP (EQPT)	LO-TXPOWER (FC)	VOA-LDEG (AOTS)
HI-LASERTEMP (OCN)	LO-TXPOWER (GE)	VOA-LDEG (OCH)
HI-LASERTEMP (PPM)	LO-TXPOWER (ISC)	VOA-LDEG (OMS)
HI-RXPOWER (2R)	LO-TXPOWER (OCN)	VOA-LDEG (OTS)
HI-RXPOWER (ESCON)	LO-TXPOWER (PPM)	—

2.1.4  NA Conditions

Table 2-4 alphabetically lists ONS 15454 Not Alarmed (NA) conditions.

Table 2-4 ONS 15454 NA Conditions List 

ALS (2R)	FRCDSWTOPRI (EXT-SREF)	SD-V (VT-TERM)
ALS (AOTS)	FRCDSWTOPRI (NE-SREF)	SF (DS1)
ALS (ESCON)	FRCDSWTOSEC (EXT-SREF)	SF (DS3)
ALS (FC)	FRCDSWTOSEC (NE-SREF)	SF (E1)
ALS (GE)	FRCDSWTOTHIRD (EXT-SREF)	SF (TRUNK)
ALS (ISC)	FRCDSWTOTHIRD (NE-SREF)	SF-L (EC1)
ALS (OCN)	FRNGSYNC (NE-SREF)	SF-L (OCN)
ALS (TRUNK)	FSTSYNC (NE-SREF)	SF-L (TRUNK)
AMPLI-INIT (AOTS)	FULLPASSTHR-BI (OCN)	SF-P (STSMON)
APC-CORRECTION-SKIPPED (AOTS)	HELLO (OCN)	SF-P (STSTRM)
APC-CORRECTION-SKIPPED (OCH)	HELLO (TRUNK)	SF-V (VT-MON)
APC-CORRECTION-SKIPPED (OMS)	HI-CCVOLT (BITS)	SF-V (VT-TERM)
APC-CORRECTION-SKIPPED (OTS)	HLDOVRSYNC (NE-SREF)	SHUTTER-OPEN (OTS)
APC-DISABLED (NE)	INC-ISD (DS3)	SPAN-NOT-MEASURED (OTS)
APC-END (NE)	INHSWPR (EQPT)	SPAN-SW-EAST (OCN)
APC-OUT-OF-RANGE (AOTS)	INHSWWKG (EQPT)	SPAN-SW-WEST (OCN)
APC-OUT-OF-RANGE (OCH)	INTRUSION-PSWD (NE)	SQUELCH (OCN)
APC-OUT-OF-RANGE (OMS)	IOSCFGCOPY (EQPT)	SQUELCHED (ESCON)
APC-OUT-OF-RANGE (OTS)	KB-PASSTHR (OCN)	SQUELCHED (2R)
APS-PRIM-FAC (OCN)	LAN-POL-REV (NE)	SQUELCHED (FC)
AS-CMD (2R)	LASER-APR (AOTS)	SQUELCHED (GE)
AS-CMD (AOTS)	LCAS-CRC (STSTRM)	SQUELCHED (ISC)
AS-CMD (BPLANE)	LCAS-CRC (VT-TERM)	SQUELCHED (OCN)
AS-CMD (CE1000)	LCAS-RX-FAIL (STSTRM)	SQUELCHED (TRUNK)
AS-CMD (CE100T)	LCAS-RX-FAIL (VT-TERM)	SSM-DUS (BITS)
AS-CMD (DS1)	LCAS-TX-ADD (STSTRM)	SSM-DUS (DS1)
AS-CMD (DS3)	LCAS-TX-ADD (VT-TERM)	SSM-DUS (E1)
AS-CMD (E1)	LCAS-TX-DNU (STSTRM)	SSM-DUS (OCN)
AS-CMD (E1000F)	LCAS-TX-DNU (VT-TERM)	SSM-DUS (TRUNK)
AS-CMD (E100T)	LKOUTPR-S (OCN)	SSM-LNC (BITS)
AS-CMD (EC1)	LOCKOUT-REQ (2R)	SSM-LNC (NE-SREF)
AS-CMD (EQPT)	LOCKOUT-REQ (EQPT)	SSM-LNC (TRUNK)
AS-CMD (ESCON)	LOCKOUT-REQ (ESCON)	SSM-OFF (BITS)
AS-CMD (FC)	LOCKOUT-REQ (FC)	SSM-OFF (DS1)
AS-CMD (FCMR)	LOCKOUT-REQ (GE)	SSM-OFF (E1)
AS-CMD (G1000)	LOCKOUT-REQ (ISC)	SSM-OFF (OCN)
AS-CMD (GE)	LOCKOUT-REQ (OCN)	SSM-OFF (TRUNK)
AS-CMD (GFP-FAC)	LOCKOUT-REQ (STSMON)	SSM-PRC (BITS)
AS-CMD (ISC)	LOCKOUT-REQ (TRUNK)	SSM-PRC (NE-SREF)
AS-CMD (LOGFAC)	LOCKOUT-REQ (VT-MON)	SSM-PRC (TRUNK)
AS-CMD (ML1000)	LPBKCRS (STSMON)	SSM-PRS (BITS)
AS-CMD (ML100T)	LPBKCRS (STSTRM)	SSM-PRS (DS1)
AS-CMD (MLFX)	LPBKDS1FEAC-CMD (DS1)	SSM-PRS (E1)
AS-CMD (NE)	LPBKDS3FEAC (DS3)	SSM-PRS (NE-SREF)
AS-CMD (OCH)	LPBKDS3FEAC-CMD (DS3)	SSM-PRS (OCN)
AS-CMD (OCN)	LPBKFACILITY (CE1000)	SSM-PRS (TRUNK)
AS-CMD (OMS)	LPBKFACILITY (CE100T)	SSM-RES (BITS)
AS-CMD (OTS)	LPBKFACILITY (DS1)	SSM-RES (DS1)
AS-CMD (PPM)	LPBKFACILITY (DS3)	SSM-RES (E1)
AS-CMD (PWR)	LPBKFACILITY (E1)	SSM-RES (NE-SREF)
AS-CMD (SHELF)	LPBKFACILITY (EC1)	SSM-RES (OCN)
AS-CMD (TRUNK)	LPBKFACILITY (ESCON)	SSM-RES (TRUNK)
AS-MT (2R)	LPBKFACILITY (FC)	SSM-SDH-TN (OCN)
AS-MT (AOTS)	LPBKFACILITY (FCMR)	SSM-SDH-TN (TRUNK)
AS-MT (CE1000)	LPBKFACILITY (G1000)	SSM-SETS (BITS)
AS-MT (CE100T)	LPBKFACILITY (GE)	SSM-SETS (NE-SREF)
AS-MT (DS1)	LPBKFACILITY (ISC)	SSM-SETS (TRUNK)
AS-MT (DS3)	LPBKFACILITY (OCN)	SSM-SMC (BITS)
AS-MT (E1)	LPBKFACILITY (TRUNK)	SSM-SMC (DS1)
AS-MT (EC1)	LPBKTERMINAL (CE1000)	SSM-SMC (E1)
AS-MT (EQPT)	LPBKTERMINAL (CE100T)	SSM-SMC (NE-SREF)
AS-MT (ESCON)	LPBKTERMINAL (DS1)	SSM-SMC (OCN)
AS-MT (FC)	LPBKTERMINAL (DS3)	SSM-SMC (TRUNK)
AS-MT (FCMR)	LPBKTERMINAL (E1)	SSM-ST2 (BITS)
AS-MT (G1000)	LPBKTERMINAL (EC1)	SSM-ST2 (DS1)
AS-MT (GE)	LPBKTERMINAL (ESCON)	SSM-ST2 (E1)
AS-MT (GFP-FAC)	LPBKTERMINAL (FC)	SSM-ST2 (NE-SREF)
AS-MT (ISC)	LPBKTERMINAL (FCMR)	SSM-ST2 (OCN)
AS-MT (LOGFAC)	LPBKTERMINAL (G1000)	SSM-ST2 (TRUNK)
AS-MT (ML1000)	LPBKTERMINAL (GE)	SSM-ST3 (BITS)
AS-MT (ML100T)	LPBKTERMINAL (ISC)	SSM-ST3 (DS1)
AS-MT (MLFX)	LPBKTERMINAL (OCN)	SSM-ST3 (E1)
AS-MT (OCH)	LPBKTERMINAL (TRUNK)	SSM-ST3 (NE-SREF)
AS-MT (OCN)	MAN-REQ (EQPT)	SSM-ST3 (OCN)
AS-MT (OMS)	MAN-REQ (STSMON)	SSM-ST3 (TRUNK)
AS-MT (OTS)	MAN-REQ (VT-MON)	SSM-ST3E (BITS)
AS-MT (PPM)	MANRESET (EQPT)	SSM-ST3E (DS1)
AS-MT (SHELF)	MANSWTOINT (NE-SREF)	SSM-ST3E (E1)
AS-MT (TRUNK)	MANSWTOPRI (EXT-SREF)	SSM-ST3E (NE-SREF)
AS-MT-OOG (STSTRM)	MANSWTOPRI (NE-SREF)	SSM-ST3E (OCN)
AS-MT-OOG (VT-TERM)	MANSWTOSEC (EXT-SREF)	SSM-ST3E (TRUNK)
AUD-LOG-LOSS (NE)	MANSWTOSEC (NE-SREF)	SSM-ST4 (BITS)
AUD-LOG-LOW (NE)	MANSWTOTHIRD (EXT-SREF)	SSM-ST4 (DS1)
AUTOSW-LOP (STSMON)	MANSWTOTHIRD (NE-SREF)	SSM-ST4 (E1)
AUTOSW-LOP (VT-MON)	MANUAL-REQ-RING (OCN)	SSM-ST4 (NE-SREF)
AUTOSW-PDI (STSMON)	MANUAL-REQ-SPAN (2R)	SSM-ST4 (OCN)
AUTOSW-SDBER (STSMON)	MANUAL-REQ-SPAN (ESCON)	SSM-ST4 (TRUNK)
AUTOSW-SFBER (STSMON)	MANUAL-REQ-SPAN (FC)	SSM-STU (BITS)
AUTOSW-UNEQ (STSMON)	MANUAL-REQ-SPAN (GE)	SSM-STU (DS1)
AWG-WARM-UP (OTS)	MANUAL-REQ-SPAN (ISC)	SSM-STU (E1)
CLDRESTART (EQPT)	MANUAL-REQ-SPAN (OCN)	SSM-STU (NE-SREF)
CTNEQPT-MISMATCH (EQPT)	MANUAL-REQ-SPAN (TRUNK)	SSM-STU (OCN)
DS3-MISM (DS3)	NO-CONFIG (EQPT)	SSM-STU (TRUNK)
ETH-LINKLOSS (NE)	OCHNC-INC (OCHNC-CONN)	SSM-TNC (BITS)
EXERCISE-RING-FAIL (OCN)	OCHTERM-INC (OCH-TERM)	SSM-TNC (NE-SREF)
EXERCISE-SPAN-FAIL (OCN)	ODUK-SD-PM (TRUNK)	SSM-TNC (TRUNK)
FAILTOSW (2R)	ODUK-SF-PM (TRUNK)	STS-SQUELCH-L (OCN)
FAILTOSW (EQPT)	OOU-TPT (STSTRM)	SW-MISMATCH (EQPT)
FAILTOSW (ESCON)	OOU-TPT (VT-TERM)	SWTOPRI (EXT-SREF)
FAILTOSW (FC)	OPEN-SLOT (EQPT)	SWTOPRI (NE-SREF)
FAILTOSW (GE)	OSRION (AOTS)	SWTOSEC (EXT-SREF)
FAILTOSW (ISC)	OSRION (OTS)	SWTOSEC (NE-SREF)
FAILTOSW (OCN)	OTUK-SD (TRUNK)	SWTOTHIRD (EXT-SREF)
FAILTOSW (TRUNK)	OTUK-SF (TRUNK)	SWTOTHIRD (NE-SREF)
FAILTOSW-PATH (STSMON)	OUT-OF-SYNC (ISC)	SYNC-FREQ (BITS)
FAILTOSW-PATH (VT-MON)	PARAM-MISM (AOTS)	SYNC-FREQ (DS1)
FAILTOSWR (OCN)	PARAM-MISM (OCH)	SYNC-FREQ (E1)
FAILTOSWS (OCN)	PARAM-MISM (OMS)	SYNC-FREQ (OCN)
FDI (OCH)	PARAM-MISM (OTS)	SYNC-FREQ (TRUNK)
FE-AIS (DS3)	PDI-P (STSMON)	TEMP-MISM (NE)
FEC-MISM (TRUNK)	PDI-P (STSTRM)	TRAIL-SIGNAL-FAIL (TRUNK)
FE-DS1-MULTLOS (DS3)	PMI (OMS)	TRAIL-SIGNAL-FAIL (OCH)
FE-DS1-NSA (DS3)	PMI (OTS)	TX-RAI (DS1)
FE-DS1-SA (DS3)	PORT-MISMATCH (FCMR)	TX-RAI (DS3)
FE-DS1-SNGLLOS (DS3)	RAI (DS1)	TX-RAI (E1)
FE-DS3-NSA (DS3)	RAI (DS3)	UNC-WORD (TRUNK)
FE-DS3-SA (DS3)	RAI (E1)	VCG-DEG (VCG)
FE-EQPT-NSA (DS3)	RING-SW-EAST (OCN)	VCG-DOWN (VCG)
FE-FRCDWKSWBK-SPAN (OCN)	RING-SW-WEST (OCN)	VOLT-MISM (PWR)
FE-FRCDWKSWPR-RING (OCN)	ROLL (STSMON)	VT-SQUELCH-L (OCN)
FE-FRCDWKSWPR-SPAN (OCN)	ROLL (STSTRM)	WKSWPR (2R)
FE-IDLE (DS3)	ROLL (VT-MON)	WKSWPR (EQPT)
FE-LOCKOUTOFPR-SPAN (OCN)	ROLL-PEND (STSMON)	WKSWPR (ESCON)
FE-LOF (DS3)	ROLL-PEND (VT-MON)	WKSWPR (FC)
FE-LOS (DS3)	RPRW (LOGFAC)	WKSWPR (GE)
FE-MANWKSWBK-SPAN (OCN)	RPRW (ML1000)	WKSWPR (ISC)
FE-MANWKSWPR-RING (OCN)	RPRW (ML100T)	WKSWPR (OCN)
FE-MANWKSWPR-SPAN (OCN)	RPRW (MLFX)	WKSWPR (STSMON)
FORCED-REQ (STSMON)	RUNCFG-SAVENEED (EQPT)	WKSWPR (VT-MON)
FORCED-REQ (EQPT)	SD (DS1)	WTR (2R)
FORCED-REQ (VT-MON)	SD (DS3)	WTR (EQPT)
FORCED-REQ-RING (OCN)	SD (E1)	WTR (ESCON)
FORCED-REQ-SPAN (2R)	SD (TRUNK)	WTR (FC)
FORCED-REQ-SPAN (ESCON)	SD-L (EC1)	WTR (GE)
FORCED-REQ-SPAN (FC)	SD-L (OCN)	WTR (ISC)
FORCED-REQ-SPAN (GE)	SD-L (TRUNK)	WTR (OCN)
FORCED-REQ-SPAN (ISC)	SD-P (STSMON)	WTR (STSMON)
FORCED-REQ-SPAN (OCN)	SD-P (STSTRM)	WTR (TRUNK)
FORCED-REQ-SPAN (TRUNK)	SD-V (VT-MON)	WTR (VT-MON)
FRCDSWTOINT (NE-SREF)	—	—

2.1.5  NR Conditions

Table 2-5 alphabetically lists ONS 15454 Not Reported (NR) conditions.

Table 2-5 ONS 15454 NR Conditions List 

AIS (BITS)	ERFI-P-CONN (STSMON)	OTUK-BDI (TRUNK)
AIS (DS1)	ERFI-P-CONN (STSTRM)	RFI (TRUNK)
AIS (DS3)	ERFI-P-PAYLD (STSMON)	RFI-L (EC1)
AIS (E1)	ERFI-P-PAYLD (STSTRM)	RFI-L (OCN)
AIS (FUDC)	ERFI-P-SRVR (STSMON)	RFI-L (TRUNK)
AIS (MSUDC)	ERFI-P-SRVR (STSTRM)	RFI-P (STSMON)
AIS (TRUNK)	ODUK-1-AIS-PM (TRUNK)	RFI-P (STSTRM)
AIS-L (EC1)	ODUK-2-AIS-PM (TRUNK)	RFI-V (VT-MON)
AIS-L (OCN)	ODUK-3-AIS-PM (TRUNK)	RFI-V (VT-TERM)
AIS-L (TRUNK)	ODUK-4-AIS-PM (TRUNK)	ROLL-PEND (STSTRM)
AIS-P (STSMON)	ODUK-AIS-PM (TRUNK)	TX-AIS (DS1)
AIS-P (STSTRM)	ODUK-BDI-PM (TRUNK)	TX-AIS (DS3)
AIS-V (VT-MON)	ODUK-LCK-PM (TRUNK)	TX-AIS (E1)
AIS-V (VT-TERM)	ODUK-OCI-PM (TRUNK)	TX-LOF (DS1)
AUTOSW-AIS (STSMON)	OTUK-AIS (TRUNK)	TX-LOF (E1)
AUTOSW-AIS (VT-MON)	—	—

2.2  Alarms and Conditions Listed By Alphabetical Entry

Table 2-6 alphabetically lists all ONS 15454 alarms and conditions.

Table 2-6 ONS 15454 Alarm and Condition Alphabetical List 

AIS (BITS)	GFP-LFD (FCMR)	PORT-ADD-PWR-FAIL-LOW (OCH)
AIS (DS1)	GFP-LFD (GFP-FAC)	PORT-FAIL (OCH)
AIS (DS3)	GFP-LFD (LOGFAC)	PORT-MISMATCH (FCMR)
AIS (E1)	GFP-LFD (ML1000)	PRC-DUPID (OCN)
AIS (FUDC)	GFP-LFD (ML100T)	PROTNA (EQPT)
AIS (MSUDC)	GFP-LFD (MLFX)	PROV-MISMATCH (PPM)
AIS (TRUNK)	GFP-NO-BUFFERS (FCMR)	PROV-MISMATCH (TRUNK)
AIS-L (EC1)	GFP-NO-BUFFERS (GFP-FAC)	PTIM (TRUNK)
AIS-L (OCN)	GFP-UP-MISMATCH (CE1000)	PWR-FAIL-A (EQPT)
AIS-L (TRUNK)	GFP-UP-MISMATCH (CE100T)	PWR-FAIL-B (EQPT)
AIS-P (STSMON)	GFP-UP-MISMATCH (FCMR)	PWR-FAIL-RET-A (EQPT)
AIS-P (STSTRM)	GFP-UP-MISMATCH (GFP-FAC)	PWR-FAIL-RET-B (EQPT)
AIS-V (VT-MON)	GFP-UP-MISMATCH (LOGFAC)	RAI (DS1)
AIS-V (VT-TERM)	GFP-UP-MISMATCH (ML1000)	RAI (DS3)
ALS (2R)	GFP-UP-MISMATCH (ML100T)	RAI (E1)
ALS (AOTS)	GFP-UP-MISMATCH (MLFX)	RCVR-MISS (DS1)
ALS (ESCON)	HELLO (OCN)	RCVR-MISS (E1)
ALS (FC)	HELLO (TRUNK)	RFI (TRUNK)
ALS (GE)	HIBATVG (PWR)	RFI-L (EC1)
ALS (ISC)	HI-CCVOLT (BITS)	RFI-L (OCN)
ALS (OCN)	HI-LASERBIAS (2R)	RFI-L (TRUNK)
ALS (TRUNK)	HI-LASERBIAS (EQPT)	RFI-P (STSMON)
AMPLI-INIT (AOTS)	HI-LASERBIAS (ESCON)	RFI-P (STSTRM)
APC-CORRECTION-SKIPPED (AOTS)	HI-LASERBIAS (FC)	RFI-V (VT-MON)
APC-CORRECTION-SKIPPED (OCH)	HI-LASERBIAS (GE)	RFI-V (VT-TERM)
APC-CORRECTION-SKIPPED (OMS)	HI-LASERBIAS (ISC)	RING-ID-MIS (OCN)
APC-CORRECTION-SKIPPED (OTS)	HI-LASERBIAS (OCN)	RING-ID-MIS (OSC-RING)
APC-DISABLED (NE)	HI-LASERBIAS (PPM)	RING-MISMATCH (OCN)
APC-END (NE)	HI-LASERTEMP (EQPT)	RING-SW-EAST (OCN)
APC-OUT-OF-RANGE (AOTS)	HI-LASERTEMP (OCN)	RING-SW-WEST (OCN)
APC-OUT-OF-RANGE (OCH)	HI-LASERTEMP (PPM)	ROLL (STSMON)
APC-OUT-OF-RANGE (OMS)	HI-RXPOWER (2R)	ROLL (STSTRM)
APC-OUT-OF-RANGE (OTS)	HI-RXPOWER (ESCON)	ROLL (VT-MON)
APSB (OCN)	HI-RXPOWER (FC)	ROLL-PEND (STSMON)
APSCDFLTK (OCN)	HI-RXPOWER (GE)	ROLL-PEND (STSTRM)
APSC-IMP (OCN)	HI-RXPOWER (ISC)	ROLL-PEND (VT-MON)
APSCINCON (OCN)	HI-RXPOWER (OCN)	RPRW (LOGFAC)
APSCM (OCN)	HITEMP (EQPT)	RPRW (ML1000)
APSCNMIS (OCN)	HITEMP (NE)	RPRW (ML100T)
APSIMP (OCN)	HI-TXPOWER (2R)	RPRW (MLFX)
APS-INV-PRIM (OCN)	HI-TXPOWER (EQPT)	RUNCFG-SAVENEED (EQPT)
APSMM (OCN)	HI-TXPOWER (ESCON)	SD (DS1)
APS-PRIM-FAC (OCN)	HI-TXPOWER (FC)	SD (DS3)
APS-PRIM-SEC-MISM (OCN)	HI-TXPOWER (GE)	SD (E1)
AS-CMD (2R)	HI-TXPOWER (ISC)	SD (TRUNK)
AS-CMD (AOTS)	HI-TXPOWER (OCN)	SD-L (EC1)
AS-CMD (BPLANE)	HI-TXPOWER (PPM)	SD-L (OCN)
AS-CMD (CE1000)	HLDOVRSYNC (NE-SREF)	SD-L (TRUNK)
AS-CMD (CE100T)	I-HITEMP (NE)	SD-P (STSMON)
AS-CMD (DS1)	IMPROPRMVL (EQPT)	SD-P (STSTRM)
AS-CMD (DS3)	IMPROPRMVL (PPM)	SD-V (VT-MON)
AS-CMD (E1)	INC-ISD (DS3)	SD-V (VT-TERM)
AS-CMD (E1000F)	INHSWPR (EQPT)	SF (DS1)
AS-CMD (E100T)	INHSWWKG (EQPT)	SF (DS3)
AS-CMD (EC1)	INTRUSION-PSWD (NE)	SF (E1)
AS-CMD (EQPT)	INVMACADR (AIP)	SF (TRUNK)
AS-CMD (ESCON)	IOSCFGCOPY (EQPT)	SF-L (EC1)
AS-CMD (FC)	ISIS-ADJ-FAIL (OCN)	SF-L (OCN)
AS-CMD (FCMR)	KB-PASSTHR (OCN)	SF-L (TRUNK)
AS-CMD (G1000)	KBYTE-APS-CHANNEL-FAILURE (OCN)	SF-P (STSMON)
AS-CMD (GE)	LAN-POL-REV (NE)	SF-P (STSTRM)
AS-CMD (GFP-FAC)	LASER-APR (AOTS)	SFTWDOWN (EQPT)
AS-CMD (ISC)	LASERBIAS-DEG (AOTS)	SF-V (VT-MON)
AS-CMD (LOGFAC)	LASERBIAS-DEG (OTS)	SF-V (VT-TERM)
AS-CMD (ML1000)	LASERBIAS-FAIL (AOTS)	SHELF-COMM-FAIL (SHELF)
AS-CMD (ML100T)	LASEREOL (OCN)	SH-INS-LOSS-VAR-DEG-HIGH (OTS)
AS-CMD (MLFX)	LASERTEMP-DEG (AOTS)	SH-INS-LOSS-VAR-DEG-LOW (OTS)
AS-CMD (NE)	LCAS-CRC (STSTRM)	SHUTTER-OPEN (OTS)
AS-CMD (OCH)	LCAS-CRC (VT-TERM)	SIGLOSS (ESCON)
AS-CMD (OCN)	LCAS-RX-FAIL (STSTRM)	SIGLOSS (FC)
AS-CMD (OMS)	LCAS-RX-FAIL (VT-TERM)	SIGLOSS (FCMR)
AS-CMD (OTS)	LCAS-TX-ADD (STSTRM)	SIGLOSS (GE)
AS-CMD (PPM)	LCAS-TX-ADD (VT-TERM)	SIGLOSS (ISC)
AS-CMD (PWR)	LCAS-TX-DNU (STSTRM)	SIGLOSS (TRUNK)
AS-CMD (SHELF)	LCAS-TX-DNU (VT-TERM)	SNTP-HOST (NE)
AS-CMD (TRUNK)	LKOUTPR-S (OCN)	SPANLENGTH-OUT-OF-RANGE (OTS)
AS-MT (2R)	LOA (VCG)	SPAN-NOT-MEASURED (OTS)
AS-MT (AOTS)	LOCKOUT-REQ (2R)	SPAN-SW-EAST (OCN)
AS-MT (CE1000)	LOCKOUT-REQ (EQPT)	SPAN-SW-WEST (OCN)
AS-MT (CE100T)	LOCKOUT-REQ (ESCON)	SQM (STSTRM)
AS-MT (DS1)	LOCKOUT-REQ (FC)	SQM (VT-TERM)
AS-MT (DS3)	LOCKOUT-REQ (GE)	SQUELCH (OCN)
AS-MT (E1)	LOCKOUT-REQ (ISC)	SQUELCHED (ESCON)
AS-MT (EC1)	LOCKOUT-REQ (OCN)	SQUELCHED (2R)
AS-MT (EQPT)	LOCKOUT-REQ (STSMON)	SQUELCHED (FC)
AS-MT (ESCON)	LOCKOUT-REQ (TRUNK)	SQUELCHED (GE)
AS-MT (FC)	LOCKOUT-REQ (VT-MON)	SQUELCHED (ISC)
AS-MT (FCMR)	LOF (BITS)	SQUELCHED (OCN)
AS-MT (G1000)	LOF (DS1)	SQUELCHED (TRUNK)
AS-MT (GE)	LOF (DS3)	SSM-DUS (BITS)
AS-MT (GFP-FAC)	LOF (E1)	SSM-DUS (DS1)
AS-MT (ISC)	LOF (EC1)	SSM-DUS (E1)
AS-MT (LOGFAC)	LOF (OCN)	SSM-DUS (OCN)
AS-MT (ML1000)	LOF (STSTRM)	SSM-DUS (TRUNK)
AS-MT (ML100T)	LOF (TRUNK)	SSM-FAIL (BITS)
AS-MT (MLFX)	LO-LASERBIAS (EQPT)	SSM-FAIL (DS1)
AS-MT (OCH)	LO-LASERBIAS (OCN)	SSM-FAIL (E1)
AS-MT (OCN)	LO-LASERBIAS (PPM)	SSM-FAIL (OCN)
AS-MT (OMS)	LO-LASERTEMP (EQPT)	SSM-FAIL (TRUNK)
AS-MT (OTS)	LO-LASERTEMP (OCN)	SSM-LNC (BITS)
AS-MT (PPM)	LO-LASERTEMP (PPM)	SSM-LNC (NE-SREF)
AS-MT (SHELF)	LOM (STSMON)	SSM-LNC (TRUNK)
AS-MT (TRUNK)	LOM (STSTRM)	SSM-OFF (BITS)
AS-MT-OOG (STSTRM)	LOM (TRUNK)	SSM-OFF (DS1)
AS-MT-OOG (VT-TERM)	LOM (VT-TERM)	SSM-OFF (E1)
AUD-LOG-LOSS (NE)	LOP-P (STSMON)	SSM-OFF (OCN)
AUD-LOG-LOW (NE)	LOP-P (STSTRM)	SSM-OFF (TRUNK)
AUTOLSROFF (OCN)	LOP-V (VT-MON)	SSM-PRC (BITS)
AUTORESET (EQPT)	LOP-V (VT-TERM)	SSM-PRC (NE-SREF)
AUTOSW-AIS (STSMON)	LO-RXPOWER (2R)	SSM-PRC (TRUNK)
AUTOSW-AIS (VT-MON)	LO-RXPOWER (ESCON)	SSM-PRS (BITS)
AUTOSW-LOP (STSMON)	LO-RXPOWER (FC)	SSM-PRS (DS1)
AUTOSW-LOP (VT-MON)	LO-RXPOWER (GE)	SSM-PRS (E1)
AUTOSW-PDI (STSMON)	LO-RXPOWER (ISC)	SSM-PRS (NE-SREF)
AUTOSW-SDBER (STSMON)	LO-RXPOWER (OCN)	SSM-PRS (OCN)
AUTOSW-SFBER (STSMON)	LO-TXPOWER (2R)	SSM-PRS (TRUNK)
AUTOSW-UNEQ (STSMON)	LOS (2R)	SSM-RES (BITS)
AUTOSW-UNEQ (VT-MON)	LOS (BITS)	SSM-RES (DS1)
AWG-DEG (OTS)	LOS (DS1)	SSM-RES (E1)
AWG-FAIL (OTS)	LOS (DS3)	SSM-RES (NE-SREF)
AWG-OVERTEMP (OTS)	LOS (E1)	SSM-RES (OCN)
AWG-WARM-UP (OTS)	LOS (EC1)	SSM-RES (TRUNK)
BAT-FAIL (PWR)	LOS (ESCON)	SSM-SDH-TN (OCN)
BKUPMEMP (EQPT)	LOS (FUDC)	SSM-SDH-TN (TRUNK)
BLSROSYNC (OCN)	LOS (ISC)	SSM-SETS (BITS)
BLSR-SW-VER-MISM (OCN)	LOS (MSUDC)	SSM-SETS (NE-SREF)
BPV (BITS)	LOS (OCN)	SSM-SETS (TRUNK)
CARLOSS (ML1000)	LOS (OTS)	SSM-SMC (BITS)
CARLOSS (CE1000)	LOS (TRUNK)	SSM-SMC (DS1)
CARLOSS (CE100T)	LOS-O (OCH)	SSM-SMC (E1)
CARLOSS (E1000F)	LOS-O (OMS)	SSM-SMC (NE-SREF)
CARLOSS (E100T)	LOS-O (OTS)	SSM-SMC (OCN)
CARLOSS (EQPT)	LOS-P (OCH)	SSM-SMC (TRUNK)
CARLOSS (FC)	LOS-P (OMS)	SSM-ST2 (BITS)
CARLOSS (G1000)	LOS-P (OTS)	SSM-ST2 (DS1)
CARLOSS (GE)	LOS-P (TRUNK)	SSM-ST2 (E1)
CARLOSS (ISC)	LO-TXPOWER (EQPT)	SSM-ST2 (NE-SREF)
CARLOSS (LOGFAC)	LO-TXPOWER (ESCON)	SSM-ST2 (OCN)
CARLOSS (ML100T)	LO-TXPOWER (FC)	SSM-ST2 (TRUNK)
CARLOSS (MLFX)	LO-TXPOWER (GE)	SSM-ST3 (BITS)
CARLOSS (TRUNK)	LO-TXPOWER (ISC)	SSM-ST3 (DS1)
CASETEMP-DEG (AOTS)	LO-TXPOWER (OCN)	SSM-ST3 (E1)
CLDRESTART (EQPT)	LO-TXPOWER (PPM)	SSM-ST3 (NE-SREF)
COMIOXC (EQPT)	LPBKCRS (STSMON)	SSM-ST3 (OCN)
COMM-FAIL (EQPT)	LPBKCRS (STSTRM)	SSM-ST3 (TRUNK)
CONTBUS-A-18 (EQPT)	LPBKDS1FEAC-CMD (DS1)	SSM-ST3E (BITS)
CONTBUS-B-18 (EQPT)	LPBKDS3FEAC (DS3)	SSM-ST3E (DS1)
CONTBUS-DISABLED (EQPT)	LPBKDS3FEAC-CMD (DS3)	SSM-ST3E (E1)
CONTBUS-IO-A (EQPT)	LPBKFACILITY (CE1000)	SSM-ST3E (NE-SREF)
CONTBUS-IO-B (EQPT)	LPBKFACILITY (CE100T)	SSM-ST3E (OCN)
CTNEQPT-MISMATCH (EQPT)	LPBKFACILITY (DS1)	SSM-ST3E (TRUNK)
CTNEQPT-PBPROT (EQPT)	LPBKFACILITY (DS3)	SSM-ST4 (BITS)
CTNEQPT-PBWORK (EQPT)	LPBKFACILITY (E1)	SSM-ST4 (DS1)
DATAFLT (NE)	LPBKFACILITY (EC1)	SSM-ST4 (E1)
DBOSYNC (NE)	LPBKFACILITY (ESCON)	SSM-ST4 (NE-SREF)
DS3-MISM (DS3)	LPBKFACILITY (FC)	SSM-ST4 (OCN)
DSP-COMM-FAIL (TRUNK)	LPBKFACILITY (FCMR)	SSM-ST4 (TRUNK)
DSP-FAIL (TRUNK)	LPBKFACILITY (G1000)	SSM-STU (BITS)
DUP-IPADDR (NE)	LPBKFACILITY (GE)	SSM-STU (DS1)
DUP-NODENAME (NE)	LPBKFACILITY (ISC)	SSM-STU (E1)
DUP-SHELF-ID (SHELF)	LPBKFACILITY (OCN)	SSM-STU (NE-SREF)
EHIBATVG (PWR)	LPBKFACILITY (TRUNK)	SSM-STU (OCN)
ELWBATVG (PWR)	LPBKTERMINAL (CE1000)	SSM-STU (TRUNK)
ENCAP-MISMATCH-P (STSTRM)	LPBKTERMINAL (CE100T)	SSM-TNC (BITS)
EOC (OCN)	LPBKTERMINAL (DS1)	SSM-TNC (NE-SREF)
EOC (TRUNK)	LPBKTERMINAL (DS3)	SSM-TNC (TRUNK)
EOC-L (OCN)	LPBKTERMINAL (E1)	STS-SQUELCH-L (OCN)
EOC-L (TRUNK)	LPBKTERMINAL (EC1)	SW-MISMATCH (EQPT)
EQPT (AICI-AEP)	LPBKTERMINAL (ESCON)	SWMTXMOD-PROT (EQPT)
EQPT (AICI-AIE)	LPBKTERMINAL (FC)	SWMTXMOD-WORK (EQPT)
EQPT (EQPT)	LPBKTERMINAL (FCMR)	SWTOPRI (EXT-SREF)
EQPT (PPM)	LPBKTERMINAL (G1000)	SWTOPRI (NE-SREF)
EQPT-DIAG (EQPT)	LPBKTERMINAL (GE)	SWTOSEC (EXT-SREF)
EQPT-MISS (FAN)	LPBKTERMINAL (ISC)	SWTOSEC (NE-SREF)
ERFI-P-CONN (STSMON)	LPBKTERMINAL (OCN)	SWTOTHIRD (EXT-SREF)
ERFI-P-CONN (STSTRM)	LPBKTERMINAL (TRUNK)	SWTOTHIRD (NE-SREF)
ERFI-P-PAYLD (STSMON)	LWBATVG (PWR)	SYNC-FREQ (BITS)
ERFI-P-PAYLD (STSTRM)	MAN-REQ (EQPT)	SYNC-FREQ (DS1)
ERFI-P-SRVR (STSMON)	MAN-REQ (STSMON)	SYNC-FREQ (E1)
ERFI-P-SRVR (STSTRM)	MAN-REQ (VT-MON)	SYNC-FREQ (OCN)
ERROR-CONFIG (EQPT)	MANRESET (EQPT)	SYNC-FREQ (TRUNK)
ETH-LINKLOSS (NE)	MANSWTOINT (NE-SREF)	SYNCLOSS (FC)
E-W-MISMATCH (OCN)	MANSWTOPRI (EXT-SREF)	SYNCLOSS (FCMR)
EXCCOL (EQPT)	MANSWTOPRI (NE-SREF)	SYNCLOSS (GE)
EXERCISE-RING-FAIL (OCN)	MANSWTOSEC (EXT-SREF)	SYNCLOSS (ISC)
EXERCISE-SPAN-FAIL (OCN)	MANSWTOSEC (NE-SREF)	SYNCLOSS (TRUNK)
EXT (ENVALRM)	MANSWTOTHIRD (EXT-SREF)	SYNCPRI (EXT-SREF)
EXTRA-TRAF-PREEMPT (OCN)	MANSWTOTHIRD (NE-SREF)	SYNCPRI (NE-SREF)
FAILTOSW (2R)	MANUAL-REQ-RING (OCN)	SYNCSEC (EXT-SREF)
FAILTOSW (EQPT)	MANUAL-REQ-SPAN (2R)	SYNCSEC (NE-SREF)
FAILTOSW (ESCON)	MANUAL-REQ-SPAN (ESCON)	SYNCTHIRD (EXT-SREF)
FAILTOSW (FC)	MANUAL-REQ-SPAN (FC)	SYNCTHIRD (NE-SREF)
FAILTOSW (GE)	MANUAL-REQ-SPAN (GE)	SYSBOOT (NE)
FAILTOSW (ISC)	MANUAL-REQ-SPAN (ISC)	TEMP-MISM (NE)
FAILTOSW (OCN)	MANUAL-REQ-SPAN (OCN)	TIM (OCN)
FAILTOSW (TRUNK)	MANUAL-REQ-SPAN (TRUNK)	TIM (TRUNK)
FAILTOSW-PATH (STSMON)	MEA (AIP)	TIM-MON (OCN)
FAILTOSW-PATH (VT-MON)	MEA (BIC)	TIM-MON (TRUNK)
FAILTOSWR (OCN)	MEA (EQPT)	TIM-P (STSMON)
FAILTOSWS (OCN)	MEA (FAN)	TIM-P (STSTRM)
FAN (FAN)	MEA (PPM)	TIM-S (EC1)
FC-NO-CREDITS (FC)	MEA (SHELF)	TIM-S (OCN)
FC-NO-CREDITS (FCMR)	MEM-GONE (EQPT)	TIM-V (VT-TERM)
FC-NO-CREDITS (TRUNK)	MEM-LOW (EQPT)	TPTFAIL (CE1000)
FDI (OCH)	MFGMEM (AICI-AEP)	TPTFAIL (CE100T)
FDI (OMS)	MFGMEM (AICI-AIE)	TPTFAIL (FCMR)
FDI (OTS)	MFGMEM (AIP)	TPTFAIL (G1000)
FE-AIS (DS3)	MFGMEM (BPLANE)	TPTFAIL (LOGFAC)
FEC-MISM (TRUNK)	MFGMEM (FAN)	TPTFAIL (ML1000)
FE-DS1-MULTLOS (DS3)	MFGMEM (PPM)	TPTFAIL (ML100T)
FE-DS1-NSA (DS3)	NO-CONFIG (EQPT)	TPTFAIL (MLFX)
FE-DS1-SA (DS3)	OCHNC-INC (OCHNC-CONN)	TRAIL-SIGNAL-FAIL (TRUNK)
FE-DS1-SNGLLOS (DS3)	OCHTERM-INC (OCH-TERM)	TRAIL-SIGNAL-FAIL (OCH)
FE-DS3-NSA (DS3)	ODUK-1-AIS-PM (TRUNK)	TRMT (DS1)
FE-DS3-SA (DS3)	ODUK-2-AIS-PM (TRUNK)	TRMT (E1)
FE-EQPT-NSA (DS3)	ODUK-3-AIS-PM (TRUNK)	TRMT-MISS (DS1)
FE-FRCDWKSWBK-SPAN (OCN)	ODUK-4-AIS-PM (TRUNK)	TRMT-MISS (E1)
FE-FRCDWKSWPR-RING (OCN)	ODUK-AIS-PM (TRUNK)	TX-AIS (DS1)
FE-FRCDWKSWPR-SPAN (OCN)	ODUK-BDI-PM (TRUNK)	TX-AIS (DS3)
FE-IDLE (DS3)	ODUK-LCK-PM (TRUNK)	TX-AIS (E1)
FE-LOCKOUTOFPR-SPAN (OCN)	ODUK-OCI-PM (TRUNK)	TX-LOF (DS1)
FE-LOF (DS3)	ODUK-SD-PM (TRUNK)	TX-LOF (E1)
FE-LOS (DS3)	ODUK-SF-PM (TRUNK)	TX-RAI (DS1)
FE-MANWKSWBK-SPAN (OCN)	ODUK-TIM-PM (TRUNK)	TX-RAI (DS3)
FE-MANWKSWPR-RING (OCN)	OOU-TPT (STSTRM)	TX-RAI (E1)
FE-MANWKSWPR-SPAN (OCN)	OOU-TPT (VT-TERM)	UNC-WORD (TRUNK)
FEPRLF (OCN)	OPEN-SLOT (EQPT)	UNEQ-P (STSMON)
FIBERTEMP-DEG (AOTS)	OPTNTWMIS (NE)	UNEQ-P (STSTRM)
FORCED-REQ (STSMON)	OPWR-HDEG (AOTS)	UNEQ-V (VT-MON)
FORCED-REQ (EQPT)	OPWR-HDEG (OCH)	UNEQ-V (VT-TERM)
FORCED-REQ (VT-MON)	OPWR-HDEG (OMS)	UNREACHABLE-TARGET-POWER (OCH)
FORCED-REQ-RING (OCN)	OPWR-HDEG (OTS)	UT-COMM-FAIL (TRUNK)
FORCED-REQ-SPAN (2R)	OPWR-HFAIL (AOTS)	UT-FAIL (TRUNK)
FORCED-REQ-SPAN (ESCON)	OPWR-HFAIL (OCH)	VCG-DEG (VCG)
FORCED-REQ-SPAN (FC)	OPWR-HFAIL (OMS)	VCG-DOWN (VCG)
FORCED-REQ-SPAN (GE)	OPWR-HFAIL (OTS)	VOA-HDEG (AOTS)
FORCED-REQ-SPAN (ISC)	OPWR-LDEG (AOTS)	VOA-HDEG (OCH)
FORCED-REQ-SPAN (OCN)	OPWR-LDEG (OCH)	VOA-HDEG (OMS)
FORCED-REQ-SPAN (TRUNK)	OPWR-LDEG (OMS)	VOA-HDEG (OTS)
FRCDSWTOINT (NE-SREF)	OPWR-LDEG (OTS)	VOA-HFAIL (AOTS)
FRCDSWTOPRI (EXT-SREF)	OPWR-LFAIL (AOTS)	VOA-HFAIL (OCH)
FRCDSWTOPRI (NE-SREF)	OPWR-LFAIL (OCH)	VOA-HFAIL (OMS)
FRCDSWTOSEC (EXT-SREF)	OPWR-LFAIL (OMS)	VOA-HFAIL (OTS)
FRCDSWTOSEC (NE-SREF)	OPWR-LFAIL (OTS)	VOA-LDEG (AOTS)
FRCDSWTOTHIRD (EXT-SREF)	OSRION (AOTS)	VOA-LDEG (OCH)
FRCDSWTOTHIRD (NE-SREF)	OSRION (OTS)	VOA-LDEG (OMS)
FRNGSYNC (NE-SREF)	OTUK-AIS (TRUNK)	VOA-LDEG (OTS)
FSTSYNC (NE-SREF)	OTUK-BDI (TRUNK)	VOA-LFAIL (AOTS)
FULLPASSTHR-BI (OCN)	OTUK-IAE (TRUNK)	VOA-LFAIL (OCH)
GAIN-HDEG (AOTS)	OTUK-LOF (TRUNK)	VOA-LFAIL (OMS)
GAIN-HFAIL (AOTS)	OTUK-SD (TRUNK)	VOA-LFAIL (OTS)
GAIN-LDEG (AOTS)	OTUK-SF (TRUNK)	VOLT-MISM (PWR)
GAIN-LFAIL (AOTS)	OTUK-TIM (TRUNK)	VT-SQUELCH-L (OCN)
GCC-EOC (TRUNK)	OUT-OF-SYNC (FC)	WKSWPR (2R)
GE-OOSYNC (FC)	OUT-OF-SYNC (GE)	WKSWPR (EQPT)
GE-OOSYNC (GE)	OUT-OF-SYNC (ISC)	WKSWPR (ESCON)
GE-OOSYNC (ISC)	OUT-OF-SYNC (TRUNK)	WKSWPR (FC)
GE-OOSYNC (TRUNK)	PARAM-MISM (AOTS)	WKSWPR (GE)
GFP-CSF (CE1000)	PARAM-MISM (OCH)	WKSWPR (ISC)
GFP-CSF (CE100T)	PARAM-MISM (OMS)	WKSWPR (OCN)
GFP-CSF (FCMR)	PARAM-MISM (OTS)	WKSWPR (STSMON)
GFP-CSF (GFP-FAC)	PDI-P (STSMON)	WKSWPR (VT-MON)
GFP-CSF (LOGFAC)	PDI-P (STSTRM)	WTR (2R)
GFP-CSF (ML100T)	PEER-NORESPONSE (EQPT)	WTR (EQPT)
GFP-CSF (ML1000)	PLM-P (STSMON)	WTR (ESCON)
GFP-CSF (MLFX)	PLM-P (STSTRM)	WTR (FC)
GFP-DE-MISMATCH (FCMR)	PLM-V (VT-TERM)	WTR (GE)
GFP-DE-MISMATCH (GFP-FAC)	PMI (OCH)	WTR (ISC)
GFP-EX-MISMATCH (CE1000)	PMI (OMS)	WTR (OCN)
GFP-EX-MISMATCH (FCMR)	PMI (OTS)	WTR (STSMON)
GFP-EX-MISMATCH (GFP-FAC)	PORT-ADD-PWR-DEG-HI (OCH)	WTR (TRUNK)
GFP-LFD (CE1000)	PORT-ADD-PWR-DEG-LOW (OCH)	WTR (VT-MON)
GFP-LFD (CE100T)	PORT-ADD-PWR-FAIL-HIGH (OCH)	WVL-MISMATCH (TRUNK)

2.3  Alarm Logical Objects

The CTC alarm profile list organizes all alarms and conditions according to the logical objects they are raised against. These logical objects represent physical objects such as cards, logical objects such as circuits, or transport and signal monitoring entities such as the SONET or ITU-T G.709 optical overhead bits. One alarm can appear in multiple entries. It can be raised against multiple objects. For example, the loss of signal (LOS) alarm can be raised against the optical signal (OC-N) or the optical transport layer overhead (OTN) as well as other objects. Therefore, both OCN: LOS and OTN: LOS appear in the list (as well as the other objects).

Alarm profile list objects are defined in Table 2-7.

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Note Alarm logical object names can appear as abbreviated versions of standard terms used in the system and the documentation. For example, the "OCN" logical object refers to the OC-N signal. Logical object names or industry-standard terms are used within the entries as appropriate.

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Table 2-7 Alarm Logical Object Type Definitions 

Logical Object	Definition
2R	Reshape and retransmit (used for transponder [TXP] cards).
AICI-AEP	Alarm Interface Controller-International/alarm expansion panel. A combination term that refers to this platform's AIC-I card.
AICI-AIE	Alarm Interface Controller-International/Alarm Interface Extension. A combination term that refers to this platform's AIC-I card.
AOTS	Amplified optical transport section. For information about AOTS alarms, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide.
BIC	Backplane interface connector.
BITS	Building integrated timing supply incoming references (BITS-1, BITS-2).
BPLANE	The backplane.
CE100T	CE-100T-8 card.
DS1	A DS-1 line on a DS-1 or DS-3 electrical card (DS1-14, DS3N-12E, DS3XM-6, DS3XM-12).
DS3	A DS-3 line on a DS3-12, DS3N-12, DS3-12E, DS3XM-6, DS3XM-12, DS3/EC1-48 card.
E1	An E1 line on a DS1/E1-56 card.
E1000F	An E1000 Ethernet card (E1000-2, E1000-2G).
E100T	An E100 Ethernet card (E100T-12, E100T-G).
EC1	Any EC-1 port (including EC1-12 card ports).
ENVALRM	An environmental alarm port.
EQPT	A card, its physical objects, and its logical objects as they are located in any of the eight noncommon card slots. The EQPT object is used for alarms that refer to the card itself and all other objects on the card including ports, lines, synchronous transport signals (STS), and virtual tributaries (VT).
ESCON	Enterprise System Connection fiber optic technology, referring to the following TXP cards: TXP_MR_2.5G, TXPP_MR_2.5G. For more information about ESCON alarms, refer to the "Alarm Troubleshooting" chapter in the  Cisco ONS 15454 DWDM Troubleshooting Guide.
EXT-SREF	BITS outgoing references (SYNC-BITS1, SYNC-BITS2).
FAN	Fan-tray assembly.
FC	Fibre channel data transfer architecture, referring to the following muxponder (MXP) or TXP cards: MXP_MR_2.5G, MXPP_MR_2.5G, TXP_MR_2.5G, TXPP_MR_2.5G, TXP_MR_10E. For more information about FC alarms, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide.
FCMR	An FC_MR-4 Fibre Channel card.
FUDC	SONET F1 byte user data channel for ONS 15454 ML-Series Ethernet cards.
G1000	A G-Series Ethernet card.
GE	Gigabit Ethernet, referring to the following MXP or TXP cards: MXP_MR_2.5G, MXPP_MR_2.5G, TXP_MR_2.5G, TXPP_MR_2.5G, TXP_MR_10E, TXP_MR_10G.
GFP-FAC	Generic framing procedure facility port, referring to all MXP and TXP cards.
ISC	Inter-service channel, referring to TXPP_MR_2.5G or TXP_MR_2.5G cards. For more information about ISC alarms, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide.
LOGFAC	The LOGFAC object is not used in this platform in this release.
ML1000	An ML1000 Ethernet card (ML1000-2).
ML100T	An ML100 Ethernet card (ML100T-12).
MLFX	An ML100X-8 Ethernet card.
MSUDC	Multiplex section user data channel.
NE	The entire network element.
NE-SREF	The timing status of the NE.
OCH	The optical channel, referring to dense wavelength division multiplexing (DWDM) cards. For more information about OCH alarms, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide.
OCHNC-CONN	The optical channel network connection, referring to DWDM cards. For more information about OCHNC-CONN alarms, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide.
OCN	An OC-N line on any OC-N card.
OMS	Optical multiplex section.
OSC-RING	Optical service channel ring. For more information about OSC-RING alarms, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide.
OTS	Optical transport section. For more information about OTS alarms, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide.
PPM	Pluggable port module (PPM), referring to MXP and TXP cards. For more information about PPM alarms, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide.
PWR	Power equipment.
STSMON	STS alarm detection at the monitor point (upstream from the cross-connect).
STSTRM	STS alarm detection at termination (downstream from the cross-connect).
TRUNK	The optical or DWDM card carrying the high-speed signal; referring to MXP or TXP cards. For more information about TRUNK alarms, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide.
VCG	A virtual concatenation group of VTs.
VT-MON	VT1 alarm detection at the monitor point (upstream from the cross-connect).
VT-TERM	VT1 alarm detection at termination (downstream from the cross-connect).

2.4  Alarm List by Logical Object Type

Table 2-8 lists all ONS 15454 Release 7.0 alarms and logical objects as they are given in the system alarm profile. The list entries are organized by logical object name and then by alarm or condition name. Where appropriate, the alarm entries also contain troubleshooting procedures.

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Note In a mixed network containing different types of nodes (such as ONS 15310-CL, ONS 15454, and ONS 15600), the initially displayed alarm list in the Provisioning > Alarm Profiles > Alarm Profile Editor tab lists all conditions that are applicable to all nodes in the network. However, when you load the default severity profile from a node, only applicable alarms will display severity levels. Nonapplicable alarms can display "use default" or "unset."

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Note In some cases this list does not follow alphabetical order, but it does reflect the order shown in CTC.

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Table 2-8 Alarm List by Logical Object in Alarm Profile 

2R: ALS (NA)	EXT-SREF: SWTOTHIRD (NA)	OCN: PRC-DUPID (MJ)
2R: AS-CMD (NA)	EXT-SREF: SYNCPRI (MN)	OCN: RFI-L (NR)
2R: AS-MT (NA)	EXT-SREF: SYNCSEC (MN)	OCN: RING-ID-MIS (MJ)
2R: FAILTOSW (NA)	EXT-SREF: SYNCTHIRD (MN)	OCN: RING-MISMATCH (MJ)
2R: FORCED-REQ-SPAN (NA)	FAN: EQPT-MISS (CR)	OCN: RING-SW-EAST (NA)
2R: HI-LASERBIAS (MN)	FAN: FAN (CR)	OCN: RING-SW-WEST (NA)
2R: HI-RXPOWER (MN)	FAN: MEA (CR)	OCN: SD-L (NA)
2R: HI-TXPOWER (MN)	FAN: MFGMEM (CR)	OCN: SF-L (NA)
2R: LO-RXPOWER (MN)	FC: ALS (NA)	OCN: SPAN-SW-EAST (NA)
2R: LO-TXPOWER (MN)	FC: AS-CMD (NA)	OCN: SPAN-SW-WEST (NA)
2R: LOCKOUT-REQ (NA)	FC: AS-MT (NA)	OCN: SQUELCH (NA)
2R: LOS (CR)	FC: CARLOSS (MJ)	OCN: SQUELCHED (NA)
2R: MANUAL-REQ-SPAN (NA)	FC: FAILTOSW (NA)	OCN: SSM-DUS (NA)
2R: SQUELCHED (NA)	FC: FCC-NO-CREDITS (MJ)	OCN: SSM-FAIL (MN)
2R: WKSWPR (NA)	FC: FORCED-REQ-SPAN (NA)	OCN: SSM-OFF (NA)
2R: WTR (NA)	FC: GE-OOSYNC (CR)	OCN: SSM-PRS (NA)
AICI-AEP: EQPT (CR)	FC: HI-LASERBIAS (MN)	OCN: SSM-RES (NA)
AICI-AEP: MFGMEM (CR)	FC: HI-RXPOWER (MN)	OCN: SSM-SDH-TN (NA)
AICI-AIE: EQPT (CR)	FC: HI-TXPOWER (MN)	OCN: SSM-SMC (NA)
AICI-AIE: MFGMEM (CR)	FC: LO-RXPOWER (MN)	OCN: SSM-ST2 (NA)
AIP: INVMACADR (MJ)	FC: LO-TXPOWER (MN)	OCN: SSM-ST3 (NA)
AIP: MEA (CR)	FC: LOCKOUT-REQ (NA)	OCN: SSM-ST3E (NA)
AIP: MFGMEM (CR)	FC: LPBKFACILITY (NA)	OCN: SSM-ST4 (NA)
AOTS: ALS (NA)	FC: LPBKTERMINAL (NA)	OCN: SSM-STU (NA)
AOTS: AMPLI-INIT (NA)	FC: MANUAL-REQ-SPAN (NA)	OCN: STS-SQUELCH-L (NA)
AOTS: APC-CORRECTION-SKIPPED (NA)	FC: OUT-OF-SYNC (MJ)	OCN: SYNC-FREQ (NA)
AOTS: APC-OUT-OF-RANGE (NA)	FC: SIGLOSS (MJ)	OCN: TIM (CR)
AOTS: AS-CMD (NA)	FC: SQUELCHED (NA)	OCN: TIM-MON (MN)
AOTS: AS-MT (NA)	FC: SYNCLOSS (MJ)	OCN: TIM-S (CR)
AOTS: CASETEMP-DEG (MN)	FC: WKSWPR (NA)	OCN: VT-SQUELCH-L (NA)
AOTS: FIBERTEMP-DEG (MN)	FC: WTR (NA)	OCN: WKSWPR (NA)
AOTS: GAIN-HDEG (MN)	FCMR: AS-CMD (NA)	OCN: WTR (NA)
AOTS: GAIN-HFAIL (CR)	FCMR: AS-MT (NA)	OMS: APC-CORRECTION-SKIPPED (NA)
AOTS: GAIN-LDEG (MN)	FCMR: FC-NO-CREDITS (MJ)	OMS: APC-OUT-OF-RANGE (NA)
AOTS: GAIN-LFAIL (CR)	FCMR: GFP-CSF (MJ)	OMS: AS-CMD (NA)
AOTS: LASER-APR (NA)	FCMR: GFP-DE-MISMATCH (MJ)	OMS: AS-MT (NA)
AOTS: LASERBIAS-DEG (MN)	FCMR: GFP-EX-MISMATCH (MJ)	OMS: FDI
AOTS: LASERBIAS-FAIL (MJ)	FCMR: GFP-LFD (MJ)	OMS: LOS-O (MN)
AOTS: LASERTEMP-DEG (MN)	FCMR: GFP-NO-BUFFERS (MJ)	OMS: LOS-P (CR)
AOTS: OPWR-HDEG (MN)	FCMR: GFP-UP-MISMATCH (MJ)	OMS: OPWR-HDEG (MN)
AOTS: OPWR-HFAIL (CR)	FCMR: LPBKFACILITY (NA)	OMS: OPWR-HFAIL (CR)
AOTS: OPWR-LDEG (MN)	FCMR: LPBKTERMINAL (NA)	OMS: OPWR-LDEG (MN)
AOTS: OPWR-LFAIL (CR)	FCMR: PORT-MISMATCH (NA)	OMS: OPWR-LFAIL (CR)
AOTS: OSRION (NA)	FCMR: SIGLOSS (MJ)	OMS: PARAM-MISM (NA)
AOTS: PARAM-MISM (NA)	FCMR: SYNCLOSS (MJ)	OMS: PMI (NA)
AOTS: VOA-HDEG (MN)	FCMR: TPTFAIL (MJ)	OMS: VOA-HDEG (MN)
AOTS: VOA-HFAIL (CR)	FUDC: AIS (NR)	OMS: VOA-HFAIL (CR)
AOTS: VOA-LDEG (MN)	FUDC: LOS (MN)	OMS: VOA-LDEG (MN)
AOTS: VOA-LFAIL (CR)	G1000: AS-CMD (NA)	OMS: VOA-LFAIL (CR)
BIC: MEA (CR)	G1000: AS-MT (NA)	OSC-RING: RING-ID-MIS (MJ)
BITS: AIS (NR)	G1000: CARLOSS (MJ)	OTS: APC-CORRECTION-SKIPPED (NA)
BITS: BPV (MN)	G1000: LPBKFACILITY (NA)	OTS: APC-OUT-OF-RANGE (NA)
BITS: HI-CCVOLT (NA)	G1000: LPBKTERMINAL (NA)	OTS: AS-CMD (NA)
BITS: LOF (MN)	G1000: TPTFAIL (MJ)	OTS: AS-MT (NA)
BITS: LOS (MN)	GE: ALS (NA)	OTS: AWG-DEG (MN)
BITS: SSM-DUS (NA)	GE: AS-CMD (NA)	OTS: AWG-FAIL (CR)
BITS: SSM-FAIL (MN)	GE: AS-MT (NA)	OTS: AWG-OVERTEMP (CR)
BITS: SSM-LNC (NA)	GE: CARLOSS (MJ)	OTS: AWG-WARM-UP (NA)
BITS: SSM-OFF (NA)	GE: FAILTOSW (NA)	OTS: FDI
BITS: SSM-PRC (NA)	GE: FORCED-REQ-SPAN (NA)	OTS: LASERBIAS-DEG (MN)
BITS: SSM-PRS (NA)	GE: GE-OOSYNC (CR)	OTS: LOS (CR)
BITS: SSM-RES (NA)	GE: HI-LASERBIAS (MN)	OTS: LOS-O (MN)
BITS: SSM-SETS (NA)	GE: HI-RXPOWER (MN)	OTS: LOS-P (CR)
BITS: SSM-SMC (NA)	GE: HI-TXPOWER (MN)	OTS: OPWR-HDEG (MN)
BITS: SSM-ST2 (NA)	GE: LO-RXPOWER (MN)	OTS: OPWR-HFAIL (CR)
BITS: SSM-ST3 (NA)	GE: LO-TXPOWER (MN)	OTS: OPWR-LDEG (MN)
BITS: SSM-ST3E (NA)	GE: LOCKOUT-REQ (NA)	OTS: OPWR-LFAIL (CR)
BITS: SSM-ST4 (NA)	GE: LPBKFACILITY (NA)	OTS: OSRION (NA)
BITS: SSM-STU (NA)	GE: LPBKTERMINAL (NA)	OTS: PARAM-MISM (NA)
BITS: SSM-TNC (NA)	GE: MANUAL-REQ-SPAN (NA)	OTS: PMI (NA)
BITS: SYNC-FREQ (NA)	GE: OUT-OF-SYNC (MJ)	OTS: SH-INS-LOSS-VAR-DEG-HIGH (MN)
BPLANE: AS-CMD (NA)	GE: SIGLOSS (MJ)	OTS: SH-INS-LOSS-VAR-DEG-LOW (MN)
BPLANE: MFGMEM (CR)	GE: SQUELCHED (NA)	OTS: SHUTTER-OPEN (NA)
CE1000: AS-CMD (NA)	GE: SYNCLOSS (MJ)	OTS: SPAN-NOT-MEASURED (NA)
CE1000: AS-MT (NA)	GE: WKSWPR (NA)	OTS: SPANLENGTH-OUT-OF-RANGE (MN)
CE1000: CARLOSS (MJ)	GE: WTR (NA)	OTS: VOA-HDEG (MN)
CE1000: GFP-CSF (MJ)	GFP-FAC: AS-CMD (NA)	OTS: VOA-HFAIL (CR)
CE1000: GFP-EX-MISMATCH (MJ)	GFP-FAC: AS-MT (NA)	OTS: VOA-LDEG (MN)
CE1000: GFP-LFD (MJ)	GFP-FAC: GFP-CSF (MJ)	OTS: VOA-LFAIL (CR)
CE1000: GFP-UP-MISMATCH (MJ)	GFP-FAC: GFP-DE-MISMATCH (MJ)	PPM: AS-CMD (NA)
CE1000: LPBKFACILITY (NA)	GFP-FAC: GFP-EX-MISMATCH (MJ)	PPM: AS-MT (NA)
CE1000: LPBKTERMINAL (NA)	GFP-FAC: GFP-LFD (MJ)	PPM: EQPT (CR)
CE1000: TPTFAIL (MJ)	GFP-FAC: GFP-NO-BUFFERS (MJ)	PPM: HI-LASERBIAS (MN)
CE100T: AS-CMD (NA)	GFP-FAC: GFP-UP-MISMATCH (MJ)	PPM: HI-LASERTEMP (MN)
CE100T: AS-MT (NA)	ISC: ALS (NA)	PPM: HI-TXPOWER (MN)
CE100T: CARLOSS (MJ)	ISC: AS-CMD (NA)	PPM: IMPROPRMVL (CR)
CE100T: GFP-CSF (MJ)	ISC: AS-MT (NA)	PPM: LO-LASERBIAS (MN)
CE100T: GFP-LFD (MJ)	ISC: CARLOSS (MJ)	PPM: LO-LASERTEMP (MN)
CE100T: GFP-UP-MISMATCH (MJ)	ISC: FAILTOSW (NA)	PPM: LO-TXPOWER (MN)
CE100T: LPBKFACILITY (NA)	ISC: FORCED-REQ-SPAN (NA)	PPM: MEA (CR)
CE100T: LPBKTERMINAL (NA)	ISC: GE-OOSYNC (CR)	PPM: MFGMEM (CR)
CE100T: TPTFAIL (MJ)	ISC: HI-LASERBIAS (MN)	PPM: PROV-MISMATCH (MN)
DS1: AIS (NR)	ISC: HI-RXPOWER (MN)	PWR: AS-CMD (NA)
DS1: AS-CMD (NA)	ISC: HI-TXPOWER (MN)	PWR: BAT-FAIL (MJ)
DS1: AS-MT (NA)	ISC: LO-RXPOWER (MN)	PWR: EHIBATVG (MJ)
DS1: LOF (MJ)	ISC: LO-TXPOWER (MN)	PWR: ELWBATVG (MJ)
DS1: LOS (MJ)	ISC: LOCKOUT-REQ (NA)	PWR: HIBATVG (MJ)
DS1: LPBKDS1FEAC-CMD (NA)	ISC: LOS (CR)	PWR: LWBATVG (MJ)
DS1: LPBKFACILITY (NA)	ISC: LPBKFACILITY (NA)	PWR: VOLT-MISM (NA)
DS1: LPBKTERMINAL (NA)	ISC: LPBKTERMINAL (NA)	SHELF: AS-CMD (NA)
DS1: RAI (NA)	ISC: MANUAL-REQ-SPAN (NA)	SHELF: AS-MT (NA)
DS1: RCVR-MISS (MJ)	ISC: OUT-OF-SYNC (NA)	SHELF: DUP-SHELF-ID (MJ)
DS1: SD (NA)	ISC: SIGLOSS (MJ)	SHELF: MEA (MJ)
DS1: SF (NA)	ISC: SQUELCHED (NA)	SHELF: SHELF-COMM-FAIL (MJ)
DS1: SSM-DUS (NA)	ISC: SYNCLOSS (MJ)	STSMON: AIS-P (NR)
DS1: SSM-FAIL (MN)	ISC: WKSWPR (NA)	STSMON: AUTOSW-AIS (NR)
DS1: SSM-OFF (NA)	ISC: WTR (NA)	STSMON: AUTOSW-LOP (NA)
DS1: SSM-PRS (NA)	LOGFAC: AS-CMD (NA)	STSMON: AUTOSW-PDI (NA)
DS1: SSM-RES (NA)	LOGFAC: AS-MT (NA)	STSMON: AUTOSW-SDBER (NA)
DS1: SSM-SMC (NA)	LOGFAC: CARLOSS (MJ)	STSMON: AUTOSW-SFBER (NA)
DS1: SSM-ST2 (NA)	LOGFAC: GFP-CSF (MJ)	STSMON: AUTOSW-UNEQ (NA)
DS1: SSM-ST3 (NA)	LOGFAC: GFP-LFD (MJ)	STSMON: ERFI-P-CONN (NR)
DS1: SSM-ST3E (NA)	LOGFAC: GFP-UP-MISMATCH (MJ)	STSMON: ERFI-P-PAYLD (NR)
DS1: SSM-ST4 (NA)	LOGFAC: RPRW (NA)	STSMON: ERFI-P-SRVR (NR)
DS1: SSM-STU (NA)	LOGFAC: TPTFAIL (MJ)	STSMON: FAILTOSW-PATH (NA)
DS1: SYNC-FREQ (NA)	ML1000: AS-CMD (NA)	STSMON: FORCED-REQ (NA)
DS1: TRMT (MJ)	ML1000: AS-MT (NA)	STSMON: LOCKOUT-REQ (NA)
DS1: TRMT-MISS (MJ)	ML1000: CARLOSS (MJ)	STSMON: LOM (CR)
DS1: TX-AIS (NR)	ML1000: GFP-CSF (MJ)	STSMON: LOP-P (CR)
DS1: TX-LOF (NR)	ML1000: GFP-LFD (MJ)	STSMON: LPBKCRS (NA)
DS1: TX-RAI (NA)	ML1000: GFP-UP-MISMATCH (MJ)	STSMON: MAN-REQ (NA)
DS3: AIS (NR)	ML1000: RPRW (NA)	STSMON: PDI-P (NA)
DS3: AS-CMD (NA)	ML1000: TPTFAIL (MJ)	STSMON: PLM-P (CR)
DS3: AS-MT (NA)	ML100T: AS-CMD (NA)	STSMON: RFI-P (NR)
DS3: DS3-MISM (NA)	ML100T: AS-MT (NA)	STSMON: ROLL (NA)
DS3: FE-AIS (NA)	ML100T: CARLOSS (MJ)	STSMON: ROLL-PEND (NA)
DS3: FE-DS1-MULTLOS (NA)	ML100T: GFP-CSF (MJ)	STSMON: SD-P (NA)
DS3: FE-DS1-NSA (NA)	ML100T: GFP-LFD (MJ)	STSMON: SF-P (NA)
DS3: FE-DS1-SA (NA)	ML100T: GFP-UP-MISMATCH (MJ)	STSMON: TIM-P (MN)
DS3: FE-DS1-SNGLLOS (NA)	ML100T: RPRW (NA)	STSMON: UNEQ-P (CR)
DS3: FE-DS3-NSA (NA)	ML100T: TPTFAIL (MJ)	STSMON: WKSWPR (NA)
DS3: FE-DS3-SA (NA)	MLFX: AS-CMD (NA)	STSMON: WTR (NA)
DS3: FE-EQPT-NSA (NA)	MLFX: AS-MT (NA)	STSTRM: AIS-P (NR)
DS3: FE-IDLE (NA)	MLFX: CARLOSS (MJ)	STSTRM: AS-MT-OOG (NA)
DS3: FE-LOF (NA)	MLFX: GFP-CSF (MJ)	STSTRM: ENCAP-MISMATCH-P (CR)
DS3: FE-LOS (NA)	MLFX: GFP-LFD (MJ)	STSTRM: ERFI-P-CONN (NR)
DS3: INC-ISD (NA)	MLFX: GFP-UP-MISMATCH (MJ)	STSTRM: ERFI-P-PAYLD (NR)
DS3: LOF (CR)	MLFX: RPRW (NA)	STSTRM: ERFI-P-SRVR (NR)
DS3: LOS (CR)	MLFX: TPTFAIL (MJ)	STSTRM: LCAS-CRC (NA)
DS3: LPBKDS3FEAC (NA)	MSUDC: AIS (NR)	STSTRM: LCAS-RX-FAIL (NA)
DS3: LPBKDS3FEAC-CMD (NA)	MSUDC: LOS (MN)	STSTRM: LCAS-TX-ADD (NA)
DS3: LPBKFACILITY (NA)	NE-SREF: FRCDSWTOINT (NA)	STSTRM: LCAS-TX-DNU (NA)
DS3: LPBKTERMINAL (NA)	NE-SREF: FRCDSWTOPRI (NA)	STSTRM: LOF (CR)
DS3: RAI (NA)	NE-SREF: FRCDSWTOSEC (NA)	STSTRM: LOM (CR)
DS3: SD (NA)	NE-SREF: FRCDSWTOTHIRD (NA)	STSTRM: LOP-P (CR)
DS3: SF (NA)	NE-SREF: FRNGSYNC (NA)	STSTRM: LPBKCRS (NA)
DS3: TX-AIS (NR)	NE-SREF: FSTSYNC (NA)	STSTRM: OOU-TPT (NA)
DS3: TX-RAI (NA)	NE-SREF: HLDOVRSYNC (NA)	STSTRM: PDI-P (NA)
E1000F: AS-CMD (NA)	NE-SREF: MANSWTOINT (NA)	STSTRM: PLM-P (CR)
E1000F: CARLOSS (MJ)	NE-SREF: MANSWTOPRI (NA)	STSTRM: RFI-P (NR)
E100T: AS-CMD (NA)	NE-SREF: MANSWTOSEC (NA)	STSTRM: ROLL (NA)
E100T: CARLOSS (MJ)	NE-SREF: MANSWTOTHIRD (NA)	STSTRM: ROLL-PEND (NR)
E1: AIS (NR)	NE-SREF: SSM-LNC (NA)	STSTRM: SD-P (NA)
E1: AS-CMD (NA)	NE-SREF: SSM-PRC (NA)	STSTRM: SF-P (NA)
E1: AS-MT (NA)	NE-SREF: SSM-PRS (NA)	STSTRM: SQM (CR)
E1: LOF (MJ)	NE-SREF: SSM-RES (NA)	STSTRM: TIM-P (CR)
E1: LOS (MJ)	NE-SREF: SSM-SETS (NA)	STSTRM: UNEQ-P (CR)
E1: LPBKFACILITY (NA)	NE-SREF: SSM-SMC (NA)	TRUNK: AIS (NR)
E1: LPBKTERMINAL (NA)	NE-SREF: SSM-ST2 (NA)	TRUNK: AIS-L (NR)
E1: RAI (NA)	NE-SREF: SSM-ST3 (NA)	TRUNK: ALS (NA)
E1: RCVR-MISS (MJ)	NE-SREF: SSM-ST3E (NA)	TRUNK: AS-CMD (NA)
E1: SD (NA)	NE-SREF: SSM-ST4 (NA)	TRUNK: AS-MT (NA)
E1: SF (NA)	NE-SREF: SSM-STU (NA)	TRUNK: CARLOSS (MJ)
E1: SSM-DUS (NA)	NE-SREF: SSM-TNC (NA)	TRUNK: DSP-COMM-FAIL (MJ)
E1: SSM-FAIL (MN)	NE-SREF: SWTOPRI (NA)	TRUNK: DSP-FAIL (MJ)
E1: SSM-OFF (NA)	NE-SREF: SWTOSEC (NA)	TRUNK: EOC (MN)
E1: SSM-PRS (NA)	NE-SREF: SWTOTHIRD (NA)	TRUNK: EOC-L (MN)
E1: SSM-RES (NA)	NE-SREF: SYNCPRI (MJ)	TRUNK: FAILTOSW (NA)
E1: SSM-SMC (NA)	NE-SREF: SYNCSEC (MN)	TRUNK: FC-NO-CREDITS (MJ)
E1: SSM-ST2 (NA)	NE-SREF: SYNCTHIRD (MN)	TRUNK: FEC-MISM (NA)
E1: SSM-ST3 (NA)	NE: APC-DISABLED (NA)	TRUNK: FORCED-REQ-SPAN (NA)
E1: SSM-ST3E (NA)	NE: APC-END (NA)	TRUNK: GCC-EOC (MN)
E1: SSM-ST4 (NA)	NE: AS-CMD (NA)	TRUNK: GE-OOSYNC (CR)
E1: SSM-STU (NA)	NE: AUD-LOG-LOSS (NA)	TRUNK: HELLO (NA)
E1: SYNC-FREQ (NA)	NE: AUD-LOG-LOW (NA)	TRUNK: LOCKOUT-REQ (NA)
E1: TRMT (MJ)	NE: DATAFLT (MN)	TRUNK: LOF (CR)
E1: TRMT-MISS (MJ)	NE: DBOSYNC (MJ)	TRUNK: LOM (CR)
E1: TX-AIS (NR)	NE: DUP-IPADDR (MN)	TRUNK: LOS (CR)
E1: TX-LOF (NR)	NE: DUP-NODENAME (MN)	TRUNK: LOS-P (CR)
E1: TX-RAI (NA)	NE: ETH-LINKLOSS (NA)	TRUNK: LPBKFACILITY (NA)
EC1: AIS-L (NR)	NE: HITEMP (CR)	TRUNK: LPBKTERMINAL (NA)
EC1: AS-CMD (NA)	NE: I-HITEMP (CR)	TRUNK: MANUAL-REQ-SPAN (NA)
EC1: AS-MT (NA)	NE: INTRUSION-PSWD (NA)	TRUNK: ODUK-1-AIS-PM (NR)
EC1: LOF (CR)	NE: LAN-POL-REV (NA)	TRUNK: ODUK-2-AIS-PM (NR)
EC1: LOS (CR)	NE: OPTNTWMIS (MJ)	TRUNK: ODUK-3-AIS-PM (NR)
EC1: LPBKFACILITY (NA)	NE: SNTP-HOST (MN)	TRUNK: ODUK-4-AIS-PM (NR)
EC1: LPBKTERMINAL (NA)	NE: SYSBOOT (MJ)	TRUNK: ODUK-AIS-PM (NR)
EC1: RFI-L (NR)	NE: TEMP-MISM (NA)	TRUNK: ODUK-BDI-PM (NR)
EC1: SD-L (NA)	OCH-TERM: OCHTERM-INC (NA)	TRUNK: ODUK-LCK-PM (NR)
EC1: SF-L (NA)	OCH: APC-CORRECTION-SKIPPED (NA)	TRUNK: ODUK-OCI-PM (NR)
EC1: TIM-S (CR)	OCH: APC-OUT-OF-RANGE (NA)	TRUNK: ODUK-SD-PM (NA)
ENVALRM: EXT (MN)	OCH: AS-CMD (NA)	TRUNK: ODUK-SF-PM (NA)
EQPT: AS-CMD (NA)	OCH: AS-MT (NA)	TRUNK: ODUK-TIM-PM (MJ)
EQPT: AS-MT (NA)	OCH: FDI (NA)	TRUNK: OTUK-AIS (NR)
EQPT: AUTORESET (MN)	OCH: LOS-O (MN)	TRUNK: OTUK-BDI (NR)
EQPT: BKUPMEMP (CR)	OCH: LOS-P (CR)	TRUNK: OTUK-IAE (MN)
EQPT: CARLOSS (MJ)	OCH: OPWR-HDEG (MN)	TRUNK: OTUK-LOF (CR)
EQPT: CLDRESTART (NA)	OCH: OPWR-HFAIL (CR)	TRUNK: OTUK-SD (NA)
EQPT: COMIOXC (CR)	OCH: OPWR-LDEG (MN)	TRUNK: OTUK-SF (NA)
EQPT: COMM-FAIL (MN)	OCH: OPWR-LFAIL (CR)	TRUNK: OTUK-TIM (CR)
EQPT: CONTBUS-A-18 (MN)	OCH: PARAM-MISM (NA)	TRUNK: OUT-OF-SYNC (MJ)
EQPT: CONTBUS-B-18 (MN)	OCH: PMI	TRUNK: PROV-MISMATCH (MJ)
EQPT: CONTBUS-DISABLED (CR)	OCH: PORT-ADD-PWR-DEG-HI (MN)	TRUNK: PTIM (MJ)
EQPT: CONTBUS-IO-A (MN)	OCH: PORT-ADD-PWR-DEG-LOW (MN)	TRUNK: RFI (NR)
EQPT: CONTBUS-IO-B (MN)	OCH: PORT-ADD-PWR-FAIL-HIGH (CR)	TRUNK: RFI-L (NR)
EQPT: CTNEQPT-MISMATCH (NA)	OCH: PORT-ADD-PWR-FAIL-LOW (CR)	TRUNK: SD (NA)
EQPT: CTNEQPT-PBPROT (CR)	OCH: PORT-FAIL (CR)	TRUNK: SD-L (NA)
EQPT: CTNEQPT-PBWORK (CR)	OCH: TRAIL-SIGNAL-FAIL (NA)	TRUNK: SF (NA)
EQPT: EQPT (CR)	OCH: UNREACHABLE-TARGET-POWER (MN)	TRUNK: SF-L (NA)
EQPT: EQPT-DIAG (CR)	OCH: VOA-HDEG (MN)	TRUNK: SIGLOSS (MJ)
EQPT: ERROR-CONFIG (MN)	OCH: VOA-HFAIL (CR)	TRUNK: SQUELCHED (NA)
EQPT: EXCCOL (MN)	OCH: VOA-LDEG (MN)	TRUNK: SSM-DUS (NA)
EQPT: FAILTOSW (NA)	OCH: VOA-LFAIL (CR)	TRUNK: SSM-FAIL (MN)
EQPT: FORCED-REQ (NA)	OCHNC-CONN: OCHNC-INC (NA)	TRUNK: SSM-LNC (NA)
EQPT: HI-LASERBIAS (MN)	OCN: AIS-L (NR)	TRUNK: SSM-OFF (NA)
EQPT: HI-LASERTEMP (MN)	OCN: ALS (NA)	TRUNK: SSM-PRC (NA)
EQPT: HI-TXPOWER (MN)	OCN: APS-INV-PRIM (MN)	TRUNK: SSM-PRS (NA)
EQPT: HITEMP (MN)	OCN: APS-PRIM-FAC (NA)	TRUNK: SSM-RES (NA)
EQPT: IMPROPRMVL (CR)	OCN: APS-PRIM-SEC-MISM (MN)	TRUNK: SSM-SDH-TN (NA)
EQPT: INHSWPR (NA)	OCN: APSB (MN)	TRUNK: SSM-SETS (NA)
EQPT: INHSWWKG (NA)	OCN: APSC-IMP (MN)	TRUNK: SSM-SMC (NA)
EQPT: IOSCFGCOPY (NA)	OCN: APSCDFLTK (MN)	TRUNK: SSM-ST2 (NA)
EQPT: LO-LASERBIAS (MN)	OCN: APSCINCON (MN)	TRUNK: SSM-ST3 (NA)
EQPT: LO-LASERTEMP (MN)	OCN: APSCM (MJ)	TRUNK: SSM-ST3E (NA)
EQPT: LO-TXPOWER (MN)	OCN: APSCNMIS (MJ)	TRUNK: SSM-ST4 (NA)
EQPT: LOCKOUT-REQ (NA)	OCN: APSIMP (MN)	TRUNK: SSM-STU (NA)
EQPT: MAN-REQ (NA)	OCN: APSMM (MN)	TRUNK: SSM-TNC (NA)
EQPT: MANRESET (NA)	OCN: AS-CMD (NA)	TRUNK: SYNC-FREQ (NA)
EQPT: MEA (CR)	OCN: AS-MT (NA)	TRUNK: SYNCLOSS (MJ)
EQPT: MEM-GONE (MJ)	OCN: AUTOLSROFF (CR)	TRUNK: TIM (CR)
EQPT: MEM-LOW (MN)	OCN: BLSR-SW-VER-MISM (MJ)	TRUNK: TIM-MON (MN)
EQPT: NO-CONFIG (NA)	OCN: BLSROSYNC (MJ)	TRUNK: TRAIL-SIGNAL-FAIL (NA)
EQPT: OPEN-SLOT (NA)	OCN: E-W-MISMATCH (MJ)	TRUNK: UNC-WORD (NA)
EQPT: PEER-NORESPONSE (MJ)	OCN: EOC (MN)	TRUNK: UT-COMM-FAIL (MJ)
EQPT: PROTNA (MN)	OCN: EOC-L (MN)	TRUNK: UT-FAIL (MJ)
EQPT: PWR-FAIL-A (MN)	OCN: EXERCISE-RING-FAIL (NA)	TRUNK: WTR (NA)
EQPT: PWR-FAIL-B (MN)	OCN: EXERCISE-SPAN-FAIL (NA)	TRUNK: WVL-MISMATCH (MJ)
EQPT: PWR-FAIL-RET-A (MN)	OCN: EXTRA-TRAF-PREEMPT (MJ)	VCG: LOA (CR)
EQPT: PWR-FAIL-RET-B (MN)	OCN: FAILTOSW (NA)	VCG: VCG-DEG (NA)
EQPT: RUNCFG-SAVENEED (NA)	OCN: FAILTOSWR (NA)	VCG: VCG-DOWN (NA)
EQPT: SFTWDOWN (MN)	OCN: FAILTOSWS (NA)	VT-MON: AIS-V (NR)
EQPT: SW-MISMATCH (NA)	OCN: FE-FRCDWKSWBK-SPAN (NA)	VT-MON: AUTOSW-AIS (NR)
EQPT: SWMTXMOD-PROT (CR)	OCN: FE-FRCDWKSWPR-RING (NA)	VT-MON: AUTOSW-LOP (NA)
EQPT: SWMTXMOD-WORK (CR)	OCN: FE-FRCDWKSWPR-SPAN (NA)	VT-MON: AUTOSW-UNEQ (MN)
EQPT: WKSWPR (NA)	OCN: FE-LOCKOUTOFPR-SPAN (NA)	VT-MON: FAILTOSW-PATH (NA)
EQPT: WTR (NA)	OCN: FE-MANWKSWBK-SPAN (NA)	VT-MON: FORCED-REQ (NA)
ESCON: ALS (NA)	OCN: FE-MANWKSWPR-RING (NA)	VT-MON: LOCKOUT-REQ (NA)
ESCON: AS-CMD (NA)	OCN: FE-MANWKSWPR-SPAN (NA)	VT-MON: LOP-V (MJ)
ESCON: AS-MT (NA)	OCN: FEPRLF (MN)	VT-MON: MAN-REQ (NA)
ESCON: FAILTOSW (NA)	OCN: FORCED-REQ-RING (NA)	VT-MON: RFI-V (NR)
ESCON: FORCED-REQ-SPAN (NA)	OCN: FORCED-REQ-SPAN (NA)	VT-MON: ROLL (NA)
ESCON: HI-LASERBIAS (MN)	OCN: FULLPASSTHR-BI (NA)	VT-MON: ROLL-PEND (NA)
ESCON: HI-RXPOWER (MN)	OCN: HELLO (NA)	VT-MON: SD-V (NA)
ESCON: HI-TXPOWER (MN)	OCN: HI-LASERBIAS (MN)	VT-MON: SF-V (NA)
ESCON: LO-RXPOWER (MN)	OCN: HI-LASERTEMP (MN)	VT-MON: UNEQ-V (MJ)
ESCON: LO-TXPOWER (MN)	OCN: HI-RXPOWER (MN)	VT-MON: WKSWPR (NA)
ESCON: LOCKOUT-REQ (NA)	OCN: HI-TXPOWER (MN)	VT-MON: WTR (NA)
ESCON: LOS (CR)	OCN: ISIS-ADJ-FAIL (MN)	VT-TERM: AIS-V (NR)
ESCON: LPBKFACILITY (NA)	OCN: KB-PASSTHR (NA)	VT-TERM: AS-MT-OOG (NA)
ESCON: LPBKTERMINAL (NA)	OCN: KBYTE-APS-CHANNEL-FAILURE (MN)	VT-TERM: LCAS-CRC (NA)
ESCON: MANUAL-REQ-SPAN (NA)	OCN: LASEREOL (MN)	VT-TERM: LCAS-RX-FAIL (NA)
ESCON: SIGLOSS	OCN: LKOUTPR-S (NA)	VT-TERM: LCAS-TX-ADD (NA)
ESCON: SQUELCHED (NA)	OCN: LO-LASERBIAS (MN)	VT-TERM: LCAS-TX-DNU (NA)
ESCON: WKSWPR (NA)	OCN: LO-LASERTEMP (MN)	VT-TERM: LOM (MJ)
ESCON: WTR (NA)	OCN: LO-RXPOWER (MN)	VT-TERM: LOP-V (MJ)
EXT-SREF: FRCDSWTOPRI (NA)	OCN: LO-TXPOWER (MN)	VT-TERM: OOU-TPT (NA)
EXT-SREF: FRCDSWTOSEC (NA)	OCN: LOCKOUT-REQ (NA)	VT-TERM: PLM-V (MJ)
EXT-SREF: FRCDSWTOTHIRD (NA)	OCN: LOF (CR)	VT-TERM: RFI-V (NR)
EXT-SREF: MANSWTOPRI (NA)	OCN: LOS (CR)	VT-TERM: SD-V (NA)
EXT-SREF: MANSWTOSEC (NA)	OCN: LPBKFACILITY (NA)	VT-TERM: SF-V (NA)
EXT-SREF: MANSWTOTHIRD (NA)	OCN: LPBKTERMINAL (NA)	VT-TERM: SQM (MJ)
EXT-SREF: SWTOPRI (NA)	OCN: MANUAL-REQ-RING (NA)	VT-TERM: TIM-V (MJ)
EXT-SREF: SWTOSEC (NA)	OCN: MANUAL-REQ-SPAN (NA)	VT-TERM: UNEQ-V (MJ) (CR)

2.5  Trouble Notifications

The ONS 15454 system reports trouble by utilizing standard alarm and condition characteristics, standard severities following the rules in Telcordia GR-253-CORE, and graphical user interface (GUI) state indicators.These notifications are described in the following paragraphs.

The ONS 15454 uses standard Telcordia categories to characterize levels of trouble. The system reports trouble notifications as alarms and status or descriptive notifications (if configured to do so) as conditions in the CTC Alarms window. Alarms typically signify a problem that the user needs to remedy, such as a loss of signal. Conditions do not necessarily require troubleshooting.

2.5.1  Alarm Characteristics

The ONS 15454 uses standard alarm entities to identify what is causing trouble. All alarms stem from hardware, software, environment, or operator-originated problems whether or not they affect service. Current alarms for the network, CTC session, node, or card are listed in the Alarms tab. (In addition, cleared alarms are also found in the History tab.)

2.5.2  Condition Characteristics

Conditions include any problem detected on an ONS 15454 shelf. They can include standing or transient notifications. A snapshot of all current raised, standing conditions on the network, node, or card can be retrieved in the CTC Conditions window or using TL1's set of RTRV-COND commands. (In addition, some but not all cleared conditions are also found in the History tab.)

For a comprehensive list of all conditions, refer to the Cisco ONS SONET TL1 Command Guide . For more information about transient conditions, see Chapter 3, "Transient Conditions."

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Note When an entity is put in the OOS,MT administrative state, the ONS 15454 suppresses all standing alarms on that entity and alarms and events appear on the Conditions tab. You can change this behavior for the LPBKFACILITY and LPBKTERMINAL alarms. To display these alarms on the Alarms tab, set the NODE.general.ReportLoopbackConditionsOnPortsInOOS-MT value to TRUE on the NE Defaults tab. For more information about changing NE defaults, refer to the "Maintain the Node" chapter in the Cisco ONS 15454 Procedure Guide.

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2.5.3  Severities

The ONS 15454 uses Telcordia-devised standard severities for alarms and conditions: Critical (CR), Major (MJ), Minor (MN), Not Alarmed (NA) and Not Reported (NR). These are described below:

•A Critical (CR) alarm generally indicates severe, Service-Affecting (SA) trouble that needs immediate correction. Loss of traffic on an STS-1, which can hold 28 DS-1 circuits, would be a Critical (CR), Service-Affecting (SA) alarm.

•A Major (MJ) alarm is a serious alarm, but the trouble has less impact on the network. For example, loss of traffic on more than five DS-1 circuits is Critical (CR), but loss of traffic on one to four DS-1 circuits is Major (MJ).

•Minor (MN) alarms generally are those that do not affect service. For example, the automatic protection switching (APS) byte failure (APSB) alarm indicates that line terminating equipment (LTE) detects a byte failure on the signal that could prevent traffic from properly executing a traffic switch.

•Not Alarmed (NA) conditions are information indicators, such as for free-run synchronization state (FRNGSYNC) or a forced-switch to primary (FRCSWTOPRI) timing event. They could or could not require troubleshooting, as indicated in the entries.

•Not Reported (NR) conditions occur as a secondary result of another event. For example, the alarm indication signal (AIS), with severity NR, is inserted by a downstream node when an LOS (CR or MJ) alarm occurs upstream. These conditions do not in themselves require troubleshooting, but are to be expected in the presence of primary alarms.

Severities can be customized for an entire network or for single nodes, from the network level down to the port level by changing or downloading customized alarm profiles. These custom severities are subject to the standard severity-demoting rules given in Telcordia GR-474-CORE and shown in the "Alarm Hierarchy" section. Procedures for customizing alarm severities are located in the "Manage Alarms" chapter in the Cisco ONS 15454 Procedure Guide.

2.5.4  Alarm Hierarchy

All alarm, condition, and unreported event severities listed in this manual are default profile settings. However in situations when traffic is not lost, such as when the alarm occurs on protected ports or circuits, alarms having Critical (CR) or Major (MJ) default severities can be demoted to lower severities such as Minor (MN) or Non-Service-Affecting (NSA) as defined in Telcordia GR-474-CORE.

A path alarm can be demoted if a higher-ranking alarm is raised for the same object. For example, If a path trace identifier mismatch (TIM-P) is raised on a circuit path and then a loss of pointer on the path (LOP-P) is raised on the path, the LOP-P alarm stands and the TIM-P closes. The path alarm hierarchy used in the ONS 15454 system is shown in Table 2-9.

Table 2-9 Path Alarm Hierarchy 

Priority	Condition Type
Highest	AIS-P
—	LOP-P
—	UNEQ-P
Lowest	TIM-P

Facility (port) alarms also follow a hierarchy, which means that lower-ranking alarms are closed by higher-ranking alarms. The facility alarm hierarchy used in the ONS 15454 is shown in Table 2-10.

Table 2-10 Facility Alarm Hierarchy

Priority	Condition Type
Highest	LOS
—	LOF
—	AIS-L
—	SF-L
—	SD-L
—	RFI-L
—	TIM-S
—	AIS-P
—	LOP-P
—	SF-P
—	SD-P
—	UNEQ-P
—	TIM-P
Lowest	PLM-P

Near-end failures and far-end failures follow different hierarchies. Near-end failures stand according to whether they are for the entire signal (LOS, LOF), facility (AIS-L), path (AIS-P, etc.) or VT (AIS-V, etc.). The full hierarchy for near-end failures is shown in Table 2-11. This table is taken from Telcordia GR-253-CORE.

Table 2-11 Near-End Alarm Hierarchy

Priority	Condition Type
Highest	LOS
—	LOF
—	AIS-L
—	AIS-P1
—	LOP-P2
—	UNEQ-P
—	TIM-P
—	PLM-P
—	AIS-V1
—	LOP-V2
—	UNEQ-V
—	PLM-V
Lowest	DS-N AIS (if reported for outgoing DS-N signals)

1 Although it is not defined as a defect or failure, all-ones STS pointer relay is also higher priority than LOP-P. Similarly, all-ones VT pointer relay is higher priority than LOP-V. 2 LOP-P is also higher priority than the far-end failure RFI-P, which does not affect the detection of any near-end failures. Similarly, LOP-V is higher priority than RFI-V.

The far-end failure alarm hierarchy is shown in Table 2-12, as given in Telcordia GR-253-CORE.

Table 2-12 Far-End Alarm Hierarchy

Priority	Condition Type
Highest	RFI-L
—	RFI-P
Lowest	RFI-V

2.5.5  Service Effect

Service-Affecting (SA) alarms—those that interrupt service—could be Critical (CR), Major (MJ), or Minor (MN) severity alarms. Service-Affecting (SA) alarms indicate service is affected. Non-Service-Affecting (NSA) alarms always have a Minor (MN) default severity.

2.5.6  States

The Alarms or History tab State (ST) column indicate the disposition of the alarm or condition as follows:

•A raised (R) event is one that is active.

•A cleared (C) event is one that is no longer active.

•A transient (T) event is one that is automatically raised and cleared in CTC during system changes such as user login, logout, loss of connection to node view, etc. Transient events do not require user action. These are listed in Chapter 3, "Transient Conditions."

2.6  Safety Summary

This section covers safety considerations designed to ensure safe operation of the ONS 15454. Personnel should not perform any procedures in this chapter unless they understand all safety precautions, practices, and warnings for the system equipment. Some troubleshooting procedures require installation or removal of cards; in these instances users should pay close attention to the following caution.

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Caution Hazardous voltage or energy could be present on the backplane when the system is operating. Use caution when removing or installing cards.

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Some troubleshooting procedures require installation or removal of OC-192 cards; in these instances users should pay close attention to the following warnings.

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Warning On the OC-192 card, the laser is on when the card is booted and the safety key is in the on position (labeled 1). The port does not have to be in service for the laser to be on. The laser is off when the safety key is off (labeled 0). Statement 293

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Warning Invisible laser radiation could be emitted from the end of the unterminated fiber cable or connector. Do not stare into the beam directly with optical instruments. Viewing the laser output with certain optical instruments (for example, eye loupes, magnifiers, and microscopes) within a distance of 100 mm could pose an eye hazard. Statement 1056

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Warning Use of controls, adjustments, or performing procedures other than those specified could result in hazardous radiation exposure. Statement 1057

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Warning Class 1 laser product. Statement 1008

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Warning Do not reach into a vacant slot or chassis while you install or remove a module or a fan. Exposed circuitry could constitute an energy hazard. Statement 206

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Warning The power supply circuitry for the equipment can constitute an energy hazard. Before you install or replace the equipment, remove all jewelry (including rings, necklaces, and watches). Metal objects can come into contact with exposed power supply wiring or circuitry inside the DSLAM equipment. This could cause the metal objects to heat up and cause serious burns or weld the metal object to the equipment. Statement 207

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2.7  Alarm Procedures

This section list alarms alphabetically and includes some conditions commonly encountered when troubleshooting alarms. The severity, description, and troubleshooting procedure accompany each alarm and condition.

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Note When you check the status of alarms for cards, ensure that the alarm filter icon in the lower right corner of the GUI is not indented. If it is, click it to turn it off. When you are done checking for alarms, you can click the alarm filter icon again to turn filtering back on. For more information about alarm filtering, refer to the "Manage Alarms" chapter in the Cisco ONS 15454 Procedure Guide.

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Note When checking alarms, ensure that alarm suppression is not enabled on the card or port. For more information about alarm suppression, refer to the "Manage Alarms" chapter in the Cisco ONS 15454 Procedure Guide.

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Note When an entity is put in the OOS,MT administrative state, the ONS 15454 suppresses all standing alarms on that entity and alarms and events appear on the Conditions tab. You can change this behavior for the LPBKFACILITY and LPBKTERMINAL alarms. To display these alarms on the Alarms tab, set the NODE.general.ReportLoopbackConditionsOnPortsInOOS-MT value to TRUE on the NE Defaults tab. For more information about changing NE defaults, refer to the "Maintain the Node" chapter in the Cisco ONS 15454 Procedure Guide.

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2.7.1  AIS

Default Severity: Not Reported (NR), Non-Service-Affecting (NSA)

SONET Logical Objects: BITS, DS1, DS3, E1, FUDC, MSUDC

DWDM Logical Object: TRUNK

The Alarm Indication Signal (AIS) condition indicates that this node is detecting an alarm indication signal in the incoming signal SONET overhead.

Generally, any AIS is a special SONET signal that communicates to the receiving node when the transmit node does not send a valid signal. AIS is not considered an error. It is raised by the receiving node on each input when it detects the AIS instead of a real signal. In most cases when this condition is raised, an upstream node is raising an alarm to indicate a signal failure; all nodes downstream from it only raise some type of AIS. This condition clears when you resolved the problem on the upstream node.

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Note ONS 15454 DS-3 terminal (inward) loopbacks do not transmit an AIS in the direction away from the loopback. Instead of AIS, a continuance of the signal transmitted into the loopback is provided. A DS3/EC1-48 card can be provisioned to transmit AIS for a terminal loopback.

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Clear the AIS Condition

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Step 1 Determine whether there are alarms on the upstream nodes and equipment, especially the "LOS (OCN)" alarm on page 2-150, or if there are out-of-service (OOS,MT or OOS,DSBLD) ports.

Step 2 Clear the upstream alarms using the applicable procedures in this chapter.

Step 3 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.2  AIS-L

Default Severity: Not Reported (NR), Non-Service-Affecting (NSA)

SONET Logical Objects: EC1, OCN

DWDM Logical Object: TRUNK

The AIS Line condition indicates that this node is detecting line-level AIS in the incoming signal. This alarm is secondary to another alarm occurring simultaneously in an upstream node.

This condition can also be raised in conjunction with the "TIM-S" alarm on page 2-222 if AIS-L is enabled.

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Note ONS 15454 DS-3 terminal (inward) loopbacks do not transmit an AIS in the direction away from the loopback. Instead of AIS, a continuance of the signal transmitted into the loopback is provided. A DS3/EC1-48 card can be provisioned to transmit AIS for a terminal loopback.

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Clear the AIS-L Condition

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Step 1 Complete the "Clear the AIS Condition" procedure.

Step 2 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.3  AIS-P

Default Severity: Not Reported (NR), Non-Service-Affecting (NSA)

SONET Logical Objects: STSMON, STSTRM

The AIS Path condition means that this node is detecting AIS in the incoming path. This alarm is secondary to another alarm occurring simultaneously in an upstream node.

Clear the AIS-P Condition

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Step 1 Complete the "Clear the AIS Condition" procedure.

Step 2 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.4  AIS-V

Default Severity: Not Reported (NR), Non-Service-Affecting (NSA)

SONET Logical Objects: VT-MON, VT-TERM

The AIS VT condition means that this node is detecting AIS in the incoming VT-level path.

See the "1.11.2  AIS-V on DS3XM-6 or DS3XM-12 Unused VT Circuits" section on page 1-129 for more information.

Clear the AIS-V Condition

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Step 1 Complete the "Clear the AIS Condition" procedure.

Step 2 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.5  ALS

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.6  AMPLI-INIT

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.7  APC-CORRECTION-SKIPPED

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.8  APC-DISABLED

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.9  APC-END

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.10  APC-OUT-OF-RANGE

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.11  APSB

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: OCN

The APS Channel Byte Failure alarm occurs when LTE detects protection switching byte failure or an invalid switching code in the incoming APS signal. Some older SONET not manufactured by Cisco send invalid APS codes if they are configured in a 1+1 protection group with newer SONET nodes, such as the ONS 15454. These invalid codes cause an APSB alarm on an ONS 15454.

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Step 1 Use an optical test set to examine the incoming SONET overhead to confirm inconsistent or invalid K bytes. For specific procedures to use the test set equipment, consult the manufacturer. If corrupted K bytes are confirmed and the upstream equipment is functioning properly, the upstream equipment might not interoperate effectively with the ONS 15454.

Step 2 If the alarm does not clear and the overhead shows inconsistent or invalid K bytes, you could need to replace the upstream cards for protection switching to operate properly. Complete the "Physically Replace a Traffic Card" procedure.

Step 3 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.12  APSCDFLTK

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: OCN

The APS Default K Byte Received alarm occurs during bidirectional line switched ring (BLSR) provisioning or when a BLSR is not properly configured, for example, when a four-node BLSR has one node configured as a path protection. When this misconfiguration occurs, a node in a path protection or 1+1 configuration does not send the two valid K1/K2 APS bytes anticipated by a system configured for BLSR. One of the bytes sent is considered invalid by the BLSR configuration. The K1/K2 byte is monitored by receiving equipment for link-recovery information.

Troubleshooting for APSCDFLTK is often similar to troubleshooting for the "BLSROSYNC" alarm on page 2-52.

Clear the APSCDFLTK Alarm

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Step 1 Complete the "Identify a BLSR Ring Name or Node ID Number" procedure to verify that each node has a unique node ID number.

Step 2 Repeat Step 1 for all nodes in the ring.

Step 3 If two nodes have the same node ID number, complete the "Change a BLSR Node ID Number" procedure to change one node ID number so that each node ID is unique.

Step 4 If the alarm does not clear, verify correct configuration of east port and west port optical fibers. (See the "E-W-MISMATCH" alarm on page 2-83.) West port fibers must connect to east port fibers and east port fibers must connect to west port fibers. The "Install Cards and Fiber-Optic Cable" chapter in the Cisco ONS 15454 Procedure Guide provides procedures for fibering BLSRs.

Step 5 If the alarm does not clear and the network is a four-fiber BLSR, ensure that each protect fiber is connected to another protect fiber and each working fiber is connected to another working fiber. The software does not report any alarm if a working fiber is incorrectly attached to a protect fiber.

Step 6 If the alarm does not clear, complete the "Verify Node Visibility for Other Nodes" procedure.

Step 7 If nodes are not visible, complete the "Verify or Create Node Section DCC Terminations" procedure to ensure that section data communications channel (SDCC) terminations exist on each node.

Step 8 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.13  APSC-IMP

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: OCN

An Improper SONET APS Code alarm indicates three consecutive, identical frames containing:

•Unused code in bits 6 through 8 of byte K2.

•Codes that are irrelevant to the specific protection switching operation being requested.

•Requests that are irrelevant to the ring state of the ring (such as a span protection switch request in a two-fiber ring NE).

•ET code in K2 bits 6 through 8 received on the incoming span, but not sourced from the outgoing span.

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Note This alarm can occur on a VT tunnel when it does not have VT circuits provisioned on it. It can also occur when the exercise command or a lockout is applied to a span. An externally switched span does not raise this alarm because traffic is preempted.

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Note The APSC-IMP alarm may be raised on a BLSR or MS-SPRing when a drop connection is part of a cross-connect loopback.

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Note The APSC-IMP alarm may be momentarily raised on BLSR spans during PCA circuit creation or deletion across multiple nodes using CTC.

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Warning Invisible laser radiation could be emitted from the end of the unterminated fiber cable or connector. Do not stare into the beam directly with optical instruments. Viewing the laser output with certain optical instruments (for example, eye loupes, magnifiers, and microscopes) within a distance of 100 mm could pose an eye hazard. Statement 1056

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Warning Use of controls, adjustments, or performing procedures other than those specified could result in hazardous radiation exposure. Statement 1057

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Clear the APSC-IMP Alarm

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Step 1 Use an optical test set to determine the validity of the K byte signal by examining the received signal. For specific procedures to use the test set equipment, consult the manufacturer.

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Caution Always use the supplied electrostatic discharge wristband when working with a powered ONS 15454. Plug the wristband cable into the ESD jack located on the lower-right edge of the shelf assembly.

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If the K byte is invalid, the problem lies with upstream equipment and not with the reporting ONS 15454. Troubleshoot the upstream equipment using the procedures in this chapter, as applicable. If the upstream nodes are not ONS 15454s, consult the appropriate user documentation.

Step 2 If the K byte is valid, verify that each node has a ring name that matches the other node ring names. Complete the "Identify a BLSR Ring Name or Node ID Number" procedure.

Step 3 Repeat Step 2 for all nodes in the ring.

Step 4 If a node has a ring name that does not match the other nodes, make that node's ring name identical to the other nodes. Complete the "Change a BLSR Ring Name" procedure.

Step 5 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.14  APSCINCON

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: OCN

An APS Inconsistent alarm means that an inconsistent APS byte is present. The SONET overhead contains K1/K2 APS bytes that notify receiving equipment, such as the ONS 15454, to switch the SONET signal from a working to a protect path when necessary. An inconsistent APS code occurs when three consecutive frames contain nonidentical APS bytes, which in turn give the receiving equipment conflicting commands about switching.

Clear the APSCINCON Alarm

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Step 1 Look for other alarms, especially the "LOS (OCN)" alarm on page 2-150, the "LOF (OCN)" alarm on page 2-137, or the "AIS" condition on page 2-33. Clearing these alarms clears the APSCINCON alarm.

Step 2 If an APSINCON alarm occurs with no other alarms, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.15  APSCM

Default Severity: Major (MJ), Service-Affecting (SA)

SONET Logical Object: OCN

The APS Channel Mismatch alarm occurs when the ONS 15454 expects a working channel but receives a protect channel. In many cases, the working and protect channels are crossed and the protect channel is active. If the fibers are crossed and the working line is active, the alarm does not occur. The APSCM alarm occurs only on the ONS 15454 when bidirectional protection is used on OC-N cards in a 1+1 protection group configuration. The APSCM alarm does not occur in an optimized 1+1 protection configuration.

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Warning On the ONS 15454 OC-192 card, the laser is on when the card is booted and the safety key is in the on position (labeled 1). The port does not have to be in service for the laser to be on. The laser is off when the safety key is off (labeled 0). Statement 293

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Warning Invisible laser radiation could be emitted from the end of the unterminated fiber cable or connector. Do not stare into the beam directly with optical instruments. Viewing the laser output with certain optical instruments (for example, eye loupes, magnifiers, and microscopes) within a distance of 100 mm could pose an eye hazard. Statement 1056

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Warning Use of controls, adjustments, or performing procedures other than those specified could result in hazardous radiation exposure. Statement 1057

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Clear the APSCM Alarm

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Caution Always use the supplied electrostatic discharge wristband when working with a powered ONS 15454. Plug the wristband cable into the ESD jack located on the lower-right edge of the shelf assembly.

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Step 1 Verify that the working-card channel fibers are physically connected directly to the adjoining node's working-card channel fibers.

Step 2 If the fibers are correctly connected, verify that the protection-card channel fibers are physically connected directly to the adjoining node's protection-card channel fibers.

Step 3 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

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2.7.16  APSCNMIS

Default Severity: Major (MJ), Service-Affecting (SA)

SONET Logical Object: OCN

The APS Node ID Mismatch alarm occurs when the source node ID contained in the incoming APS channel K2 byte is not present in the ring map. The APSCNMIS alarm could occur and clear when a BLSR is being provisioned. If so, you can disregard the temporary occurrence. If the APSCNMIS remains, the alarm clears when a K byte with a valid source node ID is received.

Clear the APSCNMIS Alarm

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Step 1 Complete the "Identify a BLSR Ring Name or Node ID Number" procedure to verify that each node has a unique node ID number.

Step 2 If the Node ID column contains any two nodes with the same node ID listed, record the repeated node ID.

Step 3 Click Close in the Ring Map dialog box.

Step 4 If two nodes have the same node ID number, complete the "Change a BLSR Node ID Number" procedure to change one node ID number so that each node ID is unique.

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Note If the node names shown in the network view do not correlate with the node IDs, log into each node and click the Provisioning > BLSR tabs. The BLSR window shows the node ID of the login node.

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Note Applying and removing a lockout on a span causes the ONS node to generate a new K byte. The APSCNMIS alarm clears when the node receives a K byte containing the correct node ID.

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Step 5 If the alarm does not clear, use the "Initiate a Lockout on a BLSR Protect Span" procedure to lock out the span.

Step 6 Complete the "Clear a BLSR External Switching Command" procedure to clear the lockout.

Step 7 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

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2.7.17  APSIMP

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: OCN

The APS Invalid Code alarm occurs if a 1+1 protection group is not properly configured at both nodes to send or receive the correct APS byte. A node that is either configured for no protection or is configured for path protection or BLSR protection does not send the right K2 APS byte anticipated by a system configured for 1+1 protection. The 1+1 protect port monitors the incoming K2 APS byte and raises this alarm if it does not receive the byte.

The alarm is superseded by an APSCM or APSMM alarm, but not by an AIS condition. It clears when the port receives a valid code for 10 ms.

Clear the APSIMP Alarm

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Step 1 Check the configuration of the other node in the 1+1 protection group. If the far end is not configured for 1+1 protection, create the group. For procedures, refer to the "Turn Up Node" chapter in the Cisco ONS 15454 Procedure Guide.

Step 2 If the other end of the group is properly configured or the alarm does not clear after you have provisioned the group correctly, verify that the working ports and protect ports are cabled correctly.

Step 3 Ensure that both protect ports are configured for SONET.

Step 4 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.18  APS-INV-PRIM

Default Severity: Minor (MN), Non-Service Affecting (NSA)

SONET Logical Object: OCN

The Optimized 1+1 APS Primary Facility condition occurs on OC-N cards in an optimized 1+1 protection system if the incoming primary section header does not indicate whether it is primary or secondary.

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Note APS-INV-PRIM is an informational condition and does not require troubleshooting. If the APS switch is related to other alarms, troubleshoot these alarms as necessary using the procedures in this chapter.

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2.7.19  APSMM

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: OCN

An APS Mode Mismatch failure alarm occurs on OC-N cards when there is a mismatch of the protection switching schemes at the two ends of the span, such as being bidirectional at one end and unidirectional at the other. Each end of a span must be provisioned the same way: bidirectional and bidirectional, or unidirectional and unidirectional. APSMM can also occur if third-party equipment is provisioned as 1:N and the ONS 15454 is provisioned as 1+1.

If one end is provisioned for 1+1 protection switching and the other is provisioned for path protection switching, an APSMM alarm occurs in the ONS 15454 that is provisioned for 1+1 protection switching.

Clear the APSMM Alarm

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Step 1 For the reporting ONS 15454, display node view and verify the protection scheme provisioning:

a. Click the Provisioning > Protection tabs.

b. Click the 1+1 protection group configured for the OC-N cards.

The chosen protection group is the protection group optically connected (with data communications channel, or DCC, connectivity) to the far end.

c. Click Edit.

d. Record whether the Bidirectional Switching check box is checked.

Step 2 Click OK in the Edit Protection Group dialog box.

Step 3 Log into the far-end node and verify that the OC-N 1+1 protection group is provisioned.

Step 4 Verify that the Bidirectional Switching check box matches the checked or unchecked condition of the box recorded in Step 1. If not, change it to match.

Step 5 Click Apply.

Step 6 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.20  APS-PRIM-FAC

Default Severity: Not Alarmed (NA), Non-Service Affecting (NSA)

SONET Logical Object: OCN

The Optimized 1+1 APS Invalid Primary Section condition occurs on OC-N cards in an optimized 1+1 protection system if there is an APS status switch between the primary and secondary facilities to identify which port is primary.

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Note APS-PRIM-FAC is an informational condition and does not require troubleshooting. If the APS switch is related to other alarms, troubleshoot these alarms as necessary using the procedures in this chapter.

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Clear the APS-PRIM-FAC Condition

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Step 1 This condition clears when the card receives a valid primary section indication (1 or 2).

Step 2 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.21  APS-PRIM-SEC-MISM

Default Severity: Minor (MN), Non-Service Affecting (NSA)

SONET Logical Object: OCN

The Optimized 1+1 APS Primary Section Mismatch condition occurs on OC-N cards in an optimized 1+1 protection system if there is a mismatch between the primary section of the local node facility and the primary section of the remote-node facility.

Clear the APS-PRIM-SEC-MISM Alarm

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Step 1 Ensure that the local node and remote-node ports are correctly provisioned the same way. For more information about optimized 1+1 configurations, refer to the "Turn Up Node" chapter in the Cisco ONS 15454 Procedure Guide.

Step 2 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.22  AS-CMD

Default Severity: Not Alarmed (NA), Non-Service-Affecting (NSA)

SONET Logical Objects: BPLANE, CE1000, CE100T, DS1, DS3, E1, E1000F, E100F, EC1, EQPT, FCMR, G1000, GFP-FAC, ML1000, ML100T, MLFX, NE, OCN, PWR

DWDM Logical Objects: 2R, AOTS, ESCON, FC, GE, ISC, OCH, OMS, OTS, PPM, SHELF, TRUNK

The Alarms Suppressed by User Command condition applies to the network element (NE object), backplane, a single card, or a port on a card. It occurs when alarms are suppressed for that object and its subordinate objects. For example, suppressing alarms on a card also suppresses alarms on its ports.

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Note For more information about suppressing alarms, refer to the "Manage Alarms" chapter in the Cisco ONS 15454 Procedure Guide.

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Clear the AS-CMD Condition

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Step 1 For all nodes, in node view, click the Conditions tab.

Step 2 Click Retrieve. If you have already retrieved conditions, look under the Object column and Eqpt Type column and note what entity the condition is reported against, such as a port, slot, or shelf.

•If the condition is reported against a slot and card, alarms were either suppressed for the entire card or for one of the ports. Note the slot number and continue with Step 3.

•If the condition is reported against the backplane, go to Step 7.

•If the condition is reported against the NE object, go to Step 8.

Step 3 Determine whether alarms are suppressed for a port and if so, raise the suppressed alarms:

a. Double-click the card to open the card view.

b. Click the Provisioning > Alarm Profiles > Alarm Behavior tabs and complete one of the following substeps:

•If the Suppress Alarms column check box is checked for a port row, deselect it and click Apply.

•If the Suppress Alarms column check box is not checked for a port row, from the View menu choose  Go to Previous View.

Step 4 If the AS-CMD condition is reported for a card and not an individual port, in node view click the Provisioning > Alarm Profiles > Alarm Behavior tabs.

Step 5 Locate the row number for the reported card slot.

Step 6 Click the Suppress Alarms column check box to deselect the option for the card row.

Step 7 If the condition is reported for the backplane, the alarms are suppressed for cards such as the ONS 15454 AIP that are not in the optical or electrical slots. To clear the alarm, complete the following steps:

a. In node view, click the Provisioning > Alarm Profiles > Alarm Behavior tabs.

b. In the backplane row, uncheck the Suppress Alarms column check box.

c. Click Apply.

Step 8 If the condition is reported for the shelf, cards and other equipment are affected. To clear the alarm, complete the following steps:

a. In node view, click the Provisioning > Alarm Profiles > Alarm Behavior tabs if you have not already done so.

b. Click the Suppress Alarms check box located at the bottom of the window to deselect the option.

c. Click Apply.

Step 9 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.23  AS-MT

Default Severity: Not Alarmed (NA), Non-Service-Affecting (NSA)

SONET Logical Objects: CE1000, CE100T, DS1, DS3, E1, EC1, EQPT, FCMR, G1000, GFP-FAC, ML1000, ML100T, MLFX, OCN

DWDM Logical Objects: 2R, AOTS, ESCON, FC, GE, ISC, OCH, OMS, OTS, PPM, SHELF, TRUNK

The Alarms Suppressed for Maintenance Command condition applies to OC-N and electrical cards and occurs when a port is placed in the Out-of-Service and Management, Maintenance (OOS-MA,MT) service state for loopback testing operations.

Clear the AS-MT Condition

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Step 1 Complete the "Clear an OC-N Card Facility or Terminal Loopback Circuit" procedure.

Step 2 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.24  AS-MT-OOG

Default Severity: Not Alarmed (NA), Non-Service-Affecting (NSA)

SONET Logical Objects: STSTRM, VT-TERM

The Alarms Suppressed on an Out-Of-Group VCAT Member condition is raised on an STS or VT member of a VCAT group whenever the member is in the IDLE (AS-MT-OOG) admin state. This condition can be raised when a member is initially added to a group. In the IDLE (AS-MT-OOG) state, all other alarms for the STS or VT are suppressed.

The AS-MT-OOG condition clears when an STS or VT member transitions to a different state from IDLE (AS-MT-OOG) or when the member is removed completely from the VCAT group. The condition does not require troubleshooting unless it does not clear.

If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

2.7.25  AUD-LOG-LOSS

Default Severity: Not Alarmed (NA), Non-Service-Affecting (NSA)

SONET Logical Object: NE

The Audit Trail Log Loss condition occurs when the log is 100 percent full and the oldest entries are being replaced while new entries are generated. The log capacity is 640 entries. The log must be off-loaded using the following procedure to make room for more entries.

Clear the AUD-LOG-LOSS Condition

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Step 1 In node view, click the Maintenance > Audit tabs.

Step 2 Click Retrieve.

Step 3 Click Archive.

Step 4 In the Archive Audit Trail dialog box, navigate to the directory (local or network) where you want to save the file.

Step 5 Enter a name in the File Name field.

You do not have to assign an extension to the file. It is readable in any application that supports text files, such as WordPad, Microsoft Word (imported), etc.

Step 6 Click Save.

The 640 entries are saved in this file. New entries continue with the next number in the sequence, rather than starting over.

Step 7 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.26  AUD-LOG-LOW

Default Severity: Not Alarmed (NA), Non-Service-Affecting (NSA)

SONET Logical Object: NE

The Audit Trail Log Low condition occurs when the audit trail log is 80 percent full.

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Note AUD-LOG-LOW is an informational condition and does not require troubleshooting.

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2.7.27  AUTOLSROFF

Default Severity: Critical (CR), Service-Affecting (SA)

SONET Logical Object: OCN

The Auto Laser Shutdown alarm occurs when the OC-192 card temperature exceeds 194 degrees F (90 degrees C). The internal equipment automatically shuts down the OC-192 laser when the card temperature rises to prevent the card from self-destructing.

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Warning On the ONS 15454 OC-192 card, the laser is on when the card is booted and the safety key is in the on position (labeled 1). The port does not have to be in service for the laser to be on. The laser is off when the safety key is off (labeled 0). Statement 293

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Warning Invisible laser radiation could be emitted from the end of the unterminated fiber cable or connector. Do not stare into the beam directly with optical instruments. Viewing the laser output with certain optical instruments (for example, eye loupes, magnifiers, and microscopes) within a distance of 100 mm could pose an eye hazard. Statement 1056

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Warning Use of controls, adjustments, or performing procedures other than those specified could result in hazardous radiation exposure. Statement 1057

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Clear the AUTOLSROFF Alarm

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Step 1 View the temperature displayed on the ONS 15454 LCD front panel (Figure 2-1).

Figure 2-1 Shelf LCD Panel

Step 2 If the temperature of the shelf exceeds 194 degrees F (90 degrees C), the alarm should clear if you solve the ONS 15454 temperature problem. Complete the "Clear the HITEMP Alarm" procedure.

Step 3 If the temperature of the shelf is under 194 degrees F (90 degrees C), the HITEMP alarm is not the cause of the AUTOLSROFF alarm. Complete the "Physically Replace a Traffic Card" procedure for the OC-192 card.

Step 4 If card replacement does not clear the alarm, call Cisco TAC 1 800 553-2447 to discuss the case and if necessary open a returned materials authorization (RMA) on the original OC-192 card.

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2.7.28  AUTORESET

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: EQPT

The Automatic System Reset alarm occurs when you change an IP address or perform any other operation that causes an automatic card-level reboot.

AUTORESET typically clears after a card reboots (up to ten minutes). If the alarm does not clear, complete the following procedure.

Clear the AUTORESET Alarm

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Step 1 Determine whether there are additional alarms that could have triggered an automatic reset. If there are, troubleshoot these alarms using the applicable section of this chapter.

Step 2 If the card automatically resets more than once a month with no apparent cause, complete the "Physically Replace a Traffic Card" procedure.

Step 3 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.29  AUTOSW-AIS

Default Severity: Not Reported (NR), Non-Service-Affecting (NSA)

SONET Logical Objects: STSMON, VT-MON

The Automatic UPSR Switch Caused by an AIS condition indicates that automatic path protection switching occurred because of an AIS condition. If the path protection is configured for revertive switching, it reverts to the working path after the fault clears. The AIS also clears when the upstream trouble is cleared.

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Note This condition is only reported if the path protection is set up for revertive switching.

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Generally, any AIS is a special SONET signal that communicates to the receiving node when the transmit node does not send a valid signal. AIS is not considered an error. It is raised by the receiving node on each input when it detects the AIS instead of a real signal. In most cases when this condition is raised, an upstream node is raising an alarm to indicate a signal failure; all nodes downstream from it only raise some type of AIS. This condition clears when you resolved the problem on the upstream node.

Clear the AUTOSW-AIS Condition

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Step 1 Complete the "Clear the AIS Condition" procedure.

Step 2 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.30  AUTOSW-LOP (STSMON)

Default Severity: Not Alarmed (NA), Non-Service-Affecting (NSA)

SONET Logical Object: STSMON

The Automatic UPSR Switch Caused by LOP condition for the STS monitor (STSMON) indicates that automatic path protection switching occurred because of the "LOP-P" alarm on page 2-141. If the path protection is configured for revertive switching, it reverts to the working path after the fault clears.

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Note This condition is only reported if the path protection is set up for revertive switching.

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Clear the AUTOSW-LOP (STSMON) Condition

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Step 1 Complete the "Clear the LOP-P Alarm" procedure.

Step 2 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.31  AUTOSW-LOP (VT-MON)

Default Severity: Not Alarmed (NA), Service-Affecting (SA)

SONET Logical Object: VT-MON

The AUTOSW-LOP alarm for the VT monitor (VT-MON) indicates that automatic path protection switching occurred because of the "LOP-V" alarm on page 2-142. If the path protection is configured for revertive switching, it reverts to the working path after the fault clears.

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Note This condition is only reported if the path protection is set up for revertive switching.

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Clear the AUTOSW-LOP (VT-MON) Condition

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Step 1 Complete the "Clear the LOP-V Alarm" procedure.

Step 2 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

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2.7.32  AUTOSW-PDI

Default Severity: Not Alarmed (NA), Non-Service-Affecting (NSA)

SONET Logical Object: STSMON

The Automatic UPSR Switch Caused by Payload Defect Indication (PDI) condition indicates that automatic path protection switching occurred because of a "PDI-P" alarm on page 2-178. If the path protection is configured for revertive switching, it reverts to the working path after the fault clears.

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Note This condition is only reported if the path protection is set up for revertive switching.

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Clear the AUTOSW-PDI Condition

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Step 1 Complete the "Clear the PDI-P Condition" procedure.

Step 2 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.33  AUTOSW-SDBER

Default Severity: Not Alarmed (NA), Non-Service-Affecting (NSA)

Logical Object: STSMON

The Automatic UPSR Switch Caused by Signal Degrade Bit Error Rate (SDBER) condition indicates that a "SD-P" condition on page 2-198 caused automatic path protection switching to occur. If the path protection is configured for revertive switching, the path protection reverts to the working path when the SD-P is resolved.

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Note This condition is only reported if the path protection is set up for revertive switching.

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Clear the AUTOSW-SDBER Condition

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Step 1 Complete the "Clear the SD-P Condition" procedure.

Step 2 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.34  AUTOSW-SFBER

Default Severity: Not Alarmed (NA), Non-Service-Affecting (NSA)

Logical Object: STSMON

The Automatic USPR Switch Caused by Signal Fail Bit Error Rate (SFBER) condition indicates that a "SF-P" condition on page 2-201 caused automatic path protection switching to occur. If the path protection is configured for revertive switching, the path protection reverts to the working path when the SF-P is resolved.

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Note This condition is only reported if the path protection is set up for revertive switching.

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Clear the AUTOSW-SFBER Condition

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Step 1 Complete the "Clear the SF-P Condition" procedure.

Step 2 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.35  AUTOSW-UNEQ (STSMON)

Default Severity: Not Alarmed (NA), Non-Service-Affecting (NSA)

SONET Logical Object: STSMON

The Automatic UPSR Switch Caused by Unequipped condition indicates that a UNEQ alarm caused automatic path protection switching to occur. If the path protection is configured for revertive switching, it reverts to the working path after the fault clears.

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Note This condition is only reported if the path protection is set up for revertive switching.

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Clear the AUTOSW-UNEQ (STSMON) Condition

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Step 1 Complete the "Clear the UNEQ-P Alarm" procedure.

Step 2 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.36  AUTOSW-UNEQ (VT-MON)

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: VT-MON

AUTOSW-UNEQ (VT-MON) indicates that the "UNEQ-V" alarm on page 2-230 caused automatic path protection switching to occur. If the path protection is configured for revertive switching, it reverts to the working path after the fault clears.

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Note This condition is only reported if the path protection is set up for revertive switching.

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Clear the AUTOSW-UNEQ (VT-MON) Condition

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Step 1 Complete the "Clear the UNEQ-V Alarm" alarm on page 2-230 procedure.

Step 2 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC (1 800 553-2447) in order to report a service-affecting problem.

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2.7.37  AWG-DEG

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.38  AWG-FAIL

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.39  AWG-OVERTEMP

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.40  AWG-WARM-UP

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.41  BAT-FAIL

Default Severity: Major (MJ), Service-Affecting (SA)

SONET Logical Object: PWR

The Battery Fail alarm occurs when one of the two power supplies (A or B) is not detected. This could be because the supply is removed or is not operational. The alarm does not distinguish between the individual power supplies, so onsite information about the conditions is necessary for troubleshooting.

Clear the BAT-FAIL Alarm

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Step 1 At the site, determine which battery is not present or operational.

Step 2 Remove the power cable from the faulty supply. For procedures, refer to the "Install the Shelf and Backplane Cable" chapter in the Cisco ONS 15454 Procedure Guide. Reverse the power cable installation procedure.

Step 3 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

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2.7.42  BKUPMEMP

Default Severity: Critical (CR), Service-Affecting (SA)

SONET Logical Object: EQPT

The Primary Nonvolatile Backup Memory Failure alarm refers to a problem with the TCC2/TCC2P flash memory. The alarm occurs when the TCC2/TCC2P is in use and has one of four problems:

•Flash manager fails to format a flash partition.

•Flash manager fails to write a file to a flash partition.

•Problem at the driver level.

•Code volume fails cyclic redundancy checking (CRC, a method to verify for errors in data transmitted to the TCC2/TCC2P).

The BKUPMEMP alarm can also cause the "EQPT" alarm on page 2-79. If the EQPT alarm is caused by BKUPMEMP, complete the following procedure to clear the BKUPMEMP and the EQPT alarm.

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Caution A software update on a standby TCC2/TCC2P can take up to 30 minutes.

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Clear the BKUPMEMP Alarm

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Step 1 Verify that both TCC2/TCC2Ps are powered and enabled by confirming lighted ACT/SBY LEDs on the TCC2/TCC2Ps.

Step 2 Determine whether the active or standbyTCC2/TCC2P has the alarm.

Step 3 If both TCC2/TCC2Ps are powered and enabled, reset the TCC2/TCC2P where the alarm is raised. If the card is the active TCC2/TCC2P, complete the "Reset an Active TCC2/TCC2P Card and Activate the Standby Card" procedure. If the card is the standby TCC2/TCC2P:

a. Right-click the standby TCC2/TCC2P in CTC.

b. Choose Reset Card from the shortcut menu.

c. Click Yes in the Are You Sure dialog box. The card resets, the FAIL LED blinks on the physical card.

d. Wait ten minutes to verify that the card you reset completely reboots.

Step 4 If the TCC2/TCC2P you reset does not reboot successfully, or the alarm has not cleared, call Cisco TAC 1 800 553-2447. If the Cisco TAC technician tells you to reseat the card, complete the "Remove and Reinsert (Reseat) the Standby TCC2/TCC2P Card" procedure. If the Cisco TAC technician tells you to remove the card and reinstall a new one, follow the "Physically Replace a Traffic Card" procedure.

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2.7.43  BLSROSYNC

Default Severity: Major (MJ), Service-Affecting (SA)

SONET Logical Object: OCN

The BLSR Out Of Synchronization alarm occurs is raised temporarily during a span upgrade, downgrade, or two-fiber to four-fiber mode upgrade and clears when the procedure is complete for all nodes on the ring. If the alarm does not clear, ensure that all maintenance procedures have completed for all nodes on the ring. If the alarm still does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

2.7.44  BLSR-SW-VER-MISM

Default Severity: Major (MJ), Service-Affecting (SA)

SONET Logical Object: OCN

The BLSR Software Version Mismatch alarm is raised by the TCC2/TCC2P when it checks all software versions for all nodes in a ring and discovers a mismatch in versions.

Clear the BLSR-SW-VER-MISM Alarm

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Step 1 Clear the alarm by loading the correct software version on the TCC2/TCC2P with the incorrect load. To download software, refer to the release-specific software download document.

Step 2 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 to report a Service-Affecting (SA) condition.

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2.7.45  BPV

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: BITS

The 64K Clock Bipolar Density Violation alarm is raised on the TCC2P card if there is a frequency variation in the 8K BITS clock.

The TCC2P card contains an 8K clock and a 64K clock. Each has some bipolar variation, which is normal. This alarm is raised on the 8K clock if that variation discontinues. The BPV alarm is demoted by an LOF or LOS against the BITS clock.

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Note This alarm is not raised on the TCC2 card.

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Clear the BPV Alarm

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Step 1 Reestablishing a normal BITS input signal clears the alarm. Clear any alarms on the incoming signal or against the BITS timing sources.

Step 2 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

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2.7.46  CARLOSS (CE1000, CE100T)

Default Severity: Major (MJ), Service-Affecting (SA)

SONET Logical Objects: CE1000, CE100T

The Carrier Loss alarm is raised on CE-Series cards in Mapper mode when the port is In-Service (IS) state and if there is no carrier signal. Circuit need not be present to raise the alarm. In releases prior to 6.01 the Carrier Loss alarm is raised on CE-100T-8 cards in Mapper mode when there is a circuit failure due to link integrity. It does not get raised when a user simply puts the port in the In-Service and Normal (IS-NR) service state.

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Note For more information about Ethernet cards, refer to the Ethernet Card Software Feature and Configuration Guide for the Cisco ONS 15454, Cisco ONS 15454 SDH, and Cisco ONS 15327.

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Clear the CARLOSS (CE100T) Alarm

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Step 1 Complete the "Clear the CARLOSS (G1000) Alarm" procedure. However, rather than checking for a TPTFAIL (G1000) at the end of the procedure, check for a "TPTFAIL (CE100T, CE1000)" alarm on page 2-223.

Step 2 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

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2.7.47  CARLOSS (E1000F, E100T)

Default Severity: Major (MJ), Service-Affecting (SA)

SONET Logical Objects: E1000F, E100T

A Carrier Loss alarm on the LAN E-Series Ethernet card is the data equivalent of the "LOS (OCN)" alarm on page 2-150. The Ethernet card has lost its link and is not receiving a valid signal. The most common causes of the CARLOSS alarm are a disconnected cable, an Ethernet Gigabit Interface Converter (GBIC) fiber connected to an optical card rather than an Ethernet device, or an improperly installed Ethernet card. Ethernet card ports must be enabled for CARLOSS to occur. CARLOSS is declared after no signal is received for approximately 2.5 seconds.

The CARLOSS alarm also occurs after a node database is restored. After restoration, the alarm clears in approximately 30 seconds after the node reestablishes Spanning Tree Protocol (STP).

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Note For more information about Ethernet cards, refer to the Ethernet Card Software Feature and Configuration Guide for the Cisco ONS 15454, Cisco ONS 15454 SDH, and Cisco ONS 15327.

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Clear the CARLOSS (E1000F, E100T) Alarm

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Step 1 Verify that the fiber cable is properly connected and attached to the correct port. For more information about fiber connections and terminations, refer to the "Install Cards and Fiber-Optic Cable" chapter in the Cisco ONS 15454 Procedure Guide.

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Caution Always use the supplied electrostatic discharge wristband when working with a powered ONS 15454. Plug the wristband cable into the ESD jack located on the lower-right edge of the shelf assembly.

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Step 2 If the fiber cable is properly connected and attached to the port, verify that the cable connects the card to another Ethernet device and is not misconnected to an OC-N card. For more information about fiber connections and terminations, refer to the "Install Cards and Fiber-Optic Cable" chapter in the Cisco ONS 15454 Procedure Guide.

Step 3 If no misconnection to an OC-N card exists, verify that the transmitting device is operational. If not, troubleshoot the device.

Step 4 If the alarm does not clear, use an Ethernet test set to determine whether a valid signal is coming into the Ethernet port. For specific procedures to use the test set equipment, consult the manufacturer.

Step 5 If a valid Ethernet signal is not present and the transmitting device is operational, replace the fiber cable connecting the transmitting device to the Ethernet port. To do this, refer to the "Install Cards and Fiber-Optic Cable" chapter in the Cisco ONS 15454 Procedure Guide.

Step 6 If a valid Ethernet signal is present, complete the "Remove and Reinsert (Reseat) Any Card" procedure for the Ethernet card.

Step 7 If the alarm does not clear, complete the "Physically Replace a Traffic Card" procedure for the Ethernet card.

Step 8 If a CARLOSS alarm repeatedly appears and clears, use the following steps to examine the layout of your network to determine whether the Ethernet circuit is part of an Ethernet manual cross-connect.

An Ethernet manual cross-connect is used when another vendor's equipment sits between ONS 15454 nodes, and the open systems interconnect/target identifier address resolution protocol (OSI/TARP)-based equipment does not allow tunneling of the ONS 15454 TCP/IP-based DCC. To circumvent a lack of continuous DCC, the Ethernet circuit is manually cross connected to an STS channel riding through the non-ONS network.

If the reporting Ethernet circuit is part of an Ethernet manual cross-connect, complete the following steps. The reappearing alarm could be a result of mismatched STS circuit sizes in the set up of the manual cross-connect. If the Ethernet circuit is not part of a manual cross-connect, the following steps do not apply.

a. Right-click anywhere in the row of the CARLOSS alarm.

b. Click Select Affected Circuits in the shortcut menu that appears.

c. Record the information in the type and size columns of the highlighted circuit.

d. From the examination of the layout of your network, determine which ONS 15454 and card and card are hosting the Ethernet circuit at the other end of the Ethernet manual cross-connect and complete the following substeps:

•Log into the ONS 15454 at the other end of the Ethernet manual cross-connect.

•Double-click the Ethernet card that is part of the Ethernet manual cross-connect.

•Click the Circuits tab.

•Record the information in the type and size columns of the circuit that is part of the Ethernet manual cross-connect. The Ethernet manual cross-connect circuit connects the Ethernet card to an OC-N card at the same node.

e. Use the information you recorded to determine whether the two Ethernet circuits on each side of the Ethernet manual cross-connect have the same circuit size.

If one of the circuit sizes is incorrect, complete the "Delete a Circuit" procedure and reconfigure the circuit with the correct circuit size. For more information, refer to the "Create Circuits and VT Tunnels" chapter in the Cisco ONS 15454 Procedure Guide.

Step 9 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

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2.7.48  CARLOSS (EQPT)

Default Severity: Major (MJ), Service-Affecting (SA)

SONET Logical Object: EQPT

A Carrier Loss on the LAN Equipment alarm generally occurs on OC-N cards when the ONS 15454 and the workstation hosting CTC do not have a TCP/IP connection. The problem involves the LAN or data circuit used by the RJ-45 (LAN) connector on the TCC2/TCC2P or the LAN backplane pin connection. This CARLOSS alarm does not involve an Ethernet circuit connected to an Ethernet port. The problem is in the connection and not CTC or the node.

On TXP_MR_10G, TXP_MR_2.5G, TXPP_MR_2.5G or MXP_2.5G_10G cards, CARLOSS is also raised against trunk ports when ITU-T G.709 monitoring is turned off.

A TXP_MR_2.5G card can raise a CARLOSS alarm when the payload is incorrectly configured for the 10 Gigabit Ethernet or 1 Gigabit Ethernet payload data types.

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Warning Invisible laser radiation could be emitted from the end of the unterminated fiber cable or connector. Do not stare into the beam directly with optical instruments. Viewing the laser output with certain optical instruments (for example, eye loupes, magnifiers, and microscopes) within a distance of 100 mm could pose an eye hazard. Statement 1056

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Warning Use of controls, adjustments, or performing procedures other than those specified could result in hazardous radiation exposure. Statement 1057

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Note For more information about provisioning MXP or TXP PPMs, refer to the "Provision Transponders and Muxponders" chapter of the Cisco ONS 15454 DWDM Procedure Guide. For more information about the cards themselves, refer to the Cisco ONS 15454 DWDM Reference Manual. For more information about MRC-12 and OC192-XFP/STM64-XFP cards, refer to the "Change Card Settings" chapter of the Cisco ONS 15454 Procedure Guide. For more information about Ethernet cards, refer to the Ethernet Card Software Feature and Configuration Guide for the Cisco ONS 15454, Cisco ONS 15454 SDH, and Cisco ONS 15327.

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Clear the CARLOSS (EQPT) Alarm

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Step 1 If the reporting card is an MXP or TXP card in an ONS 15454 node, verify the data rate configured on the pluggable port module (PPM):

a. Double-click the reporting MXP or TXP card.

b. Click the Provisioning > Pluggable Port Modules tabs.

c. View the Pluggable Port Modules area port listing in the Actual Equipment Type column and compare this with the contents of the Selected PPM area Rate column for the MXP or TXP multirate port.

d. If the rate does not match the actual equipment, you must delete and recreate the selected PPM. Select the PPM, click Delete, then click Create and choose the correct rate for the port rate.

Step 2 If the reporting card is an OC-N card, verify connectivity by pinging the ONS 15454 that is reporting the alarm by completing the procedure in the "1.9.8  Verify PC Connection to the ONS 15454 (ping)" procedure on page 1-112.

Step 3 If the ping is successful, it demonstrates that an active TCP/IP connection exists. Restart CTC:

a. Exit from CTC.

b. Reopen the browser.

c. Log into CTC.

Step 4 Using optical test equipment, verify that proper receive levels are achieved. (For instructions to use optical test equipment, refer to the manufacturer documentation.)

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Caution Always use the supplied electrostatic discharge wristband when working with a powered ONS 15454. Plug the wristband cable into the ESD jack located on the lower-right edge of the shelf assembly.

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Step 5 Verify that the optical LAN cable is properly connected and attached to the correct port. For more information about fiber connections and terminations, refer to the "Install Cards and Fiber-Optic Cable" chapter in the Cisco ONS 15454 Procedure Guide.

Step 6 If the fiber cable is properly connected and attached to the port, verify that the cable connects the card to another Ethernet device and is not misconnected to an OC-N card.

Step 7 If you are unable to establish connectivity, replace the fiber cable with a new known-good cable. To do this, refer to the "Install Cards and Fiber-Optic Cable" chapter in the Cisco ONS 15454 Procedure Guide.

Step 8 If you are unable to establish connectivity, perform standard network or LAN diagnostics. For example, trace the IP route, verify cable continuity, and troubleshoot any routers between the node and CTC. To verify cable continuity, follow site practices.

Step 9 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

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2.7.49  CARLOSS (FC)

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.50  CARLOSS (G1000)

Default Severity: Major (MJ), Service-Affecting (SA)

SONET Logical Object: G1000

A Carrier Loss alarm on the LAN G-Series Ethernet card is the data equivalent of the "LOS (OCN)" alarm on page 2-150. The Ethernet card has lost its link and is not receiving a valid signal.

CARLOSS on the G1000-4 card is caused by one of two situations:

•The G1000-4 port reporting the alarm is not receiving a valid signal from the attached Ethernet device. The CARLOSS can be caused by an improperly connected Ethernet cable or a problem with the signal between the Ethernet device and the G1000-4 port.

•If a problem exists in the end-to-end path (including possibly the far-end G1000-4 card), it causes the reporting card to turn off the Gigabit Ethernet transmitter. Turning off the transmitter typically causes the attached device to turn off its link laser, which results in a CARLOSS on the reporting G1000-4 card. The root cause is the problem in the end-to-end path. When the root cause is cleared, the far-end G1000-4 port turns the transmitter laser back on and clears the CARLOSS on the reporting card. If a turned-off transmitter causes the CARLOSS alarm, other alarms such as the "TPTFAIL (G1000)" alarm on page 2-224 or OC-N alarms or conditions on the end-to-end path normally accompany the CARLOSS (G1000s) alarm.

Refer to the Cisco ONS 15454 Reference Manual for a description of the G1000-4 card's end-to-end Ethernet link integrity capability. Also see the "TRMT" alarm on page 2-226 for more information about alarms that occur when a point-to-point circuit exists between two cards.

Ethernet card ports must be enabled for CARLOSS to occur. CARLOSS is declared after no signal is received for approximately 2.5 seconds.

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Note For more information about Ethernet cards, refer to the Ethernet Card Software Feature and Configuration Guide for the Cisco ONS 15454, Cisco ONS 15454 SDH, and Cisco ONS 15327.

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Clear the CARLOSS (G1000) Alarm

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Step 1 Verify that the fiber cable is properly connected and attached to the correct port. For more information about fiber connections and terminations, refer to the "Install Cards and Fiber-Optic Cable" chapter in the Cisco ONS 15454 Procedure Guide.

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Caution Always use the supplied electrostatic discharge wristband when working with a powered ONS 15454. Plug the wristband cable into the ESD jack located on the lower-right edge of the shelf assembly.

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Step 2 If the fiber cable is correctly connected and attached, verify that the cable connects the card to another Ethernet device and is not misconnected to an OC-N card.

Step 3 If no misconnection to the OC-N card exists, verify that the attached transmitting Ethernet device is operational. If not, troubleshoot the device.

Step 4 Verify that optical receive levels are within the normal range. The correct specifications are listed in the "1.12.3  OC-N Card Transmit and Receive Levels" section on page 1-141.

Step 5 If the alarm does not clear, use an Ethernet test set to determine whether a valid signal is coming into the Ethernet port. For specific procedures to use the test set equipment, consult the manufacturer.

Step 6 If a valid Ethernet signal is not present and the transmitting device is operational, replace the fiber cable connecting the transmitting device to the Ethernet port. To do this, refer to the "Install Cards and Fiber-Optic Cable" chapter in the Cisco ONS 15454 Procedure Guide.

Step 7 If the alarm does not clear, and link autonegotiation is enabled on the port but the autonegotiation process fails, the card turns off its transmitter laser and reports a CARLOSS alarm. If link autonegotiation has been enabled for the port, determine whether there are conditions that could cause autonegotiation to fail:

a. Confirm that the attached Ethernet device has autonegotiation enabled and is configured for compatibility with the asymmetric flow control on the card.

b. Confirm that the attached Ethernet device configuration allows reception of flow control frames.

Step 8 If the alarm does not clear, disable and reenable the Ethernet port to attempt to remove the CARLOSS condition. (The autonegotiation process restarts.)

Step 9 If the alarm does not clear and the "TPTFAIL (G1000)" alarm on page 2-224 is also reported, complete the "Clear the TPTFAIL (G1000) Alarm" procedure. If the TPTFAIL alarm is not raised, continue to the next step.

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Note When the CARLOSS and the TPTFAIL alarms are reported, the reason for the condition could be the G1000-4 card's end-to-end link integrity feature taking action on a remote failure indicated by the TPTFAIL alarm.

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Step 10 If the TPTFAIL alarm was not raised, determine whether a terminal (inward) loopback has been provisioned on the port:

a. In node view, click the card to go to card view.

b. Click the Maintenance > Loopback tabs.

c. If the service state is listed as OOS-MA,LPBK&MT, a loopback is provisioned. Go to Step 11.

Step 11 If a loopback was provisioned, complete the "Clear Other Electrical Card or Ethernet Card Loopbacks" procedure.

On the G1000-4, provisioning a terminal (inward) loopback causes the transmit laser to turn off. If an attached Ethernet device detects the loopback as a loss of carrier, the attached Ethernet device shuts off the transmit laser to the G1000-4 card. Terminating the transmit laser could raise the CARLOSS alarm because the loopbacked G1000-4 port detects the termination.

If the does not have a loopback condition, continue to Step 12.

Step 12 If a CARLOSS alarm repeatedly appears and clears, the reappearing alarm could be a result of mismatched STS circuit sizes in the setup of the manual cross-connect. Perform the following steps if the Ethernet circuit is part of a manual cross-connect:

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Note An ONS 15454 Ethernet manual cross-connect is used when another vendor's equipment sits between ONS nodes, and the OSI/TARP-based equipment does not allow tunneling of the ONS 15454 TCP/IP-based DCC. To circumvent a lack of continuous DCC, the Ethernet circuit is manually cross connected to an STS channel riding through the non-ONS network.

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a. Right-click anywhere in the row of the CARLOSS alarm.

b. Right-click or left-click Select Affected Circuits in the shortcut menu that appears.

c. Record the information in the type and size columns of the highlighted circuit.

d. Examine the layout of your network and determine which ONS 15454 and card are hosting the Ethernet circuit at the other end of the Ethernet manual cross-connect and complete the following substeps:

•Log into the node at the other end of the Ethernet manual cross-connect.

•Double-click the Ethernet card that is part of the Ethernet manual cross-connect.

•Click the Circuits tab.

•Record the information in the type and size columns of the circuit that is part of the Ethernet manual cross-connect. The cross-connect circuit connects the Ethernet card to an OC-N card at the same node.

e. Determine whether the two Ethernet circuits on each side of the Ethernet manual cross-connect have the same circuit size from the circuit size information you recorded.

f. If one of the circuit sizes is incorrect, complete the "Delete a Circuit" procedure and reconfigure the circuit with the correct circuit size. Refer to the "Create Circuits and VT Tunnels" chapter in the Cisco ONS 15454 Procedure Guide for detailed procedures to create circuits.

Step 13 If a valid Ethernet signal is present, complete the "Remove and Reinsert (Reseat) Any Card" procedure.

Step 14 If the alarm does not clear, complete the "Physically Replace a Traffic Card" procedure for the Ethernet card.

Step 15 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

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2.7.51  CARLOSS (GE)

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.52  CARLOSS (ISC)

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.53  CARLOSS (ML1000, ML100T, MLFX)

Default Severity: Major (MJ), Service-Affecting (SA)

SONET Logical Objects: ML1000, ML100T, MLFX

A Carrier Loss alarm on an ML-Series Ethernet card is the data equivalent of the "LOS (OCN)" alarm on page 2-150. The Ethernet port has lost its link and is not receiving a valid signal.

A CARLOSS alarm occurs when the Ethernet port has been configured from the Cisco IOS command line interface (CLI) as a no-shutdown port and one of the following problems also occurs:

•The cable is not properly connected to the near or far port.

•Autonegotiation is failing.

•The speed (10/100 ports only) is set incorrectly.

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Note For information about provisioning ML-Series Ethernet cards from the Cisco IOS interface, refer to the Ethernet Card Software Feature and Configuration Guide for the Cisco ONS 15454, Cisco ONS 15454 SDH, and Cisco ONS 15327.

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Clear the CARLOSS (ML1000, ML100T, MLFX) Alarm

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Step 1 Verify that the LAN cable is properly connected and attached to the correct port on the ML-Series card and on the peer Ethernet port. For more information about fiber connections and terminations, refer to the "Install Cards and Fiber-Optic Cable" chapter in the Cisco ONS 15454 Procedure Guide.

Step 2 If the alarm does not clear, verify that autonegotiation is set properly on the ML-Series card port and the peer Ethernet port.

Step 3 If the alarm does not clear, verify that the speed is set properly on the ML-Series card port and the peer Ethernet port if you are using 10/100 ports.

Step 4 If the alarm does not clear, the Ethernet signal is not valid, but the transmitting device is operational, replace the LAN cable connecting the transmitting device to the Ethernet port.

Step 5 If the alarm does not clear, disable and reenable the Ethernet port by performing a "shutdown" and then a "no shutdown" on the Cisco IOS CLI. Autonegotiation restarts.

Step 6 If the alarm does not clear, complete the "Create the Facility Loopback on the Source DS-1, DS-3, DS3N-12, DS3i-N-12, or EC1 Port" procedure on page 1-10 and test the loopback.

Step 7 If the problem persists with the loopback installed, complete the "Remove and Reinsert (Reseat) Any Card" procedure.

Step 8 If the alarm does not clear, complete the "Physically Replace a Traffic Card" procedure.

Step 9 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

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2.7.54  CARLOSS (TRUNK)

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.55  CASETEMP-DEG

For information about this alarm or condition, refer to the "Alarm Troubleshooting" chapter in the Cisco ONS 15454 DWDM Troubleshooting Guide. This guide discusses all DWDM alarms.

2.7.56  CLDRESTART

Default Severity: Not Alarmed (NA), Non-Service-Affecting (NSA)

SONET Logical Object: EQPT

The Cold Restart condition occurs when a card is physically removed and inserted, replaced, or when the ONS 15454 power is initialized.

Clear the CLDRESTART Condition

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Step 1 Complete the "Remove and Reinsert (Reseat) the Standby TCC2/TCC2P Card" procedure.

Step 2 If the condition fails to clear after the card reboots, complete the "Remove and Reinsert (Reseat) Any Card" procedure.

Step 3 If the condition does not clear, complete the "Physically Replace a Traffic Card" procedure for the card.

Step 4 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.57  COMIOXC

Default Severity: Critical (CR), Service-Affecting (SA)

SONET Logical Object: EQPT

The Input/Output Slot To Cross-Connect Communication Failure alarm is caused by the XC10G or XC-VXC-10G cross-connect card when there is a communication failure for a traffic slot.

Clear the COMIOXC Alarm

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Step 1 Complete the "Reset a Traffic Card in CTC" procedure on the card in which the alarm is reported. For the LED behavior, see the "Typical Traffic Card LED Activity During Reset" section.

Step 2 Verify that the reset is complete and error-free and that no new related alarms appear in CTC. A green ACT/SBY LED indicates an active card. An amber ACT/SBY LED indicates a standby card.

Step 3 If the CTC reset does not clear the alarm, move traffic off the reporting cross-connect card. Complete the "Side Switch the Active and Standby Cross-Connect Cards" procedure.

Step 4 Complete the "Remove and Reinsert (Reseat) Any Card" procedure on the card in which the alarm is reported.

Step 5 If the alarm does not clear, complete the "Physically Replace an In-Service Cross-Connect Card" procedure for the reporting cross-connect card.

Step 6 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 in order to report a Service-Affecting (SA) problem.

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2.7.58  COMM-FAIL

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: EQPT

The Plug-In Module (card) Communication Failure indicates that there is a communication failure between the TCC2/TCC2P and the traffic card. The failure could indicate a broken card interface.

Clear the COMM-FAIL Alarm

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Step 1 Complete the "Reset a Traffic Card in CTC" procedure for the reporting card.

Step 2 If the alarm does not clear, complete the "Physically Replace a Traffic Card" procedure for the card.

Step 3 If the condition does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447.

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2.7.59  CONTBUS-A-18

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: EQPT

A Communication Failure from Controller Slot to Controller Slot alarm for the TCC2/TCC2P slot to TCC2/TCC2P slot occurs when the main processor on the TCC2/TCC2P in the first slot (TCC A) loses communication with the coprocessor on the same card. This applies to the TCC2/TCC2P in Slot 7.

Clear the CONTBUS-A-18 Alarm

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Step 1 Complete the "Remove and Reinsert (Reseat) the Standby TCC2/TCC2P Card" procedure to make the TCC2/TCC2P in Slot 11 active.

Step 2 Wait approximately 10 minutes for the TCC2/TCC2P in Slot 7 to reset as the standby TCC2/TCC2P. Verify that the ACT/SBY LED is correctly illuminated before proceeding to the next step. A green ACT/SBY LED indicates an active card. An amber ACT/SBY LED indicates a standby card.

Step 3 Position the cursor over the TCC2/TCC2P in Slot 11 and complete the "Reset an Active TCC2/TCC2P Card and Activate the Standby Card" procedure to return the card to the active state.

Step 4 If the reset card has not rebooted successfully, or the alarm has not cleared, call Cisco TAC (1-800-553-2447). If the Cisco TAC technician tells you to reseat the card, complete the "Reset an Active TCC2/TCC2P Card and Activate the Standby Card" procedure. If the Cisco TAC technician tells you to remove the card and reinstall a new one, follow the "Physically Replace a Traffic Card" procedure.

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2.7.60  CONTBUS-B-18

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: EQPT

A Communication Failure from Controller Slot to Controller Slot alarm for the TCC2/TCC2P slot to TCC2/TCC2P slot occurs when the main processor on the TCC2/TCC2P in the second slot (TCC B) loses communication with the coprocessor on the same card. This applies to the Slot 11 TCC2/TCC2P.

Clear the CONTBUS-B-18 Alarm

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Step 1 Complete the "Reset an Active TCC2/TCC2P Card and Activate the Standby Card" procedure to make the Slot 7 TCC2/TCC2P active.

Step 2 Wait approximately 10 minutes for the Slot 11 TCC2/TCC2P to reset as the standby TCC2/TCC2P. Verify that the ACT/SBY LED is correctly illuminated before proceeding to the next step. A green ACT/SBY LED indicates an active card. An amber ACT/SBY LED indicates a standby card.

Step 3 Position the cursor over the Slot 7 TCC2/TCC2P and complete the "Reset an Active TCC2/TCC2P Card and Activate the Standby Card" procedure to return the Slot 11 TCC2/TCC2P to the active state.

Step 4 If the reset card has not rebooted successfully, or the alarm has not cleared, call Cisco TAC (1-800-553-2447). If the Cisco TAC technician tells you to reseat the card, complete the "Remove and Reinsert (Reseat) the Standby TCC2/TCC2P Card" procedure. If the Cisco TAC technician tells you to remove the card and reinstall a new one, follow the "Physically Replace a Traffic Card" procedure.

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2.7.61  CONTBUS-DISABLED

Default Severity: Critical (CR), Service-Affecting (SA)

SONET Logical Object: EQPT

The CONTBUS-DISABLED alarm is a function of the enhanced cell bus verification feature. This alarm occurs when a defective card is installed in the shelf assembly or when a card already installed in the shelf assembly becomes defective (that is, the card fails the enhanced cell bus verification test). The alarm persists as long as the defective card remains in the chassis. When the card is removed, CONTBUS-DISABLED will remain raised for a one-minute wait time. This wait time is designed as a guard period so that the system can distinguish this outage from a briefer card reset communication outage.

If no card is reinserted into the original slot during the wait time, the alarm clears. After this time, a different, nondefective card (not the original card) should be inserted.

When CONTBUS-DISABLED is raised, no message-oriented communication is allowed to or from this slot to the TCC2/TCC2P (thus avoiding node communication failure).

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Caution CONTBUS-DISABLED clears only when the faulty card is removed for one minute. If any card at all is reinserted before the one-minute guard period expires, the alarm does not clear.

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CONTBUS-DISABLED overrides the IMPROPRMVL alarm during the one-minute wait period, but afterward IMPROPRMVL can be raised because it is no longer suppressed. IMPROPRMVL is raised after CONTBUS-DISABLED clears if the card is in the node database. If CONTBUS-DISABLED has cleared but IMPROPRMVL is still active, inserting a card will clear the IMPROPRMVL alarm.

Clear the CONTBUS-DISABLED Alarm

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Step 1 If the IMPROPRMVL alarm is raised, complete the "Physically Replace a Traffic Card" procedure. (For general information about card installation, refer to the "Install Cards and Fiber-Optic Cable" chapter in the Cisco ONS 15454 Procedure Guide.)

Step 2 If the alarm does not clear, log into the Technical Support Website at http://www.cisco.com/techsupport for more information or call Cisco TAC 1 800 553-2447 to report a Service-Affecting (SA) problem.

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2.7.62  CONTBUS-IO-A

Default Severity: Minor (MN), Non-Service-Affecting (NSA)

SONET Logical Object: EQPT

A TCCA to Shelf A Slot Communication Failure alarm occurs when the active Slot 7 TCC2/TCC2P (TCC A) has lost communication with another card in the shelf. The other card is identified by the Object column in the CTC alarm window.

The CONTBUS-IO-A alarm can appear briefly when the ONS 15454 switches to the protect TCC2/TCC2P. In the case of a TCC2/TCC2P protection switch, the alarm clears after the other cards establish communication with the newly active TCC2/TCC2P. If the alarm persists, the problem lies with the physical path of communication from the TCC2/TCC2P to the reporting card. The physical path of communication includes the TCC2/TCC2P, the other card, and the backplane.

Clear the CONTBUS-IO-A Alarm

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Step 1 Ensure that the reporting card is physically present in the shelf. Record the card type. Click the Inventory tab and view the Eqpt Type column to reveal the provisioned type.

If the actual card type and the provisioned card type do not match, see the "MEA (EQPT)" alarm on page 2-168 for the reporting card.

Step 2 If the alarm object is any single card slot other than the standby Slot 11 TCC2/TCC2P, perform a CTC reset of the object card. Complete the "Reset a Traffic Card in CTC" procedure. For the LED behavior, see the "Typical Traffic Card LED Activity During Reset" section.

Step 3