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.
This chapter describes the components of TL1 commands and autonomous messages for the Cisco ONS 15454 and the Cisco ONS 15327, Release 4.0, including:
•TL1 default values
•Modifier support by platform
•Starting positions for an STS-Mc SPE
•Access identifiers (AIDs)
•Parameter types
4.1 TL1 Default Values
4.1.1 BLSR
Table 4-1 BLSR Default Values
BLSR
Default
RVRTV
Y
RVTM
5.0 minutes
SRVRTV
Y
SRVTM
5.0 minutes
4.1.2 Cross Connections
Table 4-2 Cross Connections Default Values
Cross Connections
Default
CCT
2WAY for both STSp and VT1 cross-connections
4.1.3 Environment Alarms and Controls
Table 4-3 Environment Alarms and Controls Default Values
Environment Alarms and Controls
Default
OPR-EXT-CONT
CONTTYPE is set as one provisioned in the respective AID, there is not default for it. It is only used as a filter if entered. DUR is always taken as CONT.
RTRV-ATTR-CONT
There is no default for CONTTYPE. It is only used as a filter if entered.
RTRV-ATTR-ENV
There is no default for both NTFCNCDE and ALMTYPE, which are only used as filters if entered.
RTRV-EXT-CONT
CONTTYPE defaults to the conttype associated with the AID.
SET-ATTR-ENV
NTFCNCDE defaults to NR. ALMTYPE defaults to NULL. ALMMSG defaults to \"Env Alarm Input 1\".
4.1.4 Equipment
Table 4-4 Equipment Default Values
Equipment
Default
ALW-SWTOPROTN-EQPT, INH-SWTOPROTN-EQPT and ALW-SWTOWKG-EQPT, ING-SWTOWKG-EQPT
DIRN defaults to BTH
ENT-EQPT
PROTID, PRTYPE, RVRTV and RVTM defaults to NULL
SW-DX-EQPT
MODE defaults to NORM
SW-TOPROTN-EQPT and SW-TOWKG-EQPT
MODE defaults to NORM DIRN defaults to BTH
4.1.5 Performance
Table 4-5 Performance Default Values
Performance
Default
INIT-REG-<MOD2>
LOCN defaults to NEND (near end)
RTRV-PM-<MOD2>
LOCN defaults to NEND TMPER defaults to 15 minutes
RTRV-TH-<MOD2>
MONTYPE defaults to CVL for OCN, EC1, and DSN MONTYPE defaults to ESP for STSp MONTYPE defaults to UASV for VT1 MONTYPE defaults to AISSP for the DS1 layer of the DS3XM card LOCN defaults to NEND TMPER defaults to 15 minutes
SET-PMMODE-<STS_PATH>
PMSTATE defaults to ON
SET-TH-<MOD2>
LOCN defaults to NEND TMPER defaults to 15 minutes
4.1.6 Ports
Table 4-6 Ports Default Values
Ports
Default
OCN Line
DCC defaults to N TMGREF defaults to N SYNCMSG defaults to Y SENDDUS defaults to N PJMON defaults to 0 SFBER defaults to 1E-4 SDBER defaults to 1E-7 MODE defaults to SONET PST defaults to OOS
EC1 Line
PJMON defaults to 0 (zero) LBO defaults to 0-225 RXEQUAL is Y PST defaults to defaults to OOS
T1 Line (DS1/DS1N)
LINECDE defaults to AMI FMT defaults to D4 LBO defaults to 0-133 PST defaults to OOS
T3 Line (DS3, DS3E, DS3NE, DS3XM)
DS3/T3 LINECDE defaults to 0-225 DS3 PST defaults to OOS DS3E/DS3NE FMT defaults to UNFRAMED DS3E/DS3NE LINECDE defaults to B3ZS DS3E/DS3NE LBO defaults to 0-225 DS3 of DS3XM PST defaults to OOS
4.1.7 SONET Line Protection
Table 4-7 SONET Line Protection Default Values
SONET Line Protection
Default
EX-SW-<OCN>
ST (switch type) is optional and for BLSR protection switch only ST defaults to BLSR RING switch type
OCN Line Protection
PROTID defaults to the protecting port of the protection group (SLOT-#(OCN)PORT-#). It is a string that can have a maximum length of 32 characters RVRTV defaults to N (non-revertive mode) RVTM defaults to 5.0 minutes PSDIRN defaults to UNI
OPR-PROTNSW-<OCN>
ST (switch type) is optional and for BLSR protection switch only ST defaults to BLSR RING switch type
4.1.8 STS and VT Paths
Table 4-8 STS and VT Paths Default Values
STS and VT Paths
Default
STS Path
SFBER, SDBER, RVRTV, and RVTM apply to path protection configuration STS paths only SFBER defaults to 1E-4 SDBER defaults to 1E-6 RVRTV defaults to N RVTM defaults to empty because RVRTV is N when path protection configuration STSp is created
J1 is implemented on DS1, DS1N, DS3, DS3E, DS3NE, DS3XM, EC1, OC3, OC48AS AND OC192 cards TRCMODE defaults to the OFF mode
EXPTRC defaults to a copy of the provisioned string or NULL when TRCMODE is OFF mode EXPTRC defaults to the user entered string when the TRCMODE is MANUAL mode EXPTRC defaults to a copy of the acquired received string or NULL if the string has not been acquired when the TRCMODE is AUTO mode
INCTRC defaults to the incoming string (NULL) when the TRCMODE is under OFF mode INCTRC defaults to a copy of the received string or NULL if the string has not been received when the TRCMODE is under MANUAL or AUTO mode
VT Path
RVRTV, RVTM apply to path protection configuration VT paths only RVRTV defaults to N RVTM defaults to empty because RVRTV is N when path protection configuration VT1 is created
4.1.9 Synchronization
Table 4-9 Synchronization Default Values
Synchronization
Default
BITS
LINECDE defaults to B8ZS FMT defaults to ESF SYNCMSG defaults to Y PST defaults to OOS
NE-SYNCN
TMMDE defaults to EXTERNAL SSMGEN defaults to GEN1 QRES defaults to SAME-AS-DUS RVRTV defaults to Y RVTM defaults to 5.0 minutes
SYNCN
PRI/SEC QREF defaults to PRS PRI STATUS defaults to ACT SEC STATUS defaults to STBY THIRD QREF defaults to ST3 STATUS defaults to STBY
4.1.10 Testing
Table 4-10 Testing Default Values
Testing
Default
OPR-LPBK
LPBKTYPE defaults to FACILITY
RLS-LPBK
LPBKTYPE defaults to current existing loopback type
4.2 Modifier Support by Platform
Table 4-11 details the TL1 modifiers supported on the ONS 15454 and ONS 15327 for commands that have carets (< >) in part of their input format; for example, RTRV-<OCN_TYPE>. A "Yes" in the ONS 15454 or ONS 15327 column indicates that a particular modifier is supported in that platform. A "No" in the ONS 15454 or ONS 15327 column indicates that a particular modifier is not supported in that platform. A "—" indicates that a particular modifier is not applicable to that platform.
Table 4-11 Modifier Support
Modifier
ONS 15454
ONS 15327
DS1
Yes
—
EC1
Yes
—
T1
Yes
Yes
T3
Yes
Yes
VT1
Yes
Yes
STS1
Yes
Yes
STS3C
Yes
Yes
STS6C
Yes
Yes
STS9C
Yes
Yes
STS12C
Yes
Yes
STS24C
Yes
Yes
STS48C
Yes
Yes
STS192C
Yes
No
OC3
Yes
Yes
OC12
Yes
Yes
OC48
Yes
Yes
OC192
Yes
No
G1000
Yes
Yes
GIGE
Yes
No
FSTE
Yes
No
POS
Yes
No
E100
Yes
Yes
E1000
Yes
Yes
CLNT
Yes
No
OCH (TXP, MXP)
Yes
No
4.3 Starting Positions for an STS-Mc SPE
Table 4-12, Table 4-13, and Table 4-14 list possible starting positions for Cisco ONS 15454 and Cisco ONS 15327 STS-Mc SPE. In each of the tables a "Y" indicates "Yes, this position is supported" and an "N" indicates, "No, this position is not supported". More information about the generic NE support requirement can be found in GR-253-CORE: Synchronous Optical Network (SONET) Transport Systems: Common Generic Criteria.
Table 4-12 Starting Positions for an STS-Mc SPE in an OC-12 Signal
STS-1 Number
STS-3c SPE
STS-6c SPE
STS-9c SPE
STS-12c SPE
1
Y
Y
Y
Y
4
Y
Y
Y
N
7
Y
Y
N
N
10
Y
N
Y
N
Table 4-13 Starting Positions for an STS-Mc SPE in an OC-48 Signal
STS-1 Number
STS-3c SPE
STS-6c SPE
STS-9c SPE
STS-12c SPE
STS-24c SPE
STS-48c SPE
1
Y
Y
Y
Y
Y
Y
4
Y
Y
Y
N
Y
N
7
Y
Y
N
N
Y
N
10
Y
N
Y
N
Y
N
13
Y
Y
Y
Y
Y
N
16
Y
Y
Y
N
Y
N
19
Y
Y
Y
N
Y
N
22
Y
N
N
N
Y
N
25
Y
Y
Y
Y
Y
N
28
Y
Y
Y
N
N
N
31
Y
Y
N
N
N
N
34
Y
N
N
N
N
N
37
Y
Y
Y
Y
N
N
40
Y
Y
Y
N
N
N
43
Y
Y
N
N
N
N
46
Y
N
Y
N
N
N
Table 4-14 Starting positions for an STS-Mc SPE in an OC-192 Signal
STS-1 Number
STS-3c SPE
STS-6c SPE
STS-9c SPE
STS-12c SPE
STS-24c SPE
STS-48c SPE
STS-192c SPE
1
Y
Y
Y
Y
Y
Y
Y
4
Y
Y
Y
N
N
N
N
7
Y
Y
N
N
N
N
N
10
Y
N
Y
N
N
N
N
13
Y
Y
Y
Y
N
N
N
16
Y
Y
Y
N
N
N
N
19
Y
Y
Y
N
N
N
N
22
Y
N
N
N
N
N
N
25
Y
Y
Y
Y
N
N
N
28
Y
Y
Y
N
N
N
N
31
Y
Y
N
N
N
N
N
34
Y
N
N
N
N
N
N
37
Y
Y
Y
Y
N
N
N
40
Y
Y
Y
N
N
N
N
43
Y
Y
N
N
N
N
N
46
Y
N
Y
N
N
N
N
49
Y
Y
Y
Y
Y
Y
N
52
Y
Y
Y
N
N
N
N
55
Y
Y
Y
N
N
N
N
58
Y
N
N
N
N
N
N
61
Y
Y
Y
Y
N
N
N
64
Y
Y
Y
N
N
N
N
67
Y
Y
N
N
N
N
N
70
Y
N
N
N
N
N
N
73
Y
Y
Y
Y
N
N
N
76
Y
Y
Y
N
N
N
N
79
Y
Y
N
N
N
N
N
82
Y
N
Y
N
N
N
N
85
Y
Y
Y
Y
N
N
N
88
Y
Y
Y
N
N
N
N
91
Y
Y
Y
N
N
N
N
94
Y
N
N
N
N
N
N
97
Y
Y
Y
Y
Y
Y
N
100
Y
Y
Y
N
N
N
N
103
Y
Y
N
N
N
N
N
106
Y
N
N
N
N
N
N
109
Y
Y
Y
Y
N
N
N
112
Y
Y
Y
N
N
N
N
115
Y
Y
N
N
N
N
N
118
Y
N
Y
N
N
N
N
121
Y
Y
Y
Y
N
N
N
124
Y
Y
Y
N
N
N
N
127
Y
Y
Y
N
N
N
N
130
Y
N
N
N
N
N
N
133
Y
Y
Y
Y
N
N
N
136
Y
Y
Y
N
N
N
N
139
Y
Y
N
N
N
N
N
142
Y
N
N
N
N
Y
N
145
Y
Y
Y
Y
Y
N
N
148
Y
Y
Y
N
N
N
N
151
Y
Y
N
N
N
N
N
154
Y
N
Y
N
N
N
N
157
Y
Y
Y
Y
N
N
N
160
Y
Y
Y
N
N
N
N
163
Y
Y
Y
N
N
N
N
166
Y
N
N
N
N
N
N
169
Y
Y
Y
Y
N
N
N
172
Y
Y
Y
N
N
N
N
175
Y
Y
N
N
N
N
N
178
Y
N
N
N
N
N
N
181
Y
Y
Y
Y
N
N
N
184
Y
Y
Y
N
N
N
N
187
Y
Y
N
N
N
N
N
190
Y
N
Y
N
N
N
N
4.4 Access Identifiers
The AID code directs an input command to its intended physical or data entity inside the NE. Equipment modules and facilities are typical examples of entities addressed by the access code.
FAC-{1-6,12-17}-{1-4}Dynamically Allocated STSs STS-{1-4}-1-ALL ALL AID for Optical Cards STS-{1-4}-1-1 STS48c for OC48 STS-{1-4}-1-{1,13,25,37} STS12c for OC48 STS-{1-4}-1-{1,7,13,19,...,43} STS6c for OC48 STS-{1-4}-1-{1,7} STS6c for OC12 STS-{1-4}-1-{1,4,7,10,...,46} STS3c for OC48 STS-{1-4}-1-{1,4,7,10} STS3c for OC3 and OC12 STS-{1-4}-1-{1-12} STS1 for OC3, OC12 STS-{1-4}-1-{1-48} STS1 for OC48 STS-{5-6}-ALL ALL AID for XTC Cards STS-{5-6}-{1} STS1 for XTC-14/XTC-28 DS1 STS-{5-6}-{2-4} STS1 for XTC-28 DS3 VFAC-{1-4}-{1-2}
IP Control Channel AIDs are used to access the IPCC of the UCP.
Table 4-17 IPCC for ONS 15454
Pattern
Description
ALL
Indicates the whole IPCCs of the UCP. The "ALL" AID is used for UCP retrieving command input only. A NULL AID in the IPCCs retrieval command defaults to the ALL AID, which returns all the IPCCs of the node
CC-{1-16}
Indicates individual IPCC of the UCP
4.4.4 NBR
(ONS 15454 only)
UCP neighbor AIDs are used to access the neighbors of the UCP.
Table 4-18 NBR for ONS 15454
Pattern
Description
AAA.BBB.CC.DD
Indicates the UCP neighbor or IP address. It is a character string.
ALL
Indicates the whole neighbors of the UCP. It is used for UCP retrieving command input only.
NBR-{1-16}
Indicates an individual neighbor index (1-16) of the UCP. It is optional in the ENT-UCP-NBR command which returns a neighbor index.
4.4.5 PRSLOT
(ONS 15454 only)
Valid protection slots for the electrical cards
Table 4-19 PRSLOT for ONS 15454
Pattern
Description
NULL
Indicates there is no protection group. Used when trying to delete a protection group.
SLOT-1
The No.1 slot of an NE
SLOT-3
The No.3 slot of an NE
SLOT-5
The No.5 slot of an NE
SLOT-13
The No.13 slot of an NE
SLOT-15
The No.15 slot of an NE
SLOT-17
The No.17 slot of an NE
4.4.6 UCP
(ONS 15454 only)
UCP alarm AID
Table 4-20 UCP for ONS 15454
Pattern
Description
IPCCAID
Indicates UCP Control Channel AIDs, in the type of "CC-CCID"
NBRAID
Indicates UCP Neighbor AIDs, in the type of "CC-NEIGHBORID"
STSAID
Indicates UCP STS Circuit AIDs, in the type of "STS-SLOT#-STS#"
4.4.7 AONS
(ONS 15454 only)
This AID is used to access the automatic optical node setup (AONS) application of the NE.
Table 4-21 AONS for ONS 15454
Pattern
Description
AONS-{W_E,E_W}
Automatic Optical Node Setup identifier (is per ring direction based)
4.4.8 BAND
(ONS 15454 only)
The BAND AID is used to access Optical Multiplex Section (OMS) layer of Optical Network units.
Table 4-22 BAND for ONS 15454
Pattern
Description
BAND-{2-6,12-16}-{1-4}-ALL
All the Channels in a Band OADM (1Bn, 4Bn) units
BAND-{2-6,12-16}-{1-4}-{RX,TX}
The Receive/Transmit Channels in a Band OADM (1Bn, 4Bn) units
BAND-{2-6,12-16}-{1}-ALL
All the Channels in an Optical Multiplexer/Demultiplexer (4Ch) units
BAND-{2-6,12-16}-{1}-{RX,TX}
The Receive/Transmit Channels in an Optical Multiplexer/Demultiplexer (4Ch) units
4.4.9 BITS
4.4.9.1 BITS for ONS 15454
AID for BITS
Table 4-23 BITS for ONS 15454
Pattern
Description
BITS-ALL
BITS AIDS of both BITS-1 and BITS-2 in the RTRV-BITS command
BITS-{1,2}
Individual BITS AID
4.4.9.2 BITS for ONS 15327
AID for BITS
Table 4-24 BITS for ONS 15327
Pattern
Description
BITS-ALL
BITS AIDS of both BITS-1 and BITS-2 in the RTRV-BITS command
BITS-{1,2}
Individual BITS AID
4.4.10 BLSR
4.4.10.1 BLSR for ONS 15454
BLSR AIDs are used to access the specific BLSR of the NE.
Table 4-25 BLSR for ONS 15454
Pattern
Description
ALL
The whole BLSR of the NE
BLSR-ALL
The whole BLSR of the NE
BLSR-{0-9999}
Individual BLSR of the NE
4.4.10.2 BLSR for ONS 15327
BLSR AIDs are used to access the specific BLSR of the NE.
Table 4-26 BLSR for ONS 15327
Pattern
Description
ALL
The whole BLSR of the NE
BLSR-ALL
The whole BLSR of the NE
BLSR-{0-9999}
Individual BLSR of the NE
4.4.11 CHANNEL
(ONS 15454 only)
Accesses the Optical Channels (OCH) layer of Optical Network/Client units.
Table 4-27 CHANNEL Values
CHANNEL Values
Description
CHAN-{1-6,12-17}-ALL
All the Channels of an Optical Transponder/Muxponder
CHAN-{1-6,12-17}-{1-32}-ALL
All the Channels in an Optical Multiplexer/Demultiplexer (32Ch) units
CHAN-{1-6,12-17}-{1-32}-{RX,TX}
The Receive/Transmit Channels in an Optical Multiplexer/Demultiplexer (32Ch) units
CHAN-{1-6,12-17}-{1-4}-ALL
All the Channels in an OADM (1Ch, 2Ch, 4Ch) units and Optical
CHAN-{1-6,12-17}-{1-4}-{RX,TX}
The Receive/Transmit Channels in an OADM (1Ch, 2Ch, 4Ch) units and Optical Multiplexer/Demultiplexer (4Ch) units
CHAN-{1-6,12-17}-{2,3}
A single channel of an Optical Transponder/Muxponder. The TXP uses CHAN-slot-2 for the 1 DWDM Facility.
CHAN-{1-6,12-17}-{2,5}
A single channel of an Optical Transponder/Muxponder. The TXP uses CHAN-slot-2 for the 1 DWDM facility. MXP uses the CHAN-slot-5 for the 1 DWDM facility
4.4.12 COM
4.4.12.1 COM for ONS 15454
Common
Table 4-28 COM for ONS 15454
Pattern
Description
COM
Common
4.4.12.2 COM for ONS 15327
Common
Table 4-29 COM for ONS 15327
Pattern
Description
COM
Common
4.4.13 DS1
(ONS 15454 only)
Used to access the DS-1 frame layer of the DS3XM.
Table 4-30 DS1 for ONS 15454
Pattern
Description
DS1-{1-6,12-17}-{1-6}-{1-28}
DS1 AID for the DX3XM card
4.4.14 ENV
4.4.14.1 ENV for ONS 15454
The environmental AID for the AIC/AICI card
ENV-IN-{1-4}—Environmental AID for AIC Card on the 15454. "IN" is used for Environmental Alarms.
ENV-IN-{1-20}—Environmental AID for AICI Card on the 15454. "IN" is used for Environmental Alarms.
ENV-IN-{1-32}—Environmental AID for AICI Card Extensions on the 15454. "IN" is used for Environmental Alarms.
ENV-IN-ALL—All Environmental Alarm Input contacts
ENV-OUT-{1-4}—Environmental AID for AIC/AICI Card on the 15454. "OUT" is used for Environmental Controls.
ENV-OUT-{1-16}—Environmental AID for AICI Card Extensions on the 15454. "OUT" is used for Environmental Controls.
ENV-OUT-ALL—All Environmental Control Output contacts
Table 4-31 ENV for ONS 15454
Pattern
Description
ENV-IN-ALL
ENV-IN-{1-4} - Environmental aid for AIC/AICI Cards on the 15454. "IN" is used for Environmental Alarms.
ENV-IN-{1-20}
Environmental aid for AICI Card on the 15454. "IN" is used for Environmental Alarms.
Pattern
Description
ENV-IN-{1-32}
Environmental aid for AIC/AICI Cards on the 15454. "IN" is used for Environmental Alarms.
ENV-IN-{1-4}
Environmental aid for AIC Card on the 15454. "IN" is used for Environmental Alarms.
ENV-OUT-ALL
Environmental aid for AIC/AICI Cards on the 15454. "OUT" is used for Environmental Controls.
ENV-OUT-{1-16}
Environmental aid for AICI Extensions on the 15454. "OUT" is used for Environmental Controls.
ENV-OUT-{1-4}
Environmental aid for AIC/AICI Cards on the 15454. "OUT" is used for Environmental Controls.
4.4.14.2 ENV for ONS 15327
The environmental components within the XTC card.
ENV-IN-{1-6}—Environmental aid on the 15327. "IN" is used for Environmental Alarms.
ENV-OUT-{1-2}—Environmental aid on the 15327. "OUT" is used for Environmental Controls.
Table 4-32 ENV for ONS 15327
Pattern
Description
ENV-{IN,OUT}-{1-6}
Environmental alarm AID. "IN" is used for environmental AID, "OUT" is used for control AID.
ENV-IN-{1-6}
Environmental AID for the 15327. "IN" is used for Environmental Alarms.
ENV-OUT-{1-2}
Environmental AID for 15327. "OUT" is used for Environmental Controls.
4.4.15 EQPT
4.4.15.1 EQPT for ONS 15454
Equipment AIDs are used to access specific cards. The OC48/OC192 cards can only use the high speed slots (Slot 5, Slot 6, Slot 12, Slot 13).
Table 4-33 EQPT for ONS 15454
Pattern
Description
AIP
The AID for the AIP. It is used for RTRV-INV output only.
ALL
The ALL AID is only used for the RTRV-INV input command. It reports all of the inventory information of the whole NE: AIP, BP, FAN and SLOT-ALL.
BP
The AID for the backplane. It is used for RTRV-INV output only.
Pattern
Description
FAN
The AID for the fan tray. It is used for RTRV-INV output only.
SLOT-ALL
All of the NE equipment AIDs
SLOT-{1-17}
Individual equipment AID of an NE
SLOT-{1-6,12-17}
Individual equipment AID of the I/O card units or slots
4.4.15.2 EQPT for ONS 15327
Equipment AIDs are used to access specific cards. The I/O cards can only use the I/O slots (Slots 1-4). Slots 5a nd 6 are reserved for the XTC cards and Slots 7 and 8 are reserved for MIC cards.
Table 4-34 EQPT for ONS 15327
Pattern
Description
SLOT-ALL
All of the NE equipment AIDs
SLOT-{1-8}
Individual equipment AID of an NE
4.4.16 FACILITY
4.4.16.1 FACILITY for ONS 15454
Facilities AIDs are used to access specific ports.
Table 4-35 FACILITY for ONS 15454
Pattern
Description
FAC-{1-4,14-17}-{1-8}
Facilities for an OC3-8 card
FAC-{1-6,12-17}-1
Facility AID for the 1 Client (CLNT) Port on a TXP card
FAC-{1-6,12-17}-ALL
All the facilities of an I/O unit or slot
FAC-{1-6,12-17}-{0-11}
Facilities for the Ethernet Front-end ports on the ML100T-12 card. Ports are numbered starting with 0 (i.e. first port is FAC-SLOT-0, second port is FAC-SLOT-1, ..., last port is FAC-SLOT-11 for ML100T-12 and first port is FAC-SLOT-0 and second port is FAC-SLOT-1 for ML1000-2)
FAC-{1-6,12-17}-{0-1}
Facilities for the Ethernet Backend Ports on the ML1000-2 card. Ports are 0-based, (i.e the first port is FAC-SLOT-0 and the second port is FAC-SLOT-1)
FAC-{1-6,12-17}-{1-12}
Facilities AID for the EC1 and DS3 cards
FAC-{1-6,12-17}-{1-14}
Facilities for the DS1 card
FAC-{1-6,12-17}-{1-4}
Facilities for the four-port OC3 card, four-port OC12 card, and G1000-4
FAC-{1-6,12-17}-{1-6}
Facilities for the DS3XM card
FAC-{1-6,12-17}-{1}
Facility AID for the one-port OC12, and OC48AS cards
FAC-{5,6,12,13}-{1}
Facility AID for the OC48/OC192 card. The OC48/OC192 cards can only use the high speed slots (Slot 5, Slot 6, Slot 12, Slot 13).
FAC-{8,10}-{1}
Facility aid for the OSCM card. The OSCM cards can only use the XC slots (Slot-8, Slot-10)
VFAC-{1-6,12-17}-{0-1}
Facilities for the backend POS ports on the ML-series card. Port numbering is 0-based (i.e. the first POS port is VFAC-SLOT-0, the second POS port is VFAC-SLOT-1)
4.4.16.2 FACILITY for ONS 15327
Facilities AIDs are used to access specific ports.
Table 4-36 FACILITY for ONS 15327
Pattern
Description
FAC-{1-6}-ALL
All the facilities of an I/O unit or slot
FAC-{5-6}-{1-28}
Facilities AID for the DS1 on the XTC card
FAC-{5-6}-{1-3}
Facilities AID for the DS3 on the XTC card
FAC-{1-4}-{1}
Facilities AID for the OC12 and OC48 cards
FAC-{1-4}-{2}
Facilities aid for the G1000-2 card
FAC-{1-4}-{1-4}
Facilities AID for the OC3 card
4.4.17 LINE
(ONS 15454 only)
The LINE AID is used to access the Optical Transport Section (OTS) layer of optical network units.
Table 4-37 LINE Values
LINE Values
Description
LINE-{1-6,12-17}-{1-2}-ALL
All the Lines in a OPT-PRE, OCS-CSM, AD-1B, AD-4B, AD-1C, AD-2C, AD-4C units
LINE-{1-6,12-17}-{1-2}-{RX,TX}
The receive/transmit Lines in a OPT-PRE, OCS-CSM, AD-1B, AD-4B, AD-1C, AD-2C, AD-4C units
LINE-{1-6,12-17}-{1-3}-ALL
All the Lines in a OPT-BST units
LINE-{1-6,12-17}-{1-3}-{RX,TX}
The receive/transmit Lines in a OPT-BST units
LINE-{8,10}-{1}-ALL
All the Channels in an Optical Multiplexer/Demultiplexer (32Ch) units
LINE-{8,10}-{1}-{RX,TX}
The receive/transmit Channels in an Optical Multiplexer/Demultiplexer (32Ch) units
4.4.18 OSC
(ONS 15454 only)
OSC AIDs are used to access the OSC' of the NE
Table 4-38 OSC Values
OSC Values
Description
ALL
Indicates the whole OSCs of the NE
OSC-{1-9999}
Individual OSC of the NE
4.4.19 RFILE
4.4.19.1 RFILE for ONS 15454
(ONS 15454 only)
File transfer type
Table 4-39 RFILE for ONS 15454
Pattern
Description
RFILE-DB
Transferring the system database
RFILE-PKG
Transferring a software package
4.4.20 STS
4.4.20.1 STS for ONS 15454
SONET frame-level AID set
Table 4-40 STS for ONS 15454
Pattern
Description
FAC-{1-6,12-17}-{1-4}
Dynamically allocated STSs of all widths for the G1000-4 card
STS-{1-4,14-17}-{1-4}-1
STS12C AIDS for a 4-port OC12 card
STS-{1-4,14-17}-{1-4}-ALL
All the STSs for a 4-port OC12 card
STS-{1-4,14-17}-{1-4}- {1,4,7,10}
STS3C for a 4-port OC12 card
STS-{1-4,14-17}-{1-4}-{1,4,7}
STS6C AIDs for a 4-port OC12
STS-{1-4,14-17}-{1-4}-{1-3}
STS1 AID for a 4-port OC3 card
STS-{1-4,14-17}-{1-8}-1
STS3C for an 8-port OC3 card
STS-{1-4,14-17}-{1-8}-ALL
All the STSs for an 8-port OC3 card
STS-{1-4,14-17}-{1-8}-{1-3}
STS1 AID for an 8-port OC3 card
STS-{1-6,12-17}-1
STS1 AID for a DS1 card
STS-{1-6,12-17}-1-1
STS12C AID for a 1-port OC12 card STS48C AID for an OC48AS card
STS-{1-6,12-17}-1-ALL
All the STSs of an STS bandwidth on a single port optical card
STS-{1-6,12-17}-1-{1,13,25,37}
STS12C AIDs for an OC48AS card
STS-{1-6,12-17}-{1,4,10,13,16,19,25,28,37,40}
STS9C AID for an OC48AS card
STS-{1-6,12-17}-1-{1,4,7,10,13,16,19,22,25}
STS24C AID for an OC48AS card
STS-{1-6,12-17}-1-{1,4,7,10-46}
STS3C AID for an OC48AS card
STS-{1-6,12-17}-1-{1,4,7,10}
STS3C for a 1-port OC12 card
STS-{1-6,12-17}-1-{1,4,7,13,16,19,25,28,37,40,43}
STS6C AID for an OC48AS card
STS-{1-6,12-17}-1-{1,4,7}
STS6C AID for an OC12 card
STS-{1-6,12-17}-1-{1,4}
STS9C AID for a 1-port OC12 card
STS-{1-6,12-17}-1-{1-12}
STS1 AID for a 1-port OC12 card
STS-{1-6,12-17}-1-{1-48}
STS1 AID for an OC48AS card
STS-{1-6,12-17}-ALL
All the STSs for an STS1 bandwidth on any electrical card
STS-{1-6,12-17}-{1-12}
STS1 AID for EC1 and DS2 cards
STS-{1-6,12-17}-{1-4}-1
STS3C AID for a 4-port OC3 card
STS-{1-6,12-17}-{1-4}-ALL
All the STSs for a 4-port OC3 card
STS-{1-6,12-17}-{1-4}-{1,4,7}
STS6C AID for a 4-port OC12 card
STS-{1-6,12-17}-{1-4}-{1,4}
STS9C AID for a 4-port OC12 card
STS-{1-6,12-17}-{1-4}-{1-12}
STS1 AID for a 4-port OC12 card
STS-{1-6,12-17}-{1-6}
STS1 AID for a DS3XM card
STS-{5,6,12,13}-1-1
STS48C AID for an OC48 card STS192 AID for an OC192 card
STS-{5,6,12,13}-1-{1,13,25,37-180}
STS12C AID for an OC192 card
STS-{5,6,12,13}-1-{1,13,25,37}
STS12C AIDs for an OC48 card
STS-{5,6,12,13}-1-{1,4,7,10,13,16,19,22,25}
STS24C AID for an OC48 card
STS-{5,6,12,13}-1-{1,4,7,10-190}
STS3C for an OC192 card
STS-{5,6,12,13}-1-{1,4,7,10-46}
STS3C AID for an OC48 card
STS-{5,6,12,13}-1-{1,4,7,13,16,19,25,28,37,40,43}
STS6C AID for an OC48 card
STS-{5,6,12,13}-1-{1,49,97,145}
STS48C AID for an OC192 card
STS-{5,6,12,13}-1-{1-192}
STS1 AID for an OC192 card
STS-{5,6,12,13}-1-{1-48}
STS1 AID for an OC48 card
VFAC-{1-6,12-17}-{0-1}
Virtual facility AIDs for the ML-series cards back end POS ports. Both the ML1000-2 and ML100T-12 have two POS ports and are 0-based.
4.4.20.2 STS for ONS 15327
SONET frame-level AID set
Table 4-41 STS for ONS 15327
Pattern
Description
FAC-{1-4}-{1-2}
Dynamically allocated STSs of all widths for the G1000-2 card
STS-{1-4}-1--ALL
All the STSs of an STS bandwidth on an optical card
STS-{1-4}-{1}
STS48C AID for an OC48 card STS12C for an OC12 card
STS-{1-4}-1-{1,13,25,37}
STS12C AID for an OC48 card
STS-{1-4}-1-{1,7,13,19,...43}
STS6C AID for an OC48 card
STS-{1-4}-1-{1,7}
STS6C AID for an OC12 card
STS-{1-4}-1-{1,4,7,10,...,46}
STS3C AID for an OC48 card
STS-{1-4}-1-{1,4,7,10}
STS3C AID for an OC3 and OC12 card
STS-{1-4}-1-{1-12}
STS1 AID for an OC3 and OC12 card
STS-{1-4}-1-{1-48}
STS1 AID for an OC48 card
STS-{5-6}-ALL
All the STSs of an STS bandwidth on an XTC card
STS-{5-6}-{1}
STS1 AID for the DS1 in an XTC card
STS-{5-6}-{2-4}
STS1 AID for the DS3 in an XTC-28 card
VFAC-{1-4}-{1-2}
Dynamically allocated STSs of all widths for the back end ports of M3000-1 and M300T-8 cards.
4.4.21 SYN
4.4.21.1 SYN for ONS 15454
Synchronization AIDs
Table 4-42 SYN for ONS 15454
Pattern
Description
SYNC-NE
NE sync AID
4.4.21.2 SYN for ONS 15327
Synchronization AIDs
Table 4-43 SYN for ONS 15327
Pattern
Description
SYNC-NE
NE sync AID
4.4.22 SYN_SRC
4.4.22.1 SYN_SRC for ONS 15454
Synchronization source
Table 4-44 SYN_SRC for ONS 15454
Pattern
Description
BITS-1
Sync source is BITS-1
BITS-2
Sync source is BITS-2
FAC-{1-6,12-17}-{1-4}
Sync source is the optical card (four-port OC3 and four-port OC12) facility
FAC-{1-6,12-17}-{1}
Sync source is the optical card (one-port OC12 and OC48AS) facility
FAC-{5,6,12,13}-{1}
Sync source is the optical card (OC48,OC192) facility
INTERNAL
Set the SYN_SRC to be the system default value. The "Internal" value of the SYN_SRC is only applied for the SYNC-NE AID on the ED-SYNCN command.
NONE
Set the SYNC_SRC value to the default value for BITS-OUT. The "NONE" value of SYNC_SRC only applies to the BITS-1 and BITS-2 AID of the ED-SYNCN command.
SYNC-NE
SYNC-NE source. It is only used for BITS-OUT in line timing mode.
4.4.22.2 SYN_SRC for ONS 15327
Synchronization source
Table 4-45 SYN_SRC for ONS 15327
Pattern
Description
FAC-{1-4}-{1-4}
Sync source is the optical card (OC3) facility
FAC-{1-4}-{1}
Sync source is the optical card (OC12, OC48) facility
INTERNAL
Set the SYN_SRC to be the system default value. The "Internal" value of the SYN_SRC is only applied for the SYNC-NE AID on the ED-SYNCN command.
SYNC-NE
SYNC-NE source. It is only used in the alarm report or alarm retrieve commands.
{BITS-1,BITS-2}
BITS-1 or BITS-2 of the synchronization source
4.4.23 SYNC_REF
4.4.23.1 SYNC_REF for ONS 15454
Synchronization AIDs
Table 4-46 SYNC_REF for ONS 15454
Pattern
Description
ALL
Equivalent to a combination of SYNC-ALL, BITS-1 and BITS-2. This AID is valid only for the commands RTRV-ALM-SYNCN and RTRV-COND-SYNCN
SYNC-ALL
NE, BITS1 and BITS2 sync AIDs used for the RTRV-SYNCN command only
SYNC-NE
NE sync AID
SYNC-{BITS1,BITS2}
BITS1 and BITS2 sync AIDs
4.4.23.2 SYNC_REF for ONS 15327
Synchronization AIDs
Table 4-47 SYNC_REF for ONS 15327
Pattern
Description
SYNC-ALL
NE, BITS1 and BITS2 sync AIDs used for the RTRV-SYNCN command only
SYNC-NE
NE sync AID
SYNC-{BITS1,BITS2}
BITS1 and BITS2 sync AIDs
4.4.24 SYNCSW
4.4.24.1 SYNCSW for ONS 15454
New synchronization reference that will be used
Table 4-48 SYNCSW for ONS 15454
Pattern
Description
INT
Internal clock. The "INT" value of the syncsw is only applied for the SYNC-NE AID on the OPR-SYNCSW command.
PRI
Primary timing reference
SEC
Secondary timing reference
THIRD
Third timing reference
4.4.24.2 SYNCSW for ONS 15327
New synchronization reference that will be used
Table 4-49 SYNCSW for ONS 15327
Pattern
Description
INT
Internal clock. The "INT" value of the syncsw is only applied for the SYNC-NE AID on the OPR-SYNC-SW command.
PRI
Primary timing reference
SEC
Secondary timing reference
THIRD
Third timing reference
4.4.25 TACC
(ONS 15454 only)
Test access AID which indicates the TAP number
Table 4-50 TACC for ONS 15454
Pattern
Description
{0, 1-999}
Indicates individual TAP number of the NE. The zero (0) TAP number is used in the [<TACC>] field of the ED-rr test access related commands. When [<TACC>] is zero (0), the TAP is deleted.
4.4.26 TAP
(ONS 15327 only)
Test access AID which indicates the TAP number
Table 4-51 TACC for ONS 15327
Pattern
Description
{0, 1-999}
Indicates individual TAP number of the NE. The zero (0) TAP number is used in the [<TACC>] field of the ED-rr test access related commands. When [<TACC>] is zero (0), the TAP is deleted.
4.4.27 UDC
(ONS 15454 only)
UDC AIDs for F-UDC and DCC-UDC channels on the AICI card
Table 4-52 UDC for ONS 15454
Pattern
Description
UDC-{F,DCC}-{A,B}
F-UDC and DCC-UDC AIDs for A and B channels
4.4.28 VT1_5
4.4.28.1 VT1_5 for ONS 15454
Virtual termination AIDs
Table 4-53 VT1_5 for ONS 15454
Pattern
Description
VT1-{1-4,14-17}-{1-8}-{1-3}-{1-7}-{1-4}
8-port OC3 card
VT1-{1-6,12-17}-1-{1-12}-{1-7}-{1-4}
1-port OC12 card
VT1-{1-6,12-17}-1-{1-48}-{1-7}-{1-4}
OC48AS card
VT1-{1-6,12-17}-1-{1-7}-{1-2}
DS1 card
VT1-{1-6,12-17}-{1-12}-1-{1-7}-{1-4}
EC1 card
VT1-{1-6,12-17}-{1-4}-{1-12}-{1-7}-{1-4}
4-port OC12 card
VT1-{1-6,12-17}-{1-4}-{1-3}-{1-7}-{1-4}
4-port OC3 card
VT1-{1-6,12-17}-{1-6}-{1-7}-{1-4}
DS3XM card
VT1-{5,6,12,13}-1-{1-192}-{1-7}-{1-4}
OC192 Card
VT1-{5,6,12,13}-1-{1-48}-{1-7}-{1-4}
OC48 card
4.4.28.2 VT1_5 for ONS 15327
Virtual termination AIDs
Table 4-54 VT1_5 for ONS 15327
Pattern
Description
ALL
All the VT cross-connections of the NE. This <ALL> AID is only used for the RTRV-CRS-VT1 command.
VT1-{5-6}-1-{1-7}-{1-2}
XTC-14 card VT aid set
VT1-{5-6}-1-{1-7}-{1-4
XTC-28 card VT aid set
VT1-{1-4}-1-{1-12}-{1-7}-{1-4}
OC3 and OC12 card VT AID set
VT1-{1-4}-1-{1-48}-{1-7}-{1-4}
OC48 card Vt aid set
4.5 Parameter Types
This section provides a description of all message parameter types defined for the TL1 messages used in the ONS 15454 and ONS 15327. The TL1 message descriptions frequently refer to this section.
4.5.1 ATAG Description
The ATAG is used for message sequencing. There are three streams of autonomous messages and each stream corresponds to a sequence. The sequence numbers increment by one for each autonomous message within that stream. The format of ATAG differs for each stream. The three streams are:
1. Alarmed events:
These include REPT ALM and REPT EVT messages as well as the REPT SW autonomous message.
ATAG Format: x.y where x - sequence number of this alarmed event. This is an integer in the range of 0-9999. y - sequence number of the previous alarmed event which is related to this alarmed event. This is an integer in the range of 0-9999.
If there is no such previous related event, then y will be the same as x. For example, the first time an alarm is raised you will receive the autonomous message:
This sequence number is global across all existing PM schedules.
4.5.2 CTAG Description
The correlation tag (CTAG) is included in each command by the user and is repeated by the NE in the response to allow the user to associate the command and response messages.
Note The valid values for a CTAG are strings of up to 6 characters comprised of identifiers (alphanumeric, beginning with a letter) or decimal numerals (a string of decimal digits with an optional non-trailing ".").
4.5.3 TID Description
The TID is the name of the NE where the command is addressed. TID is the Telcordia name for the system.
4.5.4 Parameter Notes
1. If a parameter is set to a value that is inconsistent with something already in the database, and that value is not changed to a consistent value then the command will be denied.
2. If a parameter is set to a value that is consistent with what is already in the database, but another parameter in the same command is incompatible, then the command will be denied.
3. The correct way to issue a command where parameters may be in conflict is to:
a. First issue that command and change all relevant parameters to compatible values,
b. Then issue the command again to change the target values.
For example, OC-N is syncmsg=y, to change SDH to y, ED-OCN needs to be called to set syncmsg=N, then called again to set SDH=y.
4. The attribute defaults have also been presented under RTRV commands, and they can be retrieved only if the RTRV commands follow the card/entity original provision.
5. The default for an optional field of an ED command is either the provisioned default value or the last provisioned value in the previous ED command.
4.5.5 ALL_MONTYPE
Monitoring type list
Table 4-55 ALL_MONTYPE Values
ALL_MONTYPE Values
Description
AISSP
Alarm Indication Signal Seconds - Path
BBE-PM
OTN - Background Block Errors - Path Monitor Point
BBE-SM
OTN - Background Block Errors - Section Monitor Point
BBER-PM
OTN - Background Block Error Ratio - Path Monitor Point expressed as 1/10th of a percentage.
BBER-SM
OTN - Background Block Error Ratio - Section Monitor Point expressed as 1/10th of a percentage.
BIEC
FEC - Bit Errors Corrected
CGV
8B10B - Code Group Violations
CVCPP
Coding Violations - CP-Bit Path
CVL
Coding Violations - Line
CVP
Coding Violations - Path
CVS
Coding Violations - Section
CVV
Coding Violations - Section
ES-PM
OTN - Errored Seconds - Path Monitor Point
ES-SM
OTN - Errored Seconds - Section Monitor Point
ESCPP
Errored Seconds - CP- Bit Path
ESL
Errored Seconds - Line
ESP
Errored Seconds - Path
ESR
Errored Second - Ratio
ESR-PM
Errored Seconds Ratio - Path monitor Point expressed as 1/10th of a percentage
ESR-SM
Errored Seconds Ratio - Section monitor Point expressed as 1/10th of a percentage
ESS
Errored Seconds - Section
ESV
Errored Seconds - VT Path
FC-PM
OTN - Failure Count - Path Monitor Point
FC-SM
OTN - Failure Count - Section Monitor Point
FCP
Failure Count - Line
LAT-AVG
Average Laser Temperature current in 1/256 degrees Celsius
LAT-HIGH
Laser Temperature in 1/256 degrees Celsius Measured range [-40.000 C, 125.000 C]
LAT-LOW
Laser Temperature in 1/256 degrees Celsius Measured range [-40.000 C, 125.000 C]
LAT-MAX
Maximum Laser Temperature in 1/256 degrees Celsius Measured range [-40.000 C, 125.000 C]
LAT-MIN
Minimum Laser Temperature in 1/256 degrees Celsius Measured range [-40.000 C, 125.000 C]
LBCL-AVG
Average Laser Bias current in uA
LBCL-HIGH
High Laser Bias current in uA
LBCL-LOW
Low Laser Bias current in uA
LBCL-MAX
Max Laser Bias current in uA
LBCL-MIN
Minimum Laser Bias current in uA
LOSSL
Loss of Signal Seconds - Line
NPJC-PDET
PPJC-PDET:Negative Pointer Justification
NPJC-PGEN
PPJC-PGEN:Negative Pointer Justification
OBED
FEC - One Bit Errors Detected
OPR-AVG
Average Receive Power in 1/10 uW
OPR-HIGH
Receive power in 1/10 uW Measured value [-40.0 dBm,+30.0 dBm]
OPR-LOW
Receive power in 1/10 uW Measured value [-40.0 dBm,+30.0 dBm]
OPR-MAX
Maximum Receive Power in 1/10 uW
OPR-MIN
Minimum Receive Power in 1/10 uW
OPT-AVG
Average Transmit Power in 1/10 uW
OPT-HIGH
Transmit power in 1/10 uW. Measured value [-40.0 dBm,+30.0 dBm]
OPT-LOW
Transmit power in 1/10 uW. Measured value[-40.0 dBm,+30.0 dBm]
OPT-MAX
Maximum Transmit Power in 1/10 uW
OPT-MIN
Minimum Transmit Power in 1/10uW
OPWR-AVG
Optical Power - Average Interval Value in 1/10th of dBm
OPWR-MAX
Optical Power - Maximum Interval Value in 1/10th of dBm
OPWR-MIN
Optical Power - Minimum Interval Value in 1/10th of dBm
PPJC-PDET
PPJC-PDET:Positive Pointer Justification
PPJC-PGEN
PPJC-PGEN:Positive Pointer Justification
PSC
Protection Switching Count
PSC-R
Protection Switching Count - Ring
PSC-S
Protection Switching Count - Span
PSC-W
Protection Switching Count - Working
PSD
Protection Switching Duration
PSD-R
Protection Switching Duration - Ring
PSD-S
Protection Switching Duration - Span
PSD-W
Protection Switching Duration - Working
RXT-AVG
Average Receiver Temperature
RXT-HIGH
High Alarm Threshold level for Receiver Temperature
RXT-LOW
Low Alarm Threshold level for Receiver Temperature Measured range [-40.000 C,125.000 C]
RXT-MAX
Receiver Temperature Max PM value Measured range [-40.000 C, 125.000 C]
RXT-MIN
Receiver Temperature Min PM value Measured range [-40.000 C, 125.000 C]
SASCPP
Severely Errored Framing/AIS Second - CP-Bit Path
SASP
Severely Errored Framing/AIS Seconds Path
SEFS
Severely Errored Framing Seconds
SES-PM
OTN - Severely Errored Second - Path
SES-SM
OTN - Severely Errored Second - Section Monitor Point
SESCPP
Severely Errored Second - CP-Bit Path
SESL
Severely Errored Second - Line
SESP
Severely Errored Second - Path
SESR-PM
OTN - Severely Errored Second Ratio - Path Monitor Point expressed as 1/10th of a percentage
SESR-SM
OTN - Severely Errored Second Ratio - Section Monitor Point expressed as 1/10th of a percentage
SESS
Severely Errored Second - Section
SESV
Severely Errored Second - VT Path
UAS-PM
OTN - Unavailable Second - Path Monitor Point
UAS-SM
OTN - Unavailable Second - Section Monitor Point
UASCPP
Unavailable Second - CP-Bit Path
UASL
Unavailable Second - Line
UASP
Unavailable Second - Path
UASV
Unavailable Second - VT Path
UCW
FEC - Uncorrectable Words
ZBED
FEC - Zero Bit Errors Detected
4.5.6 ALL_THR
Threshold list
Table 4-56 ALL_THR Value
ALL_THR Values
Description
T-AISSP
Alarm Indication Signal Seconds - Path
T-BBE-PM
OTN TCA. Background Block Errors - Path Monitor Point
T-BBE-SM
OTN TCA. Background Block Errors - Section Monitor Point
T-BBEHP
Background Block Errors - High Order Path
T-BBEL
Background Block Errors - Line
T-BBELP
Background Block Errors - Low Order Path (VC3/VC12)
T-BBEM
Background Block Errors- Multiplex Section
T-BBEP
Background Block Errors - High Order Path
T-BBEPR
Background Block Errors
T-BBER
Background Block Errors - Regenerator Section
T-BBER-PM
Background Block Errors - Path Level OTN
T-BBER-SM
Background Block Errors - Section Level OTN
T-BBER-TCM1
Background Block Errors - Tandem1 Level OTN
T-BBER-TCM2
Background Block Errors - Tandem2 Level OTN
T-BBERS
Background Block Errors - Regenerator Section
T-BBESR
Background Block Errors
T-BBEV
Background Block Errors
T-BIEC
FEC TCA. Bit Errors Corrected
T-BYEC
FEC TCA. Byte Errors Corrected
T-CSS
Controlled Slipped Seconds
T-CVCPP
Coding Violations - CP-Bit Path
T-CVL
Coding Violations - Line
T-CVP
Coding Violations - Path
T-CVS
Coding Violations - Section
T-CVV
Coding Violations - VT Path
T-EBHP
EB - High Order Path
T-EBLP
EB Low Order Path VC3/VC12
T-EBMS
EB Multiplex Section
T-EBP
EB Line Path
T-EBRS
EB Regenerator Section
T-ES-PM
OTN TCA. Errored Seconds - Path Monitor Point
T-ES-SM
OTN TCA. Errored Seconds - Section Monitor Point
T-ESCPP
Errored Seconds - CP-Bit Path
T-ESHP
ED High Order Path VC4/VC4-nc
T-ESL
Errored Seconds - Line
T-ESLP
ES Low Order PAth VC3/VC12
T-ESMS
ES Multiplex Section
T-ESP
Errored Seconds - Path
T-ESR
ES - Regenerator Section
T-ESR-PM
ES - Regenerator Section - Path Level OTN
T-ESR-SM
ES - Regenerator Section - Section Level OTN
T-ESR-TCM1
ES - Regenerator Section - Tandem1 Level OTN
T-ESR-TCM2
ES - Regenerator Section - Tandem2 Level OTN
T-ESRS
ES Regenerator Section
T-ESS
Errored Seconds - Section
T-ESV
Errored Seconds - VT Path
T-FC-PM
OTN TCA. Failure Count - Path Monitor Point
T-FC-SM
OTN TCA. Failure Count - Section Monitor Point
T-FCHP
FC High Order Path
T-FCLP
FC Low Order Path
T-FCMS
FC Multiplex Section
T-FCP
Failure Count - Line
T-HOPWR
Optical Power - High Threshold crossed in 1/10th of dBm
T-LAT-HWT
Laser Level TCA. Laser Temperature in 1/256 degrees Celsius. Low/High Warning Threshold
T-LAT-LWT
Laser Level TCA. Laser Temperature in 1/256 degrees Celsius. Low/High Warning Threshold
T-LBCL-HWT
Laser Level TCA. Laser Bias current in uA. Low/High Warning Threshold
T-LBCL-LWT
Laser Level TCA. Laser Bias current in uA. Low/High Warning Threshold
T-LOPWR
Optical Power - Low Threshold crossed in 1/10th of dBm
T-LOSSL
Loss of Signal Seconds - Line
T-OBED
FEC TCA. One Bit Errors Detected
T-OPR-HWT
Laser Level TCA. Receive power in 1/10 uW. Low/High Warning Threshold
T-OPR-LWT
Laser Level TCA. Receive power in 1/10 uW. Low/High Warning Threshold
T-OPT-HWT
Laser Level TCA. Transmit power in 1/10 uW. Low/High Warning Threshold
T-OPT-LWT
Laser Level TCA. Transmit power in 1/10 uW. Low/High Warning Threshold
T-PJ-DET
Pointer Justification Detected
T-PJ-DIFF
Pointer Justification Diff
T-PJ-GEN
Pointer Justification Generated
T-PJNEG
PPJC-PDET:Negative Pointer Justification
T-PJNEG-GEN
PPJC-PGEN:Negative Pointer Justification
T-PJPOS
PPJC-PDET:Positive Pointer Justification
T-PJPOS-GEN
PPJC-PGEN:Positive Pointer Justification
T-PSC
Protection Switching Count
T-PSC-R
Protection Switching Count
T-PSC-S
Protection Switching Count
T-PSC-W
Protection Switching Count
T-PSD
Protection Switching Duration
T-PSD-R
Protection Switching Duration
T-PSD-S
Protection Switching Duration
T-PSD-W
Protection Switching Duration
T-RX-TEMP-MAX
Receiver Temperature Max TCA (applicable to MXP/TXP cards)
T-RXT-HWT
Receiver Temperature High Warning TCA
T-RXT-LWT
Receiver Temperature Low Warning TCA
T-SASCPP
Severely Errored Framing/AIS Second - CP-Bit Path
T-SASP
Severely Errored Framing/AIS Seconds
T-SEFS
Severely Errored Framing Seconds
T-SEFSRS
SEFRS
T-SES-PM
OTN TCA. Severely Errored Second - Path Monitor Point
T-SES-SM
OTN TCA. Severely Errored Second - Section Monitor Point
T-SESCPP
Severely Errored Second - CP-Bit Path
T-SESHP
SES High Order Path
T-SESL
Severely Errored Second - Line
T-SESLP
SES Low Order Path
T-SESMS
SES Multiplex Section
T-SESP
Severely Errored Second - Path
T-SESR-PM
SESR - Path Level OTN
T-SESR-SM
SESR - Section Level OTN
T-SESR-TCM1
SESR - Tandem1 Level OTN
T-SESR-TCM2
SESR - Tandem2 Level OTN
T-SESRS
SES Regeneration Section
T-SESS
Severely Errored Second - Section
T-SESV
Severely Errored Second - VT Path
T-UAS-PM
OTN TCA. Unavailable Second - Path Monitor Point
T-UAS-SM
OTN TCA. Unavailable Second - Path Monitor Point
T-UASCPP
Unavailable Second - CP-Bit Path
T-UASHP
UA High Order Path
T-UASL
Unavailable Second - Line
T-UASLP
UA Low Order Path
T-UASMS
UA Multiplex Section
T-UASP
Unavailable Second - Path
T-UASV
Unavailable Second - VT Path
T-UCW
FEC TCA. UnCorrectable Words
T-ZBED
FEC TCA. Zero Bit Errors Detected
4.5.7 ALM_THR
Alarm Threshold list for MXP/TXP cards.
Table 4-57 ALM_THR Values
ALS_THR Values
Description
LAT-HIGH
Laser Temperature in 1/256 degrees Celsius Measured range [-40.000 C, 125.000 C]
LAT-LOW
Laser Temperature in 1/256 degrees Celsius Measured range [-40.000 C, 125.000 C]
LBCL-HIGH
Laser Bias current in uA as 1/10% High Warning Threshold, Low Warning Threshold Measured value [0.0%, 100.0%]
LBCL-LOW
Laser Bias current in uA as 1/10% High Warning Threshold, Low Warning Threshold Measured value [0.0%, 100.0%]
OPR-HIGH
Receive power in 1/10 uW Measured value [-40.0 dBm,+30.0 dBm]
OPR-LOW
Receive power in 1/10 uW Measured value [-40.0 dBm,+30.0 dBm
OPT-HIGH
Transmit power in 1/10 uW. Measured value [-40.0 dBm,+30.0 dBm]
OPT-LOW
Transmit power in 1/10 uW. Measured value [-40.0 dBm,+30.0 dBm]
RXT-HIGH
Receiver Temperature High Alarm Threshold Measured range [-40.000 C, 125.000 C]
RXT-LOW
Receiver Temperature Low Alarm Threshold Measured range [-40.000 C, 125.000 C]
T-GAIN-HDEG
Gain not reached - High Degrade Threshold. It is in 1/10th of dB
T-GAIN-HFAIL
Gain not reached - Low Failure Threshold. It is in 1/10th of dB
T-GAIN-LDEG
Gain not reached - Low Degrade Threshold. It is in 1/10th of dB
T-GAIN-LFAIL
Gain not reached - Low Failure Threshold. It is in 1/10th of dB
T-OPWR-HDEG
Optical Power - High Degrade Threshold. It is in 1/10th of dBm
T-OPWR-HFAIL
Optical Power - High Failure Threshold. It is in 1/10th of dBm
T-OPWR-LDEG
Optical Power - Low Degrade Threshold. It is in 1/10th of dBm
T-OPWR-LFAIL
Optical Power - Low Failure Threshold. It is in 1/10th of dBm
T-VOA-HDEG
VOA Attenuation - High Degrade Threshold. It is in 1/10th of dB
T-VOA-HFAIL
VOA Attenuation - High Failure Threshold. It is in 1/10th of dB
T-VOA-LDEG
VOA Attenuation - Low Degrade Threshold. It is in 1/10th of dB
T-VOA-LFAIL
VOA Attenuation - Low Failure Threshold. It is in 1/10th of dB
XCVR-HIGH
Transceiver voltage in 1/10 mV Measure value [0.0 mV, 10000.0 mV]
XCVR-LOW
Transceiver voltage in 1/10 mV Measure value [0.0 mV, 10000.0 mV]
4.5.8 ALS_CFG
Specifies the type of check for ALS detection mode
Table 4-58 ALS_CFG Values
ALS_CFG Values
Description
ALL
The ALS is applied checking all the received signals (Line + OSC)
OSC
The ALS is applied checking only the received OSC signal
RX
The ALS is applied checking only the received Line signal
4.5.9 ALS_MODE
This type specifies the working mode for the Automatic Laser Shutdown (ALS) functionality.
Table 4-59 ALS_MODE Values
ALS_MODE Values
Description
AUTO
Automatic
DISABLED
Disabled
MAN
Manual
MAN-RESTART
Manual Restart for Test
4.5.10 ALS_RESTART
Automatic Laser Shutdown for the G1000 card
Table 4-60 ALS_RESTART Values
ALS_RESTART Values
Description
AUTO_RESTART
Automatic Laser Shutdown Automatic Restart
MAN_RESTART
Automatic Laser Shutdown Manual Restart
MAN_TEST_RESTART
Automatic Laser Shutdown Restart Test
4.5.11 AMPL_MODE
Defines the Amplifier control mode
Table 4-61 AMPL_MODE Values
AMPL_MODE Values
Description
GAIN
The Amplifier always maintains a fixed Gain
POWER
The Amplifier maintains the Output Power to a fixed value
4.5.12 AWG_STATUS
AWG status list
Table 4-62 AWG_STATUS Values
AWG_STATUS Values
Description
ON
The AWG is on
WARM-UP
The AWG is warming up
4.5.13 BITS_LineBuildOut
BITS Line buildout
Table 4-63 BITS_LineBuildOut Values
BITS_LineBuildOut Values
Description
0-133
BITS line buildout range is 0-133
134-266
BITS line buildout range is 134-266
267-399
BITS line buildout range is 267-399
400-533
BITS line buildout range is 400-533
534-655
BITS line buildout range is 534-655
4.5.14 BLSR_MODE
BLSR mode
Table 4-64 BLSR_MODE Values
BLSR_MODE Values
Description
2F
Two fiber BLSR
4F
Four fiber BLSR
4.5.15 BLSR_PTH_STATE
Indicates the BLSR path state only if the port is on the BLSR
Table 4-65 BLSR_PTH_STATE Values
BLSR_PTH_STATE Values
Description
PCAPTHACT
Indicates the BLSR ring un-switched and its PCA path is in the active state
PCAPTHSTB
Indicates the BLSR ring switched and its PCA path is in the standby state
PROTPTHACT
Indicates the BLSR ring switched and its protection path is in the active state
WKGPTHACT
Indicates the BLSR ring un-switched and its working path is in the active state
WKGPTHSTB
Indicates the BLSR ring switched and its working path is in the standby state
4.5.16 BLSR_PTH_TYPE
Indicates the BLSR path TYPE only if the port is on the BLSR
Table 4-66 BLSR_PTH_TYPE Values
BLSR_PTH_TYPE Values
Description
NON-PCA
Indicates the AID is on the working path, or the XC created protection path
PCA
Indicates the AID is on the BLSR PCA path
4.5.17 BLSR_TYPE
BLSR type of an OCN port
Table 4-67 BLSR_TYPE Values
BLSR_TYPE Values
Description
EASTPROT
Identifies that the OCN port is an east protecting port
EASTWORK
Identifies that the OCN port is an east working port
WESTPROT
Identifies that the OCN port is a west protecting port
WESTWORK
Identifies that the OCN port is a west working port
4.5.18 C2_BYTE
Indicates C2 byte Hex Code
Table 4-68 C2_BTYE Values
C2_BYTE Values
Description
0X00
Unequipped
0X01
Equipped-Non Specific payload
0X02
VT-Structured STS-1 SPE
0X03
Locked VT Mode
0X04
Asynchronous Mapping for DS3
0X12
Asynchronous Mapping for DS4NA
0X13
Mapping for ATM
0X14
Mapping for DQDB
0X15
Asynchronous Mapping for FDDI
0X16
HDLC-Over-SONET Mapping
0XE1
VT-structured STS-1 SPE with 1VTx payload defect
0XE2
VT-structured STS-1 SPE with 2VTx payload defects
0XE3
VT-structured STS-1 SPE with 3VTx payload defects
0XE4
VT-structured STS-1 SPE with 4VTx payload defects
0XE5
VT-structured STS-1 SPE with 5VTx payload defects
0XE6
VT-structured STS-1 SPE with 6VTx payload defects
0XE7
VT-structured STS-1 SPE with 7VTx payload defects
0XE8
VT-structured STS-1 SPE with 8VTx payload defects
0XE9
VT-structured STS-1 SPE with 9VTx payload defects
0XEA
VT-structured STS-1 SPE with 10VTx payload defects
0XEB
VT-structured STS-1 SPE with 11VTx payload defects
0XEC
VT-structured STS-1 SPE with 12VTx payload defects
0XED
VT-structured STS-1 SPE with 13VTx payload defects
0XEE
VT-structured STS-1 SPE with 14VTx payload defects
0XEF
VT-structured STS-1 SPE with 15VTx payload defects
0XF0
VT-structured STS-1 SPE with 16VTx payload defects
0XF1
VT-structured STS-1 SPE with 17VTx payload defects
0XF2
VT-structured STS-1 SPE with 18VTx payload defects
0XF3
VT-structured STS-1 SPE with 19VTx payload defects
0XF4
VT-structured STS-1 SPE with 20VTx payload defects
0XF5
VT-structured STS-1 SPE with 21VTx payload defects
0XF6
VT-structured STS-1 SPE with 22VTx payload defects
0XF7
VT-structured STS-1 SPE with 23VTx payload defects
0XF8
VT-structured STS-1 SPE with 24VTx payload defects
0XF9
VT-structured STS-1 SPE with 25VTx payload defects
0XFA
VT-structured STS-1 SPE with 26VTx payload defects
0XFB
VT-structured STS-1 SPE with 27VTx payload defects
0XFC
VT-structured STS-1 SPE with 28VTx payload defects
0XFE
O.181 Test Signal (TSS1 to TSS3) Mapping
0XFF
Reserved, however, C2 is 0XFF if AIS-L is being generated by an optical card or cross-connect downstream
4.5.19 CCT
Defines the type of cross-connect to be created
Table 4-69 CCT Values
CCT Values
Description
1WAY
A unidirectional connection from a source tributary to a destination tributary
1WAYDC
Path Protection configuration mcast drop with (1-way) continue
1WAYEN
Path Protection configuration mcast end node (1-way continue)
1WAYMON
A bidirectional connection between the two tributaries
Note Starting with ONS 15454 R3.0 and ONS 15327 R3.3, 1WAYMON is not supported with TL1. However, it is still supported from CTC. Using CTC you can create 1WAYMON cross-connects and can be retrieved via TL1.
1WAYPCA
A unidirectional connection from a source tributary to a destination tributary on the protection path/fiber
2WAY
A bidirectional connection between the two tributaries
2WAYDC
A Bidirectional Drop and Continue connection applicable only to path protection configuration Traditional and Integrated Dual Ring InterConnections
2WAYPCA
A bidirectional connection between the two tributaries on the extra protection path/fiber
4.5.20 CIRCUIT_SIZE
The DWDM circuit size used on a wavelength.
Table 4-70 CIRCUIT_SIZE Values
CIRCUIT_SIZE Values
Description
10G_FEC
The circuit size is 10 Gbit/sec with FEC
10G_NO_FEC
The circuit size is 10 Gbit/sec without FEC
2G5_FEC
The circuit size is 2.5 Gbit/sec with FEC
2G5_NO_FEC
The circuit size is 2.5 Gbit/sec without FEC
MULTI_RATE
The circuit size support multi rate
NOT_SPEC
The circuit size is Equipment not specific
4.5.21 CMD_MODE
Command mode is used to force the system to execute a given command regardless of any standing conditions. Normal mode is the default behavior for all commands but the user may specify FRCD to force the system to override a state in which the command would normally be denied.
Table 4-71 CMD_MODE Values
CMD_MODE Values
Description
FRCD
Force the system to override a state in which the command would normally be denied
NORM
Execute the command normally. Do not override any conditions that may make the command fail.
4.5.22 COMM_TYPE
The out of band communications channel termination type
Table 4-72 COMM_TYPE Values
COMM_TYPE Values
Description
DCC
Section DCC type
GCC
Generic Communication Channel (OTN) Type
NONE
Disable DCC or GCC if enabled
4.5.23 COND_EFF
The affected unit's condition
Table 4-73 COND_EFF Values
COND_EFF Values
Description
CL
Standing condition cleared
SC
Standing condition raised
TC
Transient condition
4.5.24 CONDITION
The condition type of the alarm indication
Table 4-74 CONDITION Values
CONDITION Values
Description
8B10B-OOSYNC
8B10B Out Of Sync
ACOMAN
Alarm cutoff is in manual mode
AIS
External failure - Incoming - Alarm Indication Signal
AIS-L
External failure - Incoming - Alarm Indication Signal - Line
AIS-P
External failure - Incoming - Alarm Indication Signal - Path
The Alarm Interface Controller Card is an optional card which expands system management capabilities for the customer defined alarm I/O and orderwire functionality
AICI
The AICI card
AIP
The Alarm Indicator Panel
ALM-PWR
Alarm Power
BP
The Backplane of the NE
CRFT-TMG
Craft Timing
DCC
The Data Communications Channel
DMX-32
Optical De/Multiplexed (DMX) 32 Channels
DS1-14
A 14 port interface card supporting DS1 facilities
DS1N-14
A 14 port interface card supporting DS1 facilities
DS3-12
A 12 port interface card supporting DS3 facilities
DS3-3
A 3 port interface card supporting DS3 facilities
DS3ATM-12
A 12 port interface card supporting DS3 ATM facilities
DS3CR-12
Cost reduced DS3
DS3E-12
A 12 port interface card supporting DS3E facilities
DS3NE-12
A 12 port interface card supporting DS3E facilities
DS3N-12
A 12 port interface card supporting DS3 facilities
DS3XM-6
An interface card that converts six framed DS-3 network connections to 28x6 or 168 VT1.5s
E1000T-2
A 2 port interface card supporting 1000 Base T Ethernet facilities
E100T-12
A 12 port interface card supporting 100 Base T Ethernet facilities
E100T-4
A four port interface card supporting 100 Base T Ethernet facilities.
EC1-12
A 12 port interface card supporting EC1 facilities
FTA
The Fan Tray of the NE
FTA1
The Fan Tray 1 of the NE
FTA2
The Fan Tray 2 of the NE
G1000-4
A four port G1000 card
MIC-28-3-A
ONS 15327 MIC card A
MIC-28-3-B
ONS 15327 MIC card B
MIC-EXT
ONS 15327 MIC card
MIC-GEN
ONS 15327 MIC card
MUX-32
Optical Multiplexed (MUX) 32 Channels
MXP-2.5G-10G
10G (4 * 2.5G) Muxponder Card
OC12
An interface card that supports one or more OC-12 (622Mbs) optical facilities
OC12-327
ONS 15327 OC12 card
OC12-4
A four port OC12 card
OC12-IR-1
An interface card that supports one intermediate range OC-12 (622Mbs) optical facilities
OC12-LR-1
An interface card that supports one long range OC-12 (622Mbs) optical facilities
OC12-SR-1
An interface card that supports one short range OC-12 (622Mbs) optical facilities
OC192-LR-1
An interface card that supports one or more OC-192 optical facilities
OC3
An interface card that supports multiple OC-3 (155Mbs) optical facilities
OC3-327
ONS 15327 OC3 card
OC3-IR-4
An interface card that supports four intermediate range OC-3 (155Mbs) optical facilities
OC3-SR-4
An interface card that supports four short range OC-3 (155Mbs) optical facilities
OC3ATM-IR-6
An interface card that supports six intermediate range OC-3 (155Mbs) ATM optical fibers
OC3IR-STM1SH- 1310-8
An OC3 card which has 8 ports over the lower speed slot of the ONS 15454 with XC10G/192
OC3POS-SR-4
An interface card that supports four short range OC-3 (155Mbs) POS optical facilities
OC48
An interface card that supports one or more OC-48 (10Gbs) optical facilities
OC48-327
ONS 15327 OC48 card
OC48-AS-1
An interface card that supports one short range OC-48 (10Gbs) optical facilities that can be provisioned in any I/O slot
OC48-ELR-1
An interface card that supports one short range OC-48 (2.5Gbs) optical facility
OC48-IR-1
An interface card that supports one intermediate range OC-48 (10Gbs) optical facility
OC48-LR-1
An interface card that supports one long range OC-48 (10Gbs) optical facility
OC48-SR-1
An interface card that supports one short range OC-48 (10Gbs) optical facilities
OPT-BST
Optical Booster Amplifier
OPT-PRE
Optical Pre-Amplifier
OSC-CSM
Optical Service Channel (OSC) with Combiner/Separator Module (SCM)
Optical Service Channel (OSC) with Combiner/Separator Module (SCM)
OSCM
Optical Service Channel (OSC) Module
TCC
TCC card
TXP-MR-10G
10G Multirate Transponder Card
XC
XC card
XC10G
XC10G card
XCVT
XCVT card
XTC
ONS 15327 XTC card
4.5.41 ETHER_DUPLEX
Duplex mode
Table 4-91 ETHER_DUPLEX Values
ETHER_DUPLEX Values
Description
AUTO
Auto mode
FULL
Full mode
HALF
Half mode
4.5.42 ETHER_SPEED
Ethernet speed
Table 4-92 ETHER_SPEED Values
ETHER_SPEED Values
Description
100_MBPS
100 Mbps
10_GBPS
10 Gbps
10_MBPS
10 Mbps
1_GBPS
1 Gbps
AUTO
Auto
4.5.43 EXP
Indicates whether the user's password is about to expire.
Table 4-93 EXP Values
EXP Values
Description
NO
The password is not about to expire.
YES
The password is about to expire.
4.5.44 EXT_RING
Indicates if the ring supports the extended K1/K2/K3 protocol
Table 4-94 EXT_RING Values
EXT_RING Values
Description
N
Indicates the Ring does not support the extended K1/K2/K3 protocol
Y
Indicates the Ring does support the extended K1/K2/K3 protocol
4.5.45 FIBER_TYPE
The type of the system (fiber) connected to a port.
Table 4-95 FIBER_TYPE Values
FIBER_TYPE Values
Description
SMF-28
SMF-28 system type
4.5.46 FLOW
Indicates the type of flow control that has been negotiated for an Ethernet port
Table 4-96 FLOW Values
FLOW Values
Description
ASYMMETRIC
Asymmetric flow control
ASYMMETRIC_LOCAL
Asymmetric local flow control
NONE
No flow control
SYMMETRIC
Symmetric flow control
4.5.47 FRAME_FORMAT
The frame format for a T1 port
Table 4-97 FRAME_FORMAT Values
FRAME_FORMAT Values
Description
D4
Frame format is D4
ESF
Frame format is ESF
UNFRAMED
Frame format is unframed
4.5.48 GCCRATE
The data rate of the GCC traffic
Table 4-98 GCCRATE Values
GCCRATE Values
Description
192K
192 Kbps
576K
576 Kbps
4.5.49 HEATER_STATUS
Heater status list.
Table 4-99 HEATER_STATUS Values
HEATER_STATUS Values
Description
OFF
The heater is off
ON
The heater is on
4.5.50 INH_MODE
Indicates whether the function is inhibited
Table 4-100 INH_MODE Values
INH_MODE Values
Description
ALW
Function is allowed
INH
Function is inhibited
4.5.51 LASER_STATUS
Defines the laser status
Table 4-101 LASER_STATUS Values
LASER_STATUS Values
Description
APR
The Laser is switched on but is working Automatic Power Reduction
OFF
The Laser is switched off
ON
The Laser is switched on
4.5.52 LINE_BUILDOUT
Line buildout
Table 4-102 LINE_BUILDOUT Values
LINE_BUILDOUT Values
Description
0-131
Line buildout range is 0-131
132-262
Line buildout range is 132-262
263-393
Line buildout range is 263-393
394-524
Line buildout range is 394-524
525-655
Line buildout range is 525-655
4.5.53 LINE_CODE
Line code
Table 4-103 LINE_CODE Values
LINE_CODE Values
Description
AMI
Line code value is AMI
B8ZS
Line code value is B8ZS (Bipolar with Three-Zero Substitution)
4.5.54 LOCATION
Identifies the location where the action is to take place
Table 4-104 LOCATION Values
LOCATION Values
Description
FEND
Action occurs on the Far End of the facility
NEND
Action occurs on the Near End of the facility
4.5.55 LPBK_TYPE
Indicates the type of loopback that is to be operated or released
Table 4-105 LPBK_TYPE Values
LPBK_TYPE Values
Description
CRS
A path level loopback which is established at the cross-connect matrix level (the XC card). An STS level cross-connect loopback causes an AIS-P to be sent on the outgoing direction of transmission
FACILITY
A type of loopback that connects the incoming received signal immediately following the optical-to-electrical conversion (after descrambling) to the associated transmitter in the return direction
TERMINAL
A loopback that connects the signal that is about to be transmitted (after scrambling but before the electrical-to-optical conversion) is connected to the associated, incoming receiver
4.5.56 MFS_TYPE
Indicates the maximum frame size used by an Ethernet card
Table 4-106 MFS_TYPE Values
MFS_TYPE Values
Description
1548
Normal frame size
JUMBO
Jumbo frame size
4.5.57 MOD2
Line/Path Modifier
Table 4-107 MOD2 Values
MOD2 Values
Description
CLNT
Client facility for MXP/TXP cards
DS1
DS1 line of a DS3XM card
EC1
EC1 facility
G1000
G1000 Facility
OC3
OC3 facility
OC12
OC12 facility
OC48
OC48 facility
OC192
OC192 facility
OCH
Optical channel
OMS
Optical Multiplex Section
OTS
Optical Transport Section
STS1
STS1 path
STS3C
STS3C path
STS6C
STS6C path
STS9C
STS9C path
STS12C
STS12C path
STS48C
STS48C path
STS192C
STS192C path
T1
T1/DS1 facility/line
T3
T3/DS3 facility/line
VT1
VT1_5 path
4.5.58 MOD2_IO
Facility/Line Modifier
Table 4-108 MOD2_IO Values
MOD2_IO Values
Description
CLNT
Client facility for MXP/TXP cards
DS1
DS1 line of a DS3XM card
EC1
EC1 facility
G1000
G1000 facility
OC3
OC3 facility
OC12
OC12 facility
OC48
OC48 facility
OC192
OC192 facility
OCH
Optical channel facility for MXP/TXP cards
OMS
Optical multiplexing section
OTS
Optical Transport Section
T1
T1/DS1 facility
T3
T3/DS3 facility
4.5.59 MOD2ALM
Alarm type for certain generic TL1 commands
Table 4-109 MOD2ALM Values
MOD2ALM Values
Description
CLNT
Client facility for MXP/TXP cards
DS1
DS1 alarm
E100
E100 alarm
E1000
E1000 alarm
EC1
EC1 alarm
FSTE
Fast Ethernet Port alarm
G1000
G1000 alarm
GIGE
GIG Ethernet Port alarm
OC3
OC3 alarm
OC12
OC12 alarm
OC48
OC48 alarm
OC192
OC192 alarm
OCH
Optical channel
OMS
Optical Multiplex Section
OTS
Optical Transport Section
POS
POS port alarm
STS1
STS alarm
STS3C
STS alarm
STS6C
STS alarm
STS9C
STS alarm
STS12C
STS alarm
STS48C
STS alarm
STS192C
STS alarm
T1
T1 alarm
T3
T3 alarm
UDCDCC
UDCDCC Alarm
UDCF
UCDF Alarm
VT1
VT1 alarm
4.5.60 MOD2B
Alarm type for certain generic TL1 commands
Table 4-110 MOD2B Values
MOD2B Values
Description
BITS
BITS alarm
CLNT
Client facility for MXP/TXP cards
COM
Common alarm
DS1
DS1 alarm
E100
E100 alarm
E1000
E1000 alarm
EC1
EC1 alarm
ENV
ENV alarm
EQPT
EQPT alarm
FSTE
FSTE alarm
G1000
G1000 alarm
GIGE
GIGE alarm
MIC
MIC alarm (ONS 15327)
MIC-EXT
MIC-EXT Alarm (ONS 15327)
OC3
OC3 alarm
OC12
OC12 alarm
OC48
OC48 alarm
OC192
OC192 alarm
OCH
Optical channel
OMS
Optical Multiplex Section
OTS
Optical Transport Section
POS
POS alarm
STS1
STS alarm
STS3C
STS alarm
STS6C
STS alarm
STS9C
STS alarm
STS12C
STS alarm
STS24C
STS alarm
STS48C
STS alarm
STS192C
STS Alarm
SYNCN
SYNCN alarm
T1
T1 alarm
T3
T3 alarm
TCC
TCC alarm
UCP
UCP Alarm
VT1
VT alarm
XTC
ONS 15327 XTC Alarm
4.5.61 MOD2O
MXP/TXP facility types
Table 4-111 MOD2O Values
MOD2O Values
Description
OCH
Optical Channel
OMS
Optical Multiplexer Section
OTS
Optical Trace Section
4.5.62 MOD_PATH
STS/VT Path Modifier
Table 4-112 MOD_PATH Values
MOD_PATH Values
Description
STS1
STS1 path
STS3C
STS3C path
STS6C
STS6C path
STS9C
STS9C path
STS12C
STS12C path
STS24C
STS 24C path
STS48C
STS48C path
STS192
STS192C path
VT1
VT1_5 path
4.5.63 MOD_PORT
Move from MOD2_IO without DS1
Table 4-113 MOD_PORT Values
MOD_PORT Values
Description
EC1
EC1 port
G1000
G1000 port
OC3
OC3 port
OC12
OC12 port
OC48
OC48 port
OC192
OC192 port
T1
T1/DS1 port
T3
T3/DS3 port
4.5.64 MOD_TACC
Test Access Modifier
Table 4-114 MOD_TACC Values
MOD_TACC Values
Description
DS1
DS1 line of a DS3XM card
STS1
STS1 path
STS3C
STS3C path
STS6C
STS6C path
STS9C
STS9C path
STS12C
STS12C path
STS24C
STS24C path
STS48C
STS48C path
STS192C
STS192C path
T1
T1/DS1 facility/line
T3
T3/DS3 facility/line
VT1
VT1_5 path
4.5.65 MODULE_OP
Module operation mode
Table 4-115 MOD_OP Values
MODULE_OP Values
Description
CLR
Clear switch operation mode
LOCKDX
Lock duplex switch operation mode
LOCKPRT
Lock switch to protection operation mode
LOCKWKG
Lock switch to working operation mode
RST
Reset operation mode
SWITCHDX
Switch duplex operation mode
SWITCHPRT
Switch to protection operation mode
SWITCHWKG
Switch to working operation mode
UNLOCKDX
Unlock duplex switch operation mode
UNLOCKPRT
Unlock switch to protection operation mode
UNLOCKWKG
Unlock switch to working operation mode
UPGRADE
Upgrade operation mode
4.5.66 MSGTYPE
Type of trace message
Table 4-116 MSGTYPE Values
MSGTYPE Values
Description
EXPTRC
Expected incoming Path trace message
INCTRC
Incoming Path trace message
TRC
Outgoing Path trace message
4.5.67 MUX_TYPE
BLSR Extension Byte
Table 4-117 MUX_TYPE Values
MUX_TYPE Values
Description
E2
E2 Byte (orderwire)
F1
F1 Byte (user)
K3
K3 Byte
Z2
Z2 Byte
4.5.68 NOTIF_CODE
The 2-character Notification Code associated with an autonomous message
Table 4-118 NOTIF_CODE Values
NOTIF_CODE Values
Description
CL
The condition causing the alarm has Cleared
CR
A Critical alarm
MJ
A Major alarm
MN
A Minor alarm
NA
The condition is Not Alarmed
NR
The alarm is not reported
4.5.69 OCN_BLSR
Modifier used to differentiate the various levels of OC-N in BLSR
Table 4-119 OCN_BLSR Values
OCN_BLSR Values
Description
OC12
Optical Carrier level-12 (662Mbs)
OC48
Optical Carrier level-48 (2.4Gbs)
OC192
Optical Carrier level-192 (10Gbs)
4.5.70 OCN_MONTYPE
OCN monitor type
Table 4-120 OCN_MONTYPE Values
OCN_MONTYPE Values
Description
CVL
Coding Violation - Line
ESL
Errored Second - Line
PJNEG
PPJC-PDET:Negative Pointer Justification
PJPOS
PPJC-PFEN:Negative Pointer Justification
PSC
Protection Switching Count
PSD
Protection Switching Duration
SEFS
Severely Errored Framing Seconds
UASL
Unavailable Second -Line
4.5.71 OCN_TYPE
Modifier used to differentiate the various levels of OC-N in the ENT/ED/DLT/RTRV commands
Table 4-121 OCN_TYPE Values
OCN_TYPE Values
Description
OC3
Optical Carrier level-3 (155Mbs)
OC12
Optical Carrier level-12 (622Mbs)
OC48
Optical Carrier level-48 (2.4Gbs)
OC192
Optical Carrier level-192 (10Gbs)
4.5.72 ON_OFF
Disable or Enable an attribute
Table 4-122 ON_OFF Values
ON_OFF Values
Description
N
Disable the attribute
Y
Enable the attribute
4.5.73 OPTICAL_BAND
Defines the Optical Band
Table 4-123 OPTICAL_BAND Values
OPTICAL_BAND Values
Description
1530.33-1532.68
Band 1
1534.25-1536.61
Band 2
1538.19-1540.56
Band 3
1542.14-1544.53
Band 4
1546.12-1548.51
Band 5
1550.12-1552.52
Band 6
1554.13-1556.55
Band 7
1558.17-1560.61
Band 8
UNKNOWN
The band is not yet configured/retrieved from unit
4.5.74 OPTICAL_LINK_TYPE
The type of the Optical Link between two optical facilities
Table 4-124 OPTICAL_LINK_TYPE Values
OPTICAL_LINK_TYPE Values
Description
ADD-DROP
Link between two points that result in an add/drop connection from a Drop point to an Add point
HITLESS
Link between two OMS points that result in a hitless connection from a Drop point to an Add point of a consecutive Band/Channel Filter
OTS
Link between two OTS points
4.5.75 OPTICAL_MODE
The facility optical mode
Table 4-125 OPTICAL_MODE Values
OPTICAL_MODE Values
Description
SDH
The SDH optical mode the European format
SONET
The SONET optical mode the American format
4.5.76 OPTICAL_PORT_TYPE
Qualifies the optical port of a card
Table 4-126 OPTICAL_PORT_TYPE Values
OPTICAL_PORT_TYPE Values
Description
ADD
The signal is added to the port
DROP
The signal is dropped from the port
IN
The signal has entered the card
IN-EXP
Express channel that continues the signal from the previous card
OUT
The signal exit from the card
OUT-EXP
Express channel that continues the signal to the next card
4.5.77 OPTICAL_WLEN
The Optical Wavelength
Table 4-127 OPTICAL_WLEN Values
OPTICAL_WLEN Values
Description
1530.33
Wavelength 1
1531.12
Wavelength 2
1531.90
Wavelength 3
1532.68
Wavelength 4
1534.25
Wavelength 5
1535.04
Wavelength 6
1535.82
Wavelength 7
1536.61
Wavelength 8
1538.19
Wavelength 9
1538.98
Wavelength 10
1539.77
Wavelength 11
1540.56
Wavelength 12
1542.14
Wavelength 13
1542.94
Wavelength 14
1543.73
Wavelength 15
1544.53
Wavelength 16
1546.12
Wavelength 17
1546.92
Wavelength 18
1547.72
Wavelength 19
1548.51
Wavelength 20
1550.12
Wavelength 21
1550.92
Wavelength 22
1551.72
Wavelength 23
1552.52
Wavelength 24
1554.13
Wavelength 25
1554.94
Wavelength 26
1555.75
Wavelength 27
1556.55
Wavelength 28
1558.17
Wavelength 29
1558.98
Wavelength 30
1559.79
Wavelength 31
1560.61
Wavelength 32
USE-TWL1
Use Tunable Wavelength 1
4.5.78 OPTICS
The type of Gigabyte Ethernet optics being used
Table 4-128 OPTICS Values
OPTICS Values
Description
1000_BASE_LX
1000 Base LX
1000_BASE_SX
1000 Base SX
1000_BASE_ZX
1000 Base ZX
COPPER
Copper
CWDM
CWDM
DWDM
DWDM
IR
Intermediate Reach
LR
Long Reach
SR
Short Reach
UNKNOWN
Unknown Optical Type
UNPLUGGED
Unplugged
VLR
VLR
4.5.79 PAYLOAD
Identifies payload type
Table 4-129 PAYLOAD Values
PAYLOAD Values
Description
10GE
10GigE Payload Mode
SDH
SDH Payload Mode
SONET
SONET Payload Mode
4.5.80 PM_MODE
Identifies the type of PM parameters. Only P type is supported.
Table 4-130 PM_MODE Values
PM_MODE Values
Description
I
Transport Intermediate Node PM parameters
L
Transport Line PM parameters
NONE
No PM parameters are being stored for the entity
P
Transport Path PM parameters
S
Transport Section PM parameters
SEG
Transport Path Segment PM parameters (e.g., ISDN BRA)
4.5.81 PM_STATE
Directs the named PM mode type - path (P) state
Table 4-131 PM_STATE Values
PM_STATE Values
Description
OFF
Disable the mode
ON
Enable the mode
4.5.82 PRIVILEGE
Security level
Table 4-132 PRIVILEGE Values
PRIVILEGE Values
Description
MAINT
Maintenance security level
PROV
Provisioning security level
RTRV
Retrieve security level
SUPER
Superuser security level
4.5.83 PRODUCT_TYPE
Product (NE) type
Table 4-133 PRODUCT_TYPE Values
PRODUCT_TYPE Values
Description
15327
Cisco ONS 15327 NE
15454
Cisco ONS 15454 NE
UNKNOWN
Unknown product type
4.5.84 PROTECTION_GROUP
Protection group type
Table 4-134 PROTECTION_GROUP Values
PROTECTION_GROUP Values
Description
1-1
1 to 1 protection group
1-N
1 to N protection group
4.5.85 PROTTYPE
Protection type for DWDM Client facilities
Table 4-135 PROTTYPE Values
PROTTYPE Values
Description
Y-CABLE
Y Cable Protection for the Client Ports on MXP/TXP cards
4.5.86 PST
Primary State. This parameter indicates the current overall service condition of an entity.
Table 4-136 PST Values
PST Values
Description
IS
In-service
OOS
Out-of-Service
4.5.87 RDIRN_MODE
This type specifies the Optical Ring directionality
Table 4-137 RDIRN_MODE Values
RDIRN_MODE Values
Description
E-W
The direction of the signal is from east to west (or clockwise)
W-E
The direction of the signal is from west to east (or counterclockwise)
4.5.88 REVERTIVE_TIME
Revertive time
Table 4-138 REVERTIVE_TIME Values
REVERTIVE_TIME Values
Description
0.5 - 12.0
Revertive time is 0.5 to 12.0 minutes
4.5.89 SD_BER
The threshold for declaring Signal Degrade on a facility or path
Table 4-139 SD_BER Values
SD_BER Values
Description
1E-5-1E-9
SDBER is the 1E-5-1E-9
4.5.90 SDCC_MODE
Enables or disables the Section Data Communications Channel (SDCC) for the specified facility
Table 4-140 SDCC_MODE Values
SDCC_MODE Values
Description
N
Section Data Communications Channel is disabled for this facility
Y
Section Data Communications Channel is enabled for this facility
4.5.91 SERV_EFF
Indicates the effect of the alarm on service
Table 4-141 SERV_EFF Values
SERV_EFF Values
Description
NSA
The condition is Non-Service Affecting
SA
The condition is Service Affecting
4.5.92 SF_BER
The threshold for declaring Signal Failure on a facility or path
Table 4-142 SF_BER Values
SF_BER Values
Description
1E-3-1E-5
SFBER is the 1E-3-1E-5
4.5.93 SIDE
The role the unit is playing in the protection group
Table 4-143 SIDE Values
SIDE Values
Description
PROT
The entity is the protection unit in the protection group
WORK
The entity is a working unit in the protection group
4.5.94 SST
Secondary State. This parameter provides additional information pertaining to PST and PSTQ. Values for this state included here are a subset of the list in the GR document.
Table 4-144 SST Values
SST Values
Description
AINS
Out of service, auto in service
MT
Out of service, maintenance mode
4.5.95 STATUS
The status of the unit in the protection pair, either Active or Standby.
Table 4-145 STATUS Values
STATUS Values
Description
ACT
The entity is the active unit on the shelf
NA
Status is unavailable
STBY
The entity is the standby unit on the shelf
4.5.96 STM_TYPE
The Synchronous Transport Mode of the NE
Table 4-146 STM_TYPE Values
STM_TYPE Values
Description
SDH
The NE is operating in Synchronous Digital Hierarchy mode
SONET
The NE is operating in Synchronous Optical Network mode
4.5.97 STS_MONTYPE
STS Monitor Type
Table 4-147 STS_MONTYPE Values
STS_MONTYPE Values
Description
CVP
Coding Violation - P
ESP
Errored Second - Path
SESP
Severely Errored Second - Path
UASP
Unavailable Second - Path
4.5.98 STS_PATH
Modifier for some of the STS commands. This table does not include STS for the RTRV-CRS command, because STS is not a standard designator.
Table 4-148 STS_PATH Values
STS_PATH Values
Description
STS1
Synchronous Transport Signal level-1 (51 Mbs)
STS3C
Synchronous Transport Signal level-3 Concatenated (155 Mbs)
STS6C
Synchronous Transport Signal level-6 Concatenated (310 Mbs)
STS9C
Synchronous Transport Signal level-9 Concatenated (465 Mbs)
STS12C
Synchronous Transport Signal level-12 Concatenated (622 Mbs)
STS24C
Synchronous Transport Signal level-24 Concatenated (1240 Mbs)
STS48C
Synchronous Transport Signal level-48 Concatenated (2488 Mbs)
STS192C
Synchronous Transport Signal level-192 (9952 Mbs)
4.5.99 SW
The type of switch to be initiated
Table 4-149 SW Values
SW Values
Description
APS-CLEAR
APS-CLEAR switch state. It is a read only switch state, and is not allowed in the OPR-PROTNSW-xxx commands.
CLEAR
CLEAR switch state. This switch state is not allowed in the OPR-PROTNSW-xxx commands.
EXERCISE
EXERCISE switch state. This switch state is not allowed in the OPR-PROTNSW-XXX commands.
FRCD
Force a switch unless another FRCD or LOCKOUT is in effect.
LOCKOUT
Locks the facility out of switching. The system cannot switch to the protect facility to carry service.
MAN
Requests a manual switch of the facility
4.5.100 SWITCH_TYPE
BLSR Switch Type
Table 4-150 SWITCH_TYPE Values
SW_TYPE Values
Description
FRCDWKSWBK
Working unit forced to switch back to working
FRCDWKSWPR
Working unit forced to switch to the protection unit
LOCKOUTOFPR
Lockout of protection
LOCKOUTOFWK
Lockout of working
MANWKSWBK
Manual switch of working unit back to working
MANWKSWPR
Manual switch of working unit back to the protection unit
RING
BLSR ring switch type
SPAN
BLSR span switch type
4.5.101 SYNC_CLOCK_REF_QUALITY_LEVEL
Clock Source Quality Level
Table 4-151 SYNC_CLOCK_REF_QUALITY_LEVEL Values
SYNC_CLOCK_REF_QUALITY_LEVEL Values
Description
DUS
Don't Use for Synchronization
PRS
Primary Reference Source, Stratum 1 Traceable
RES
Reserved for network synchronization use
SMC
SONET Minimum Clock Traceable
ST2
Stratum 2 Traceable
ST3
Stratum 3 Traceable
ST3E
Stratum 3E Traceable (2nd generation only)
ST4
Stratum 4 Traceable
STU
Synchronized, Traceability Unknown
TNC
Transit Node Clock (2nd generation only)
4.5.102 SYNC_GENERATION
Synchronization status message set generation
Table 4-152 SYNC_GENERATION Values
SYNC_GENERATION Values
Description
GEN1
First generation SSM set
GEN2
Second generation SSM set
4.5.103 SYNC_QUALITY_LEVEL
Reserved for network synchronization quality level
Table 4-153 SYNC_QUALITY_LEVEL Values
SYNC_QUALITY_LEVEL Values
Description for Generation-1
ABOVE-PRS
Better than Primary Reference Source. Valid setting for Generation-1 and Generation-2 SSM set
ABOVE-SMC
Between SMC and ST3. Valid setting for Generation-1 and Generation-2 SSM set
ABOVE-ST2
Between ST2 and STU. Valid setting for Generation-1 and Generation-2 SSM set
ABOVE-ST3
For Generation-1 SSM set, between ST3 and ST2. For Generation-2 SSM set, between ST3 and ST3E
ABOVE-ST3E
Between ST3E and TNC. Valid setting only for Generation-2 SSM set
ABOVE-ST4
Between ST4 and ST3. Valid setting for Generation-1 and Generation-2 SSM set
ABOVE-STU
Between STU and PRS. Valid setting for Generation-1 and Generation-2 SSM set
ABOVE-TNC
Between TNC and ST2. Valid setting only for Generation-2 SSM set
ABOVE-SMC
Between SMC and ST3
BELOW-ST4
Below ST4 but still usable. Valid setting for Generation-1 and Generation-2 SSM set
SAME-AS-DUS
Disable the RES message by equating it to DUS. Valid setting for Generation-1 and Generation-2 SSM set
4.5.104 SYNC_GENERATION
Synchronization status message set generation
Table 4-154 SYNC_GENERATION Values
SYNC_GENERATION Values
Description
GEN1
First generation SSM set
GEN2
Second generation SSM set
4.5.105 SYS_TYPE
The type of the system representing the fiber and the span length that connects two nodes.
Table 4-155 SYS_TYPE Values
SYS_TYPE
Description
SMF-28-LR
SMF-28 system type, long reach
SMF-28-MR
SMF-28 system type, medium reach
SMF-28-SR
SMF-28 system type, short reach
4.5.106 T1_MONTYPE
T1 monitor type
Table 4-156 T1_MONTYPE Values
T1_MONTYPE Values
Description
CVL
Coding Violation - Line
CVP
Coding Violation - Path
ESL
Errored Second - Line
SASP
Severely Errored Framing/AIS Seconds
SESL
Severely Errored Second - Line
SESP
Severely Errored Second - Path
UASP
Unavailable Second - Path
4.5.107 T3_MONTYPE
T3 monitor type
Table 4-157 T3_MONTYPE Values
T3_MONTYPE Values
Description
CVL
Coding Violation - Line
ESL
Errored Second - Line
SESL
Severely Errored Second - Line
4.5.108 TACC_MODE
Test access mode
Table 4-158 TACC_MODE Values
TACC_MODE Values
Description
LOOPE
Indicates to split both the A and B paths, connect the line incoming from E direction to the line outgoing in the E direction, and connect this looped configuration to the FAD. The line outgoing in the F direction shall have a QRS connected, and the line incoming from the F direction shall be terminated by the nominal characteristic impedance of the line.
LOOPF
Indicates to split both the A and B paths, connect the line incoming from F direction to the line outgoing in the F direction, and connect this looped configuration to the FAD. The line outgoing in the E direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line.
MONE
Indicates that a monitor connection is to be provided from the FAD to the A transmission path of the accessed circuit.
MONEF
Indicates that a monitor connection is to be provided from the FAD1 to a DFAD, or the odd pair of a FAP, to the A transmission path and from FAD2 of the same DFAD, or the even pair of a FAP, to the B transmission path of the accessed circuit.
MONF
Indicates that a monitor connection is to be provided from the FAD to the B transmission path of the accessed circuit.
SPLTA
Indicates that a connection is to be provided from both the E and F sides of the A transmission path of the circuit under test to the FAD and split the A transmission path.
SPLTB
Indicates that a connection is to be provided from both the E and F sides of the B transmission path of the circuit under test to the FAD and split the B transmission path.
SPLTE
Indicates to split both the A and B paths and connect the E side of the accessed circuit to the FAD. The line outgoing in the F direction shall have a QRS connected, and the line incoming from the F direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line.
SPLTEF
Indicates to split both the A and B paths, and connect the E side of the accessed circuit to FAD1 and the F side to FAD2.
SPLTF
Indicates to split both the A and B paths, and connect the F side of the accessed circuit to the FAD. The line outgoing in the E direction shall have a QRS connected, and the line incoming in the E direction shall have a QRS connected, and the line incoming from the E direction shall be terminated by the nominal characteristic impedance of the line.
4.5.109 TERM_MODE
Terminating mode of the card
Table 4-159 TERM_MODE Values
TERM_MODE Values
Description
LINE
Line Terminating Mode
SEC
Section Terminating Mode
TRANS
Transparent Mode
4.5.110 TIMING_MODE
Timing mode for the current node
Table 4-160 TIMING_MODE Values
TIMING_MODE Values
Description
EXTERNAL
The node derives its clock from the BITS input
LINE
The node derives its clock from the SONET lines
MIXED
The node derives its clock from the mixed timing mode
4.5.111 TMPER
Performance parameter
Table 4-161 TMPER Values
TMPER Values
Description
15-MIN
Performance Parameter Accumulation Interval Length - Every 15 Minutes
1-DAY
Performance Parameter Accumulation Interval Length - Every 24 Hours
4.5.112 TRANS_MODE
G1000 Transponder Mode
Table 4-162 TRANS_MODE Values
TRANS_MODE Values
Description
BI
Bidirectional
NONE
Not in Transponder Mode
UNI
Unidirectional
4.5.113 TRCFORMAT
Indicates the trace format
Table 4-163 TRCFORMAT Values
TRCFORMAT Values
Description
1-BYTE
1 Byte Trace Message
16-BYTE
16-Byte Trace Message
64-BYTE
64-Byte Trace Message
4.5.114 TRCLEVEL
Indicates the trace mode options
Table 4-164 TRCLEVEL Values
TRCLEVEL Values
Description
J0-SEC
Trace at the SONET Section level
PATH
Trace at the path monitor level (OTUk)
SEC
Trace at the section monitor level
4.5.115 TRCMODE
Path Trace Mode
Table 4-165 TRCMODE Values
TRCMODE Values
Description
AUTO
Use the previously received path trace string as the expected string (not applicable to MXP/TXP cards)
AUTO-NO-AIS
Use the previously received path trace string as the expected string and do not turn on AIS and RDI if TIMP detected
MAN
Use the provisioned expected string as the expected string
MAN-NO-AIS
Use the provisioned expected string as the expected string and do not turn on AIS and RDI if TIMP detected
OFF
Turn off path trace capability. Nothing will be reported
4.5.116 TX_RSLT
Indicates the file transferred result
Table 4-166 TX_RSLT Values
TX_RSLT Values
Description
FAILURE
Indicates a failed result
SUCCESS
Indicates a successful result
4.5.117 TX_STATUS
Indicates the file transferred status
Table 4-167 TX_STATUS Values
TX_STATUS Values
Description
COMPLD
Indicates the file transmission is completed
IP
Indicates the file transmission is in process
START
Indicates the file transmission is started
4.5.118 TX_TYPE
Specifies the type and direction of the file transferred
Table 4-168 TX_TYPE Values
TX_TYPE Values
Description
RFBU
Indicates Remote File Backup
RFR
Indicates Remote File Restore
SWDL
Indicates Software Download
4.5.119 UCP_ADM_STATE
UCP Administrative States
Table 4-169 UCP_ADM_STATE Values
UCP_ADM_STATE Values
Description
DOWN
Indicates the UCP administrative state is down
UP
Indicates the UCP administrative state is up
4.5.120 UCP_CC_TUN_MD
UCP IP Tunneling mode. Default is DISABLED.
Table 4-170 UCP_CC_TUN_MD Values
UCP_CC_TUN_MD Values
Description
DISABLED
DISABLED UCP tunneling mode
GRE
GRE UCP tunneling mode
IP-IN-IP
IP-IN-IP UCP tunneling mode
4.5.121 UCP_CKT_STATE
UCP Operation States of Circuits
Table 4-171 UCP_CKT_STATE Values
UCP_CKT_STATE Values
Description
CLEARING
UCP circuit is in the clearing state
CLOSED
UCP circuit is in the closed state
FAILED
UCP circuit is in the failed state
LISTENING
UCP circuit is in the listening state. This state is applicable only at termination.
OPEN
UCP circuit is opened
OPENING
UCP circuit is opening
PENDING
UCP circuit is in the open-pending state
RETRY
UCP circuit is in retry state. This state is applicable only at source
WAIT
UCP circuit is in wait-cc state. This state is applicable only at source
4.5.122 UCP_CRC_MODE
UCP CRC mode for this control channel, it is applicable to IPCCs of the SDCC type only.
Table 4-172 UCP_CRC_MODE Values
UNI_BI Values
Description
16-BIT
Indicates a 16-bit CRC mode
32-BIT
Indicates a 32-bit CRC mode
4.5.123 UCP_IPCC_TYPE
UCP Types
Table 4-173 UCP_IPCC_TYPE Values
UCP_IPCC_TYPE Values
Description
ROUTED
Indicates the Optical User Network Interface-Client
SDCC
Indicates the Optical User Network Interface-Network
4.5.124 UCP_TNA_TYPE
Types of TNA (transport network administered address)
Table 4-174 UCP_TNA_TYPE Values
UCP_TNA_TYPE Values
Description
IPV4
Indicates IPV4 TNA type
IPV6
Indicates IPV6 TNA type
NSAP
Indicates NSAP TNA type
4.5.125 UNI_BI
Unidirectional and Bidirectional switch operations
Table 4-175 UNI_BI Values
UNI_BI Values
Description
BI
Bidirectional protection switching
UNI
Unidirectional protection switching
4.5.126 UP_DOWN
Up/Down
Table 4-176 UP_DOWN Values
UP_DOWN Values
Description
DOWN
Down
UP
Up
4.5.127 VALIDITY
Response validity
Table 4-177 VALIDITY Values
VALIDITY Values
Description
COMPL
Complete Response
PRTL
Partial Response
4.5.128 VOA_CNTR_MODE
Defines the VOA control mode
Table 4-178 VOA_CNTR_MODE Values
VOA_CNTR_MODE Values
Description
ATTN
VOA has a fixed attenuation
POWER
VOA controls the attenuation to obtain a fixed output power
4.5.129 VT1_5_MONTYPE
VT1_5 Monitor Type
Table 4-179 VT1_5_MONTYPE Values
VT1_5_MONTYPE Values
Description
CVV
Coding Violation - VT Path
ESV
Errored Seconds - VT Path
SESV
Severely Errored Seconds - VT Path
UASV
Unavailable Second - VT Path
4.5.130 WDM
Facility Types for MXP/TXP cards
Table 4-180 WDM Values
WDM Values
Description
CLNT
Client Facility
OCH
Optical Channel (DWDM) Facility
4.5.131 WLEN_MODE
The Wavelength configuration mode of a single node/direction
Feedback
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.
