Number of discarded packets because of unknown protocol.
TxUnicPkt
Number of requested subnetwork/unicast packets.
TxNotUnicPkt
Number of requested not unicast packets.
TxDiscards
Number of discarded packets—free buffer space.
TxErr
Number of erroneous outbound packets.
RxMultPkt
Number of inbound multicast packets.
RxBroadPkt
Number of inbound broadcast packets.
TxMultPkt
Number of outbound multicast packets.
TxBroadPkt
Number of outbound broadcast packets.
G.1.2 Edge Statistics DCC PM Table
The Edge Statistics DCC PM table shows 15-minute and 1-day data communications channel (DCC) edge statistics performance data for the ONS 15302 and ONS 15305. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Edge Statistics DCC PM table.
Table G-10 Field Descriptions for the Edge Statistics DCC PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Module for which PM data is displayed.
Physical Location
Slot and port number for which PM data is displayed.
Interface
Interface name of the selected NE.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Rx Unic Pkt
Number of inbound subnetwork/unicast packets.
Rx Discards
Number of inbound discarded packets.
Rx Err
Number of inbound errored packets.
Rx Bytes
Number of received bytes.
Tx Bytes
Number of bytes transmitted since the last counter reset.
Rx Not Unic Pkt
Number of inbound not unicast packets.
Rx Unknown
Number of discarded packets due to unknown protocol.
Tx Unic Pkt
Number of requested subnetwork/unicast packets.
Tx Not Unic Pkt
Number of requested not unicast packets.
Tx Discards
Number of discarded packets with free buffer space.
Tx Err
Number of outbound errored packets.
Rx Mult Pkt
Number of inbound multicast packets.
Rx Broad Pkt
Number of inbound broadcast packets.
Tx Mult Pkt
Number of multicast frames transmitted error free.
Tx Broad Pkt
Total number of packets that higher-level protocols requested be transmitted, and which were addressed to a broadcast address at this sublayer, including those that were discarded or not sent.
NE ID
Name of the selected NE.
G.1.3 Edge Statistics LAN PM Table
The Edge Statistics LAN PM table shows 15-minute and 1-day LAN edge statistics performance data for the ONS 15302 and ONS 15305. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Edge Statistics LAN PM table.
Table G-11 Field Descriptions for the Edge Statistics LAN PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Module for which PM data is displayed.
Physical Location
Slot and port number for which PM data is displayed.
Interface
Interface name of the selected NE.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Rx Unic Pkt
Number of inbound subnetwork/unicast packets.
Rx Discards
Number of inbound discarded packets.
Rx Err
Number of inbound errored packets.
Rx Bytes
Number of received bytes.
Tx Bytes
Number of bytes transmitted since the last counter reset.
Rx Not Unic Pkt
Number of inbound not unicast packets.
Rx Unknown
Number of discarded packets due to unknown protocol.
Tx Unic Pkt
Number of requested subnetwork/unicast packets.
Tx Not Unic Pkt
Number of requested not unicast packets.
Tx Discards
Number of discarded packets with free buffer space.
Tx Err
Number of outbound errored packets.
Rx Mult Pkt
Number of inbound multicast packets.
Rx Broad Pkt
Number of inbound broadcast packets.
Tx Mult Pkt
Number of multicast frames transmitted error free.
Tx Broad Pkt
Total number of packets that higher-level protocols requested be transmitted, and which were addressed to a broadcast address at this sublayer, including those that were discarded or not sent.
NE ID
Name of the selected NE.
G.1.4 Edge Statistics WAN PM Table
The Edge Statistics WAN PM table shows 15-minute and 1-day WAN edge statistics performance data for the ONS 15302 and ONS 15305. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Edge Statistics WAN PM table.
Table G-12 Field Descriptions for the Edge Statistics WAN PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Module for which PM data is displayed.
Physical Location
Slot and port number for which PM data is displayed.
Interface
Interface name of the selected NE.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Rx Unic Pkt
Number of inbound subnetwork/unicast packets.
Rx Discards
Number of inbound discarded packets.
Rx Err
Number of inbound errored packets.
Rx Bytes
Number of received bytes.
Tx Bytes
Number of bytes transmitted since the last counter reset.
Rx Not Unic Pkt
Number of inbound not unicast packets.
Rx Unknown
Number of discarded packets due to unknown protocol.
Tx Unic Pkt
Number of requested subnetwork/unicast packets.
Tx Not Unic Pkt
Number of requested not unicast packets.
Tx Discards
Number of discarded packets with free buffer space.
Tx Err
Number of outbound errored packets.
Rx Mult Pkt
Number of inbound multicast packets.
Rx Broad Pkt
Number of inbound broadcast packets.
Tx Mult Pkt
Number of multicast frames transmitted error free.
Tx Broad Pkt
Total number of packets that higher-level protocols requested be transmitted, and which were addressed to a broadcast address at this sublayer, including those that were discarded or not sent.
NE ID
Name of the selected NE.
G.1.5 Edge SDH High Order VC PM Table
The Edge SDH High Order VC PM table shows near- and far-end 15-minute and 1-day SDH high-order Virtual Container (VC) performance data for the ONS 15302 and ONS 15305. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Edge SDH High Order VC PM table.
Table G-13 Field Descriptions for the Edge SDH High Order VC PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Module for which PM data is displayed.
Physical Location
Slot and port number for which PM data is displayed.
Interface
Interface name of the selected NE.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
HP BBE
High path section background block errors.
HP ES
High path section errored seconds.
HP SES
High path section severely errored seconds.
HP UAS
High path section unavailable seconds.
NE ID
Name of the selected NE.
G.1.6 Edge SDH Low Order VC PM Table
The Edge SDH Low Order VC PM table shows near- and far-end 15-minute and 1-day SDH low-order VC performance data for the ONS 15302 and ONS 15305. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Edge SDH Low Order VC PM table.
Table G-14 Field Descriptions for the Edge SDH Low Order VC PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Module for which PM data is displayed.
Physical Location
Slot and port number for which PM data is displayed.
Interface
Interface name of the selected NE.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
LP BBE
Low path background block errors.
LP ES
Low path errored seconds.
LP SES
Low path severely errored seconds.
LP UAS
Low path unavailable seconds.
NE ID
Name of the selected NE.
G.1.7 Edge SDH Multiplex Section PM Table
The Edge SDH Multiplex Section PM table shows near- and far-end 15-minute and 1-day SDH multiplex section performance data for the ONS 15302 and ONS 15305. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Edge SDH Multiplex Section PM table.
Table G-15 Field Descriptions for the Edge SDH Multiplex Section PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Module for which PM data is displayed.
Physical Location
Slot and port number for which PM data is displayed.
Interface
Interface name of the selected NE.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
MS BBE
Multiplex section background block errors.
MS ES
Multiplex section errored seconds.
MS SES
Multiplex section severely errored seconds.
MS UAS
Multiplex section unavailable seconds.
NE ID
Name of the selected NE.
G.1.8 Edge SDH Regenerator Section PM Table
The Edge SDH Regenerator Section PM table shows 15-minute and 1-day SDH regenerator section performance data for the ONS 15302 and ONS 15305. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Edge SDH Regenerator Section PM table.
Table G-16 Field Descriptions for the Edge SDH Regenerator Section PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Module for which PM data is displayed.
Physical Location
Slot and port number for which PM data is displayed.
Interface
Interface name of the selected NE.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
RS BBE
Regenerator section background block errors.
RS ES
Regenerator section errored seconds.
RS SES
Regenerator section severely errored seconds.
RS UAS
Regenerator section unavailable seconds.
NE ID
Name of the selected NE.
G.2 PM Tables for CTC-Based NEs
This section describes the PM tables that are specific to the CTC-based NEs: ONS 15310 CL, ONS 15310 MA, ONS 15327, ONS 15454 SONET, ONS 15454 SDH, ONS 15600 SONET, and ONS 15600 SDH.
Note Performance management for the CTC-based ONS 15305 R3.0 is similar to the performance management for the ONS 15302 and the non-CTC-based ONS 15305. See ONS 1530x-Specific PM Tables.
For CTC-based NEs, each 15-minute or 1-day PM table has a corresponding real-time PM table that allows you to examine the current value of a PM parameter in granularities finer than 15 minutes or 1 day. Not all of the fields in the historical PM tables are shown in the real-time PM tables. The first fields in real-time PM tables are NE ID, Module Name, Physical Location, Interface, Time Stamp, and Validity; the remaining fields are the actual real-time attributes being polled. The Validity column indicates whether the data in the entry is valid: "true" indicates that the entry is valid; "false" indicates that the entry is invalid.
The following conventions apply to PM tables for CTC-based NEs:
•Invalidity in the historical PM table is shown with the corresponding table cell rendered gray and marked with an asterisk (*).
Note Real-time PM tables do not support invalidity coloring.
•Threshold crossing alerts (TCAs) for a specific statistic in a particular row in the historical PM table are indicated with a purple rendering for the corresponding cell.
Note Real-time PM tables do not support TCAs.
•Fields that are not applicable for a particular module in a given PM table are indicated by displaying N/A (not applicable) in the corresponding table cell.
•1-day PM data is collected at 00:00 hours Greenwich Mean Time (GMT) (time on the CTM server host).
•For release 4.0 and later NEs, PM data collected for cards that are preprovisioned and not physically present on a slot are indicated by the symbol ENEQ displayed for the corresponding table cell.
Note For an RTPM query for remote NEs, select the slot number and port number required for a PM query (do not select slot All and port All).
Note The PM parameters that CTM supports for CTC-based NEs are also supported by CTM GateWay/CORBA.
G.2.1 8B10B PM Table—ONS 15454 SONET, ONS 15454 SDH
The 8B10B PM table shows performance data for ONS 15454 SONET and ONS 15454 SDH DWDM cards that support Fibre Channel (FC) or Gigabit Ethernet payloads. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the 8B10B PM table.
Table G-17 Field Descriptions for the 8B10B PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Data Payload
The payload provisioned on the client port of the card.
Number of received packets that contain nonerrored data code groups that have start and end delimiters. This parameter applies to the FC and Gigabit Ethernet payload configured on the TXPP_MR_2.5G and TXP_MR_2.5G cards.
Number of received packets that contain errored data code groups that have start and end delimiters. This parameter applies to the FC and Gigabit Ethernet payload configured on the TXPP_MR_2.5G and TXP_MR_2.5G cards.
Number of received code groups that do not contain a start or end delimiter. This parameter applies to the FC and Gigabit Ethernet payload configured on the TXPP_MR_2.5G and TXP_MR_2.5G cards.
Number of received packets containing idle ordered sets. This parameter applies to the FC and Gigabit Ethernet payload configured on the TXPP_MR_2.5G and TXP_MR_2.5G cards.
Number of received packets containing nonidle ordered sets. This parameter applies to the FC and Gigabit Ethernet payload configured on the TXPP_MR_2.5G and TXP_MR_2.5G cards.
Number of received data code groups that do not contain ordered sets. This parameter applies to the FC and Gigabit Ethernet payload configured on the TXPP_MR_2.5G and TXP_MR_2.5G cards.
Sum of invalid ordered sets of encoding disparity errors received at this port.
•ONS 15454 SONET: MXP_MR_10DME
•ONS 15454 SDH: MXP_MR_10DME
NE ID
Name of the selected NE.
—
G.2.2 ESCON PM Table—ONS 15454 SONET, ONS 15454 SDH
The ESCON PM table shows performance data for ONS 15454 SONET and ONS 15454 SDH DWDM cards that support ESCON payload. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the ESCON PM table.
Table G-18 Field Descriptions for the ESCON PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Stats Last Cleared Time
When the statistics were last reset.
ONS 15454 SONET and ONS 15454 SDH: 2.5G_DM, 2.5G_DMP
ifInOctets
Number of bytes received since the last counter reset.
ONS 15454 SONET and ONS 15454 SDH: 2.5G_DM, 2.5G_DMP
rxTotalPkts
Number of packets received since the last counter reset.
ONS 15454 SONET and ONS 15454 SDH: 2.5G_DM, 2.5G_DMP
ifInDiscards
Number of inbound packets that were chosen to be discarded even though no errors had been detected to prevent their being deliverable to a higher-layer protocol.
ONS 15454 SONET and ONS 15454 SDH: 2.5G_DM, 2.5G_DMP
ifInErrors
Total number of receive errors.
ONS 15454 SONET and ONS 15454 SDH: 2.5G_DM, 2.5G_DMP
ifOutOctets
Number of bytes transmitted since the last counter reset.
ONS 15454 SONET and ONS 15454 SDH: 2.5G_DM, 2.5G_DMP
txTotalPkts
Number of packets transmitted since the last counter reset.
ONS 15454 SONET and ONS 15454 SDH: 2.5G_DM, 2.5G_DMP
ifOutDiscards
Number of outbound packets that were chosen to be discarded even though no errors had been detected to prevent their being transmitted.
ONS 15454 SONET and ONS 15454 SDH: 2.5G_DM, 2.5G_DMP
mediaIndStatsRxFrameBadCRC
Number of receive data frames with payload CRC errors when HDLC framing is used.
ONS 15454 SONET and ONS 15454 SDH: 2.5G_DM, 2.5G_DMP
Rx Utilization (%)
Receive utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
ONS 15454 SONET and ONS 15454 SDH: 2.5G_DM, 2.5G_DMP
Tx Utilization (%)
Transmit utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
ONS 15454 SONET and ONS 15454 SDH: 2.5G_DM, 2.5G_DMP
NE ID
Name of the selected NE.
—
G.2.3 CoS PM Table—ONS 15310 CL, ONS 15310 MA, ONS 15454 SONET, and ONS 15454 SDH
The CoS PM table shows Class of Service (CoS) performance data for the ONS 15310 CL, ONS 15310 MA, ONS 15454 SONET, and ONS 15454 SDH ML-series and CE-series cards. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the CoS PM table.
Table G-19 Field Descriptions for the CoS PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
The DS1 PM table shows far-end DS-1 performance data. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the DS1 PM table.
Table G-20 Field Descriptions for the DS1 PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-P (Rx)
Coding violations-path.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56, DS3XM_12
ES-P (Rx)
Errored seconds-path.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56, DS3XM_12
ESA-P (Rx)
Errored seconds type A-path.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56, DS3XM_12
ESB-P (Rx)
Errored seconds type B-path.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56, DS3XM_12
SES-P (Rx)
Severely errored seconds-path.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56, DS3XM_12
SEFS-P (Rx)
Severely errored frame seconds-path.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56, DS3XM_12
CSS-P (Rx)
Controlled slip seconds-path.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56, DS3XM_12
UAS-P (Rx)
Unavailable seconds-path.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56, DS3XM_12
FC-P (Rx)
Failure count-path.
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15454 SONET: DS1_E1_56
ES-L (Rx)
Errored seconds-line.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
ESR-P
Receive path errored seconds ratio is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
—
SESR-P
Receive path severely errored seconds ratio is the ratio of SES to total seconds in available time during a fixed measurement interval.
—
ESNE-NP
Network performance errored seconds during a fixed measurement interval for near end.
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15454 SONET: DS1_E1_56, DS3XM_12
SESNE-NP
Network performance severely errored seconds during a fixed measurement interval for near end.
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15454 SONET: DS1_E1_56, DS3XM_12
UASNE-NP
Network performance unavailable seconds during a fixed measurement interval for near end.
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15454 SONET: DS1_E1_56, DS3XM_12
ESFE-NP
Network performance errored seconds during a fixed measurement interval for far end.
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15454 SONET: DS1_E1_56, DS3XM_12
SESFE-NP
Network performance severely errored seconds during a fixed measurement interval for far end.
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15454 SONET: DS1_E1_56, DS3XM_12
UASFE-NP
Network performance unavailable seconds during a fixed measurement interval for far end.
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15454 SONET: DS1_E1_56, DS3XM_12
NE ID
Name of the selected NE.
—
G.2.5 DS1 PM Table
The DS1 PM table contains PM information at the line layer. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
The following table describes the fields in the DS1 PM table.
Table G-21 Field Descriptions for the DS1 PM Table
Field
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-L
CV-L indicates the number of coding violations occurring on the line. This parameter is a count of BPVs and EXZs occurring over the accumulation period.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
ES-L
ES-L is a count of the seconds containing one or more anomalies (BPV + EXZ) and/or defects (loss of signal) on the line.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
SES-L
SES-L is a count of the seconds containing more than a particular quantity of anomalies (BPV + EXZ > 1544) and/or defects on the line.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
LOSS-L
LOSS-L is a count of one-second intervals containing one or more LOS defects.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
CV-P (Rx)
Receive path coding violation (Rx CV-P) means that a coding violation occurred on the receive end of the path.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
ES-P (Rx)
Receive path errored seconds (Rx ES-P) is a count of the seconds containing one or more anomalies and/or defects for paths on the receive end of the signal.
Receive path severely errored seconds (Rx SES-P) is a count of the seconds containing more than a particular quantity of anomalies and/or defects for paths on the receive end of the signal.
Receive path severely errored seconds frame/alarm indication signal (Rx SAS-P) is a count of one-second intervals containing one or more SEFs or one or more AIS defects on the receive end of the signal.
Receive path unavailable seconds (Rx UAS-P) is a count of one-second intervals when the DS-1 path is unavailable on the receive end of the signal. The DS-1 path is unavailable when ten consecutive SESs occur. The ten SESs are included in unavailable time. Once unavailable, the DS-1 path becomes available when ten consecutive seconds occur with no SESs. The ten seconds with no SESs are excluded from unavailable time.
Receive path alarm indication signal seconds (Rx AISS-P) means an alarm indication signal occurred on the receive end of the path. This parameter is a count of seconds containing one or more AIS defects.
Transmit path coding violation (Tx CV-P) means that a coding violation occurred on the transmit end of the path. For DS-1 ESF paths, this parameter is a count of detected CRC-6 errors.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
ES-P (Tx)
Transmit path errored seconds (Tx ES-P) is a count of the seconds containing one or more anomalies and/or defects for paths on the transmit end of the signal.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
SES-P (Tx)
Transmit path severely errored seconds (Tx SES-P) is a count of the seconds containing more than a particular quantity of anomalies and/or defects for paths on the transmit end of the signal.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
SAS-P (Tx)
Transmit path severely errored seconds frame/alarm indication signal (Tx SAS-P) is a count of one-second intervals containing one or more severely errored framing seconds (SEFS) or one or more AIS defects on the receive end of the signal.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
UAS-P (Tx)
Transmit path unavailable seconds (Tx UAS-P) is a count of one-second intervals when the DS-1 path is unavailable on the transmit end of the signal. The DS-1 path is unavailable when ten consecutive SESs occur. The ten SESs are included in unavailable time. Once unavailable, the DS-1 path becomes available when ten consecutive seconds occur with no SESs. The ten seconds with no SESs are excluded from unavailable time.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
AISS-P (Tx)
Transmit path alarm indication signal seconds (Tx AISS-P) means that an alarm indication signal occurred on the transmit end of the path. This parameter is a count of seconds containing one or more AIS defects.
•ONS 15310 CL: CTX
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15327: XTC
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56
FC-P (Tx)
Failure count-near-end path.
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15454 SONET: DS-1, DS1N, DS1_E1_56, DS3XM_12
NE ID
Name of the selected NE.
—
G.2.6 DS3 PM Table
The DS3 PM table contains PM information at the DS-3 layer. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
The following table describes the fields in the DS3 PM table.
Table G-22 Field Descriptions for the DS3 PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-L
Number of coding violations (CVs) occurring on the line. This parameter is a count of BPVs and EXZs occurring over the accumulation period.
Number of alarm indication signal seconds (AISS) encountered by a DS-3 interface in the parity bit (PBIT) of the interface in the interval. The PBIT is the bit position at the beginning of the third and fourth subframes, which contains parity information. This is a path variable.
Number of errored seconds encountered by a DS-3 interface in the CPBIT of the interface in the interval. The CPBIT is a bit format used to increase far-end performance monitoring. This is a path variable.
Number of severely alarmed seconds encountered by a DS-3 interface in the CPBIT of the interface in the interval. This is a path variable.
•ONS 15310 MA: DS1_28_DS3_EC1_3, DS1_84_DS3_EC1_3
•ONS 15454 SONET: DS3_EC1_48
NE ID
Name of the selected NE.
—
G.2.7 DS3 and DS3I PM Table (Far End)—ONS 15310 CL, ONS 15310 MA, ONS 15454, ONS 15454 SDH
The DS3 and DS3I PM table shows far-end performance data for the DS-3 and DS3I cards. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the DS3 and DS3I PM table.
Table G-23 Field Descriptions for the DS3 and DS3I PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-L
Number of coding violations (CVs) occurring on the line. This parameter is a count of BPVs and EXZs occurring over the accumulation period.
Number of alarm indication signal seconds (AISS) encountered by a DS-3 interface in the parity bit (PBIT) of the interface in the interval. The PBIT is the bit position at the beginning of the third and fourth subframes, which contains parity information. This is a path variable.
Number of errored seconds encountered by a DS-3 interface in the CPBIT of the interface in the interval. The CPBIT is a bit format used to increase far-end performance monitoring. This is a path variable.
The E1 PM table shows performance data for the ONS 15454 SONET DS1_E1_56 card and the ONS 15454 SDH E1 cards. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the E1 PM table.
Table G-24 Field Descriptions for the E1 PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Interface
Interface name of the selected NE.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-L
CV-L indicates the number of coding violations occurring on the line. This parameter is a count of BPVs and EXZs occurring over the accumulation period.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
ES-L
ES-L is a count of the seconds containing one or more anomalies (BPV + EXZ) and/or defects (loss of signal) on the line.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
SES-L
SES-L is a count of the seconds containing more than a particular quantity of anomalies (BPV + EXZ > 1544) and/or defects on the line.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
LOSS-L
LOSS-L is a count of one-second intervals containing one or more LOS defects.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
EB-P
Receive path errored block (EB-P) is a count of the number of bits in error within a block.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
ES-P
Receive path errored seconds (ES-P) is a count of the seconds containing one or more anomalies and/or defects for paths on the receive end of the signal.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
SES-P
Receive path severely errored seconds (SES-P) is a count of the seconds containing more than a particular quantity of anomalies and/or defects for paths on the receive end of the signal.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
BBE-P
Receive path background block errors (BBE-P) is an errored block not occurring as part of an SES.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
UAS-P
Receive path unavailable seconds (UAS-P) is a count of one-second intervals when the DS-1 path is unavailable on the receive end of the signal. The DS-1 path is unavailable when ten consecutive SESs occur. The ten SESs are included in unavailable time. Once unavailable, the DS-1 path becomes available when ten consecutive seconds occur with no SESs. The ten seconds with no SESs are excluded from unavailable time.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
ESR-P
Receive path errored second ratio (ESR-P) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
SESR-P
Receive path severely errored seconds ratio (SESR-P) is the ratio of SES to total seconds in available time during a fixed measurement interval.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
BBER-P
Receive path background block error ratio (BBER-P) is a ratio of BBE to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
AISS-P
Receive path AISS-P is a count of seconds containing one or more AIS defects.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
EB-P (TX)
Transmit path errored block (EB-P) indicates that one or more bits are in error within a block.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
ES-P (TX)
Transmit path errored seconds (ES-P) is a count of the seconds containing one or more anomalies and/or defects for paths on the transmit end of the signal.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
SES-P (TX)
Transmit path severely errored seconds (SES-P) is a count of the seconds containing more than a particular quantity of anomalies and/or defects for paths on the transmit end of the signal.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
BBE-P (TX)
Transmit path background block error (BBE-P) is an errored block not occurring as part of an SES.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
UAS-P (TX)
Transmit path unavailable seconds (UAS-P) is a count of one-second intervals when the DS-1 path is unavailable on the receive end of the signal. The DS-1 path is unavailable when ten consecutive SESs occur. The ten SESs are included in unavailable time. Once unavailable, the DS-1 path becomes available when ten consecutive seconds occur with no SESs. The ten seconds with no SESs are excluded from unavailable time.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
ESR-P (TX)
Transmit path errored second ratio (ESR-P) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
SESR-P (TX)
Transmit path severely errored second ratio (SESR-P) is the ratio of SES to total seconds in available time during a fixed measurement interval.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
BBER-P (TX)
Transmit path background block error ratio (BBER-P) is a ratio of BBE to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
AISS-P (TX)
Transmit path AISS-P is a count of seconds containing one or more AIS defects.
The E1 PM table shows far-end performance data for the ONS 15454 SONET DS1_E1_56 card and the ONS 15454 SDH E1, E1N, and E1_42 cards. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the E1 PM table.
Table G-25 Field Descriptions for the E1 PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Interface
Interface name of the selected NE.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
RXP-EB
Receive path errored blocks (RXP-EB) indicates that one or more bits are in error within a block.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
RXP-ES
Receive path errored seconds (RXP-ES) is a one-second period with one or more errored blocks or at least one defect.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
RXPS-ES
Receive path severely errored seconds (RXP-SES) is a one-second period containing 30 percent or more errored blocks or at least one defect; SES is a subset of ES.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
RXP-BBE
Receive path background block errors (RXP-BBE) is an errored block not occurring as part of an SES.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
RXP-UAS
Receive path unavailable seconds (RXP-UAS) is a count of one-second intervals when the E1 path is unavailable on the signal receive end. The E1 path is unavailable when ten consecutive SESs occur. The ten SESs are included in unavailable time. After it has become unavailable, the E1 path becomes available when ten consecutive seconds occur with no SESs. The ten seconds with no SESs are excluded from the unavailable time.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
RXP-ESR
Receive path errored second ratio (RXP-ESR) is the ratio of SESs to total seconds in available time during a fixed measurement interval.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
RXP-SESR
Receive path severely errored second ratio (RXP-SESR) is the ratio of SESs to total seconds in available time during a fixed measurement interval.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
RXP-BBER
Receive path background block error ratio (RXP-BBER) is a ratio of BBEs to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
TXP-EB
Transmit path errored blocks (TXP-EB) is a count of bits that are in error within a block.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
TXP-ES
Transmit path errored seconds (TXP-ES) is a one-second period with one or more errored blocks or at least one defect.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
TXP-SES
Transmit path severely errored seconds (TXP-SES) is a one-second period containing 30 percent or more errored blocks or at least one defect; SES is a subset of ES.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
TXP-BBE
Transmit path background block errors (TXP-BBE) is an errored block not occurring as part of an SES.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
TXP-UAS
Transmit path unavailable seconds (TXP-UAS) is a count of one-second intervals when the E1 path is unavailable on the signal transmit end. The E1 path is unavailable when ten consecutive SESs occur. The ten SESs are included in unavailable time. After it has become unavailable, the E1 path becomes available when ten consecutive seconds occur with no SESs. The ten seconds with no SESs are excluded from the unavailable time.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
TXP-ESR
Transmit path errored second ratio (TXP-ESR) is the ratio of SESs to total seconds in available time during a fixed measurement interval.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
TXP-SESR
Transmit path severely errored second ratio (TXP-SESR) is the ratio of SESs to total seconds in available time during a fixed measurement interval.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
TXP-BBER
Transmit path background block error ratio (TXP-BBER) is a ratio of BBEs to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
•ONS 15454 SONET: DS1_E1_56
•ONS 15454 SDH: E1N, E1, E1_42
NE ID
Name of the selected NE.
—
G.2.10 E3 PM Table—ONS 15454 SDH
The E3 PM table shows performance data for the ONS 15454 SDH E3 card. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the E3 PM table.
Table G-26 Field Descriptions for the E3 PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Interface
Interface name of the selected NE.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-L
CV-L indicates the number of coding violations occurring on the line. This parameter is a count of BPVs and EXZs occurring over the accumulation period.
E3
ES-L
ES-L is a count of the seconds containing one or more anomalies (BPV + EXZ) and/or defects (loss of signal) on the line.
E3
SES-L
SES-L is a count of the seconds containing more than a particular quantity of anomalies (BPV + EXZ > 1544) and/or defects on the line.
E3
LOSS-L
LOSS-L is a count of one-second intervals containing one or more LOS defects.
E3
P-ES
Receive path errored seconds (Rx ES-P) is a count of the seconds containing one or more anomalies and/or defects for paths on the receive end of the signal.
E3
P-SES
Receive path severely errored seconds (Rx SES-P) is a count of the seconds containing more than a particular quantity of anomalies and/or defects for paths on the receive end of the signal.
E3
P-UAS
Receive path unavailable seconds (Rx UAS-P) is a count of one-second intervals when the DS-1 path is unavailable on the receive end of the signal. The DS-1 path is unavailable when ten consecutive SESs occur. The ten SESs are included in unavailable time. Once unavailable, the DS-1 path becomes available when ten consecutive seconds occur with no SESs. The ten seconds with no SESs are excluded from unavailable time.
E3
P-ESR
Receive path errored second ratio (RX P-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
E3
P-SESR
Receive path severely errored second ratio (RX P-SESR) is the ratio of SES to total seconds in available time during a fixed measurement interval.
E3
NE ID
Name of the selected NE.
—
G.2.11 CE-Series Ethernet PM Table—ONS 15310 CL, ONS 15310 MA, ONS 15454 SONET, ONS 15454 SDH
The CE-Series Ethernet PM table shows performance data for the ONS 15310 CL, ONS 15310 MA, ONS 15454 SONET, and ONS 15454 SDH CE-series Ethernet cards. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the CE-Series Ethernet PM table.
Note Real-time PM data is not available for Ethernet cards on NE releases earlier than release 5.0.
Table G-27 Field Descriptions for the CE-Series Ethernet PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Time Last Cleared
When the statistics were last reset.
•—
ifInOctets
Number of bytes received since the last counter reset.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
ifInUCastPkts
Number of unicast packets received.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
ifInMulticastPkts
Number of multicast packets received.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
ifInBroadcastPkts
Number of broadcast packets received.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
ifInDiscards
Number of inbound packets that were chosen to be discarded even though no errors had been detected to prevent their being deliverable to a higher-layer protocol.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
ifInErrors
Total number of receive errors.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
ifOutOctets
Number of bytes transmitted since the last counter reset.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
ifOutUCastPkts
Number of unicast packets transmitted.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
ifOutMulticastPkts
Number of multicast packets transmitted.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
ifOutBroadcastPkts
Number of broadcast packets transmitted.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
dot3StatsAlignmentErrors
Number of received packets with alignment errors (incomplete frames).
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
dot3StatsFCSErrors
Number of packets with an FCS error. FCS errors indicate frame corruption during transmission.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
dot3StatsSingleCollisionFrames
Number of successfully transmitted frames that had exactly one collision.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
dot3StatsFrameTooLong
Number of received frames that were larger than the maximum size permitted.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsUndersizePkts
Number of packets below the minimum packet size received.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsFragments
Total number of frames received that are less than 64 bytes in length and have a CRC error.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsPkts64Octets
Number of packets received with a length less than or equal to 64 octets.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsPkts65to127Octets
Number of packets received with a length from 65 to 127 octets.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsPkts128to255Octets
Number of packets received with a length from 128 to 255 octets.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsPkts256to511Octets
Number of packets received with a length from 256 to 511 octets.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsPkts512to1023Octets
Number of packets received with a length from 512 to 1023 octets.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsPkts1024to1518Octets
Number of packets received with a length from 1024 to 1518 octets.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsBroadcastPkts
Total number of good broadcast packets received.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsMulticastPkts
Total number of good multicast (nonbroadcast) packets received.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsOversizePkts
Total number of packets received that were longer than 1518 octets (excluding framing bits, but including FCS octets) and were otherwise well formed.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsJabbers
Total number of frames received that exceed the maximum 1548 bytes and contain CRC errors.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsOctets
Total number of octets of data (including those in bad packets) received on the network (excluding framing bits but including FCS octets).
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsCollisions
Best estimate of the total number of collisions on the Ethernet segment.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsCollisionFrames
Best estimate of the total number of collision frames on the Ethernet segment.
—
etherStatsCRCAlignErrors
Total number of packets received that had a length (excluding framing bits, but including FCS octets) from 64 to 1518 octets, inclusive, but had either a bad FCS with an integral number of octets (FCS error) or a bad FCS with a nonintegral number of octets (alignment error).
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
etherStatsDropEvents
Total number of events in which packets were dropped by the probe due to lack of resources. The value indicates the number of times this condition has been detected.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
txTotalPkts
Number of packets transmitted since the last counter reset.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
rxTotalPkts
Number of packets received since the last counter reset.
•ONS 15310 CL: CE-100T-8
•ONS 15310 MA: CE-100T-8, ML-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
•ONS 15454 SDH: CE-1000-4, CE-100T-8
ifOutDiscards
Number of outbound packets that were chosen to be discarded even though no errors had been detected to prevent their being transmitted.
•ONS 15310 CL: CE-100T-8
•ONS 15454 SONET: CE-1000-4, CE-100T-8
ifOutErrors
Total number of transmitted errors.
—
txPauseFrames
Number of transmitted pause frames.
—
rxPauseFrames
Number of received pause frames.
—
rxPktsDroppedInternalCongestion
Number of received packets dropped due to overflow in G1000-4 frame buffer.
—
txPktsDroppedInternalCongestion
Number of transmit queue drops due to drops in the G1000-4 frame buffer.
—
rxControlFrames
Number of MAC control frames passed by the MAC sublayer to the MAC control sublayer.
—
mediaIndStatsRxFramesTruncated
Total number of frames received that are less than 5 bytes. This value is a part of HDLC and GFP port statistics.
—
mediaIndStatsRxFramesTooLong
Number of received frames that exceed the maximum transmission unit (MTU). This value is part of HDLC and generic framing procedure (GFP) port statistics.
—
mediaIndStatsRxFramesBadCRC
Number of receive data frames with payload CRC errors when HDLC framing is used.
—
mediaIndStatsTxFramesBadCRC
Number of transmitted data frames with payload CRC errors when HDLC framing is used.
—
mediaIndStatsRxShortPkts
Number of packets below the minimum packet size received.
—
txEtherUtilizationStats (%)
Transmit utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
—
rxEtherUtilizationStats (%)
Receive utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
—
NE ID
Name of the selected NE.
—
G.2.12 E-Series Ethernet PM Table—ONS 15327, ONS 15454 SONET, ONS 15454 SDH
The E-Series Ethernet PM table shows performance data for the ONS 15327, ONS 15454 SONET, and ONS 15454 SDH E-series Ethernet cards. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the E-Series Ethernet PM table.
Note Real-time PM data is not available for Ethernet cards on NE releases earlier than release 5.0.
Table G-28 Field Descriptions for the E-Series Ethernet PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
ifInOctets
Number of bytes received since the last counter reset.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
ifInUCastPkts
Number of unicast packets received.
•ONS 15327: ETH100
•ONS 15454 SDH: ETH100, ETH1000
ifInErrors
Total number of receive errors.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
ifOutOctets
Number of bytes transmitted since the last counter reset.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
ifOutUCastPkts
Number of unicast packets transmitted.
•ONS 15327: ETH100
•ONS 15454 SDH: ETH100, ETH1000
dot3StatsAlignmentErrors
Number of received packets with alignment errors (incomplete frames).
•ONS 15327: ETH100
•ONS 15454 SDH: ETH100, ETH1000
dot3StatsFCSErrors
Number of packets with an FCS error. FCS errors indicate frame corruption during transmission.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
dot3StatsSingleCollisionFrames
Number of successfully transmitted frames that had exactly one collision.
•ONS 15327: ETH100
•ONS 15454 SDH: ETH100, ETH1000
dot3StatsMultipleCollisionFrames
Number of successfully transmitted frames that had multiple collisions.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100
•ONS 15454 SDH: ETH100
dot3StatsDeferredTransmissions
Number of packets deferred.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100
•ONS 15454 SDH: ETH100
dot3StatsLateCollisions
Number of times that a collision was detected later than 64 octets into the transmission (also added into the collision count).
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100
•ONS 15454 SDH: ETH100
dot3StatsExcessiveCollisions
Number of consecutive collisions.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100
•ONS 15454 SDH: ETH100
dot3StatsFrameTooLong
Number of received frames that were larger than the maximum size permitted.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsUndersizePkts
Number of packets below the minimum packet size received.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsFragments
Total number of frames received that are less than 64 bytes in length and have a CRC error.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsPkts64Octets
Number of packets received with a length less than or equal to 64 octets.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsPkts65to127Octets
Number of packets received with a length from 65 to 127 octets.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsPkts128to255Octets
Number of packets received with a length from 128 to 255 octets.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsPkts256to511Octets
Number of packets received with a length from 256 to 511 octets.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsPkts512to1023Octets
Number of packets received with a length from 512 to 1023 octets.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsPkts1024to1518Octets
Number of packets received with a length from 1024 to 1518 octets.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsOversizePkts
Total number of packets received that were longer than 1518 octets (excluding framing bits, but including FCS octets) and were otherwise well formed.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsJabbers
Total number of frames received that exceed the maximum 1548 bytes and contain CRC errors.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsOctets
Total number of octets of data (including those in bad packets) received on the network (excluding framing bits but including FCS octets).
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsCollisions
Best estimate of the total number of collisions on the Ethernet segment.
•ONS 15327: ETH100
•ONS 15454 SDH: ETH100
etherStatsCollisionFrames
Best estimate of the total number of frame collisions on the segment.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherStatsCRCAlignErrors
Total number of packets received that had a length (excluding framing bits, but including FCS octets) from 64 to 1518 octets, inclusive, but had either a bad FCS with an integral number of octets (FCS error) or a bad FCS with a nonintegral number of octets (alignment error).
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100
rxTotalPkts
Number of packets received since the last counter reset.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
txTotalPkts
Number of packets transmitted since the last counter reset.
Note This column is no longer supported for R 4.y and later NEs. For those NEs, this column displays N/A.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
txCollision
Number of transmitted collisions since the last counter reset.
Note This column is no longer supported for NE R4.7 and later. For NE R4.7 and later this column displays N/A.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
rxEtherUtilizationStats (%)
Receive utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
txEtherUtilizationStats (%)
Transmit utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
•ONS 15327: ETH100
•ONS 15454 SONET: ETH100, ETH1000
•ONS 15454 SDH: ETH100, ETH1000
etherUtilizationStats (%)
Average Ethernet utilization statistics (release 3.4 and earlier).
•ONS 15454 SONET R3.3 and R3.4: ETH100, ETH1000
NE ID
Name of the selected NE.
—
G.2.13 G-Series Ethernet PM Table—ONS 15327, ONS 15454 SONET, ONS 15454 SDH
The G-Series Ethernet PM table shows performance data for the ONS 15327, ONS 15454 SONET, and ONS 15454 SDH G-series Ethernet cards. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the G-Series Ethernet PM table.
Note Real-time PM data is not available for Ethernet cards on NE releases earlier than release 5.0.
Table G-29 Field Descriptions for the G-Series Ethernet PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Time Last Cleared
When the statistics were last reset.
—
ifInOctets
Number of bytes received since the last counter reset.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
ifInUcastPkts
Number of unicast packets received.
•ONS 15327: G1000_2
•ONS 15454 SONET: GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
ifInMulticastPkts
Number of multicast packets received.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
ifInBroadcastPkts
Number of broadcast packets received.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
ifInDiscards
Number of inbound packets that were chosen to be discarded even though no errors had been detected to prevent their being deliverable to a higher-layer protocol.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
ifInErrors
Total number of receive errors.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4
ifOutOctets
Number of bytes transmitted since the last counter reset.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
ifOutUcastPkts
Number of unicast packets transmitted.
•ONS 15327: G1000_2
•ONS 15454 SONET: GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
ifOutMulticastPkts
Number of multicast packets transmitted.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
ifOutBroadcastPkts
Number of broadcast packets transmitted.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
ifOutDiscards
Number of outbound packets that were chosen to be discarded even though no errors had been detected to prevent their being transmitted.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4
•ONS 15454 SDH: G1000_4
dot3StatsAlignmentErrors
Number of received packets with alignment errors (incomplete frames).
•ONS 15327: G1000_2
•ONS 15454 SONET: GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
dot3StatsFCSErrors
Number of packets with an FCS error. FCS errors indicate frame corruption during transmission.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
dot3StatsFrameTooLong
Number of received frames that were larger than the maximum size permitted.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
dot3StatsCarrierSenseErrors
Number of transmission errors on a particular interface that are not otherwise counted.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4
•ONS 15454 SDH: G1000_4
dot3StatsSQETestErrors
Number of times that the SQE test error message is generated by the PLS sublayer for a particular interface.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4
•ONS 15454 SDH: G1000_4
etherStatsUndersizePkts
Number of packets below the minimum packet size received.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, ONS 15454 SDH: GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
etherStatsFragments
Total number of frames received that are less than 64 bytes in length and have a CRC error.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
etherStatsPkts64Octets
Number of packets received with a length less than or equal to 64 octets.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
etherStatsPkts65to127Octets
Number of packets received with a length from 65 to 127 octets.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
etherStatsPkts128to255Octets
Number of packets received with a length from 128 to 255 octets.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
etherStatsPkts256to511Octets
Number of packets received with a length from 256 to 511 octets.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
etherStatsPkts512to1023Octets
Number of packets received with a length from 512 to 1023 octets.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
etherStatsPkts1024to1518Octets
Number of packets received with a length from 1024 to 1518 octets.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
etherStatsOversizePkts
Total number of packets received that were longer than 1518 octets (excluding framing bits, but including FCS octets) and were otherwise well formed.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
etherStatsJabbers
Total number of frames received that exceed the maximum 1548 bytes and contain CRC errors.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
etherStatsOctets
Total number of octets of data (including those in bad packets) received on the network (excluding framing bits but including FCS octets).
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
etherStatsCRCAlignErrors
Total number of packets received that had a length (excluding framing bits, but including FCS octets) from 64 to 1518 octets, inclusive, but had either a bad FCS with an integral number of octets (FCS error) or a bad FCS with a nonintegral number of octets (alignment error).
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: G1000_4, GE_XP, 10GE_XP
rxPauseFrames
Number of received pause frames.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4
•ONS 15454 SDH: G1000_4
txPauseFrames
Number of transmitted pause frames.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4
•ONS 15454 SDH: G1000_4
rxPktsDroppedInternalCongestion
Number of received packets dropped due to overflow in G1000-4 frame buffer.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4
•ONS 15454 SDH: G1000_4
txPktsDroppedInternalCongestion
Number of transmit queue drops due to drops in the G1000-4 frame buffer.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4
•ONS 15454 SDH: G1000_4
rxTotalPkts
Number of packets received since the last counter reset.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: GE_XP, 10GE_XP
txTotalPkts
Number of packets transmitted since the last counter reset.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4, GE_XP, 10GE_XP
•ONS 15454 SDH: GE_XP, 10GE_XP
rxGiants
Number of packets received that are greater than 1530 bytes in length.
—
hdlcPktDrops
Total number of packets that are dropped when the card is in HDLC mode and traffic is oversubscribed.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4
•ONS 15454 SDH: G1000_4
etherStatsBroadCastPkts
Total number of good broadcast packets received.
•ONS 15454 SONET: GE_XP, 10GE_XP
•ONS 15454 SDH: GE_XP, 10GE_XP
etherStatsMultiCastPkts
Total number of good multicast (nonbroadcast) packets received.
•ONS 15454 SONET: GE_XP, 10GE_XP
•ONS 15454 SDH: GE_XP, 10GE_XP
rxEtherUtilizationStats (%)
Receive utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4
•ONS 15454 SDH: G1000_4
txEtherUtilizationStats (%)
Transmit utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
•ONS 15327: G1000_2
•ONS 15454 SONET: G1000_4
•ONS 15454 SDH: G1000_4
etherUtilizationStats (%)
Average Ethernet utilization statistics (release 3.4 and earlier).
•ONS 15454 SONET R3.3 and R3.4: G-series cards
NE ID
Name of the selected NE.
—
G.2.14 ML-Series Ethernet PM Table—ONS 15310 CL, ONS 15310 MA, ONS 15454 SONET, ONS 15454 SDH
The ML-Series Ethernet PM table shows performance data for the ONS 15310 CL, ONS 15310 MA, ONS 15454 SONET, and ONS 15454 SDH ML-series Ethernet cards. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the ML-Series Ethernet PM table.
Note Real-time PM data is not available for Ethernet cards on NE releases earlier than release 5.0.
Table G-30 Field Descriptions for the ML-Series Ethernet PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Time Last Cleared
When the statistics were last reset.
—
ifInErrors
Total number of receive errors.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
ifInOctets
Number of bytes received since the last counter reset.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
ifInUCastPkts
Number of unicast packets received.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8
•ONS 15454 SDH: ML100T, ML1000
ifInMulticastPkts
Number of multicast packets received.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
ifInBroadcastPkts
Number of broadcast packets received.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
ifInDiscards
Number of inbound packets that were chosen to be discarded even though no errors had been detected to prevent their being deliverable to a higher-layer protocol.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
Port Drop Counts
Number of received frames dropped at the port level.
•ONS 15310 CL: ML-100T-8
•ONS 15454 SONET: ML1000
Rx Runts
Total number of frames received that are less than 64 bytes in length and have a CRC error.
•ONS 15454 SONET: ML1000
Rx Giants
Number of packets received that are greater than 1530 bytes in length.
•ONS 15454 SONET: ML1000
Tx Giants
Number of packets transmitted that are greater than 1548 bytes in length.
•ONS 15454 SONET: ML1000
Tx Collisions
Number of collisions transmitted.
•ONS 15454 SONET: ML1000
Rx Total Errors
Total number of receive errors.
•ONS 15454 SONET: ML1000
RxGMACDropCounts
Number of received frames dropped by MAC module.
•ONS 15454 SONET: ML1000
RxThresholdOversizes
Number of received packets with a length longer than 1518 octets.
•ONS 15454 SONET: ML1000
ifOutOctets
Number of bytes transmitted since the last counter reset.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
ifOutUCastPkts
Number of unicast packets transmitted.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8
•ONS 15454 SDH: ML100T, ML1000
ifOutMulticastPkts
Number of multicast packets transmitted.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
ifOutBroadcastPkts
Number of broadcast packets transmitted.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
ifOutDiscards
Number of outbound packets that were chosen to be discarded even though no errors had been detected to prevent their being transmitted.
•ONS 15310 CL: ML-100T-8
•ONS 15454 SONET: ML100T, ML1000
•ONS 15454 SDH: ML100T, ML1000
dot3StatsAlignmentErrors
Number of received packets with alignment errors (incomplete frames).
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8
•ONS 15454 SDH: ML100T, ML1000
dot3StatsFCSErrors
Number of packets with an FCS error. FCS errors indicate frame corruption during transmission.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
dot3StatsSingleCollisionFrames
Number of successfully transmitted frames that had exactly one collision.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8
•ONS 15454 SDH: ML100T, ML1000
dot3StatsFrameTooLong
Number of received frames that were larger than the maximum size permitted.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsUndersizePkts
Number of packets below the minimum packet size received.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsPkts64Octets
Number of packets received with a length less than or equal to 64 octets.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsPkts65to127Octets
Number of packets received with a length from 65 to 127 octets.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsPkts128to255Octets
Number of packets received with a length from 128 to 255 octets.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsPkts256to511Octets
Number of packets received with a length from 256 to 511 octets.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsPkts512to1023Octets
Number of packets received with a length from 512 to 1023 octets.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsPkts1024to1518Octets
Number of packets received with a length from 1024 to 1518 octets.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsBroadcastPkts
Total number of good broadcast packets received.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsMulticastPkts
Total number of good multicast (nonbroadcast) packets received.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsFragments
Total number of frames received that are less than 64 bytes in length and have a CRC error.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsOversizePkts
Total number of packets received that were longer than 1518 octets (excluding framing bits, but including FCS octets) and were otherwise well formed.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsJabbers
Total number of octets of data (including bad packets) received on the network.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsOctets
Total number of octets of data (including those in bad packets) received on the network (excluding framing bits but including FCS octets).
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsCollisions
Best estimate of the total number of collisions on the Ethernet segment.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8
•ONS 15454 SDH: ML100T, ML1000
etherStatsCollisionFrames
Best estimate of the total number of frame collisions on the segment.
•ONS 15310 CL: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsCRCAlignErrors
Total number of packets received that had a length (excluding framing bits, but including FCS octets) from 64 to 1518 octets, inclusive, but had either a bad FCS with an integral number of octets (FCS error) or a bad FCS with a nonintegral number of octets (alignment error).
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
etherStatsDropEvents
Total number of events in which packets were dropped by the probe due to lack of resources. The value indicates the number of times this condition has been detected.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
txTotalPkts
Number of packets transmitted since the last counter reset.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
rxTotalPkts
Number of packets received since the last counter reset.
•ONS 15310 CL: ML-100T-8
•ONS 15310 MA: ML-100T-8
•ONS 15454 SONET: ML100T, ML100X-8, ML1000
•ONS 15454 SDH: ML100T, ML1000
mediaIndStatsRxFramesBadCRC
Number of receive data frames with payload CRC errors when HDLC framing is used.
•ONS 15310 CL: ML-100T-8
•ONS 15454 SONET: ML100T, ML1000
•ONS 15454 SDH: ML100T, ML1000
mediaIndStatsRxFramesTooLong
Number of received frames that exceed the maximum transmission unit (MTU). This value is part of HDLC and generic framing procedure (GFP) port statistics.
•ONS 15454 SONET: ML100T, ML1000
•ONS 15454 SDH: ML100T, ML1000
mediaIndStatsOversizeDropped
Number of received packets larger than the ML-series remote monitoring (RMON) threshold.
•ONS 15310 CL: ML-100T-8
•ONS 15454 SONET: ML100T, ML1000
•ONS 15454 SDH: ML100T, ML1000
txPauseFrames
Number of transmitted pause frames.
•ONS 15454 SONET: ML100T, ML1000
•ONS 15454 SDH: ML100T, ML1000
rxPauseFrames
Number of received pause frames.
•ONS 15454 SONET: ML100T, ML1000
•ONS 15454 SDH: ML100T, ML1000
txEtherUtilizationStats (%)
Transmit utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
•ONS 15454 SONET: ML100T, ML1000
•ONS 15454 SDH: ML100T, ML1000
rxEtherUtilizationStats (%)
Receive utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
•ONS 15454 SONET: ML100T, ML1000
•ONS 15454 SDH: ML100T, ML1000
NE ID
Name of the selected NE.
—
G.2.15 ASAP-Series Ethernet PM Table—ONS 15600 SONET, ONS 15600 SDH
The ASAP-Series Ethernet PM table shows performance data for the ONS 15600 SONET and ONS 15600 SDH ASAP-series Ethernet cards. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the ASAP-Series Ethernet PM table.
Note Real-time PM data is not available for Ethernet cards on NE releases earlier than release 5.0.
Table G-31 Field Descriptions for the ASAP-Series Ethernet PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
ifInOctets
Number of bytes received since the last counter reset.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
ifInUcastPkts
Number of unicast packets received.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
ifInMulticastPkts
Number of multicast packets received.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
ifInBroadcastPkts
Number of broadcast packets received.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsOversizePkts
Total number of packets received that were longer than 1518 octets (excluding framing bits, but including FCS octets) and were otherwise well formed.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
dot3StatsFCSErrors
Number of packets with an FCS error. FCS errors indicate frame corruption during transmission.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsUndersizePkts
Number of packets below the minimum packet size received.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsJabbers
Total number of octets of data (including bad packets) received on the network.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
dot3StatsAlignmentErrors
Number of received packets with alignment errors (incomplete frames).
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
ifOutOctets
Number of bytes transmitted since the last counter reset.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
ifOutUcastPkts
Number of unicast packets transmitted.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
ifOutMulticastPkts
Number of multicast packets transmitted.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
ifOutBroadcastPkts
Number of broadcast packets transmitted.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsDropEvents
Total number of events in which packets were dropped by the probe due to lack of resources. The value indicates the number of times this condition has been detected.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
ifInDiscards
Number of inbound packets that were chosen to be discarded even though no errors had been detected to prevent their being deliverable to a higher-layer protocol.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsOctets
Total number of octets of data (including those in bad packets) received on the network (excluding framing bits but including FCS octets).
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsPkts
Number of packets received with a length from 1024 to 1518 octets.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsBroadcastPkts
Total number of good broadcast packets received.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsMulticastPkts
Total number of good multicast (nonbroadcast) packets received.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsFragments
Total number of frames received that are less than 64 bytes in length and have a CRC error.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsPkts64Octets
Number of packets received with a length less than or equal to 64 octets.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsPkts65to127Octets
Number of packets received with a length from 65 to 127 octets.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsPkts128to255Octets
Number of packets received with a length from 128 to 255 octets.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsPkts256to511Octets
Number of packets received with a length from 256 to 511 octets.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsPkts512to1023Octets
Number of packets received with a length from 512 to 1023 octets.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
etherStatsPkts1024to1518Octets
Number of packets received with a length from 1024 to 1518 octets.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
ifOutDiscards
Number of outbound packets that were chosen to be discarded even though no errors had been detected to prevent their being transmitted.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
ifInErrors
Total number of receive errors.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
ifOutErrors
Total number of transmitted errors.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
dot3StatsInternalMacTxErrors
A count of frames for which transmission on a particular interface fails due to an internal MAC sublayer transmit error.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
dot3StatsFrameTooLong
Number of received frames that were larger than the maximum size permitted.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
dot3StatsInternalMacRxErrors
A count of frames for which reception on a particular interface fails due to an internal MAC sublayer receive error.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
dot3StatsSymbolErrors
Number of times there was an invalid data symbol when a valid carrier was present on a particular interface.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
rxPauseFrames
Number of received pause frames.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
txPauseFrames
Number of transmitted pause frames.
ONS 15600 SONET: ASAP_4
ONS 15600 SDH: ASAP_4
Tx Utilization (%)
Transmit utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
ONS 15600 SONET: ASAP_4
Rx Utilization (%)
Receive utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
ONS 15600 SONET: ASAP_4
NE ID
Name of the selected NE.
—
G.2.16 DWDM-Series Ethernet PM Table—ONS 15454 SONET, ONS 15454 SDH
The DWDM-Series Ethernet PM table shows performance data for the ONS 15454 SONET and ONS 15454 SDH DWDM-series Ethernet cards. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the DWDM-Series Ethernet PM table.
Note Real-time PM data is not available for Ethernet cards on NE releases earlier than release 5.0.
Table G-32 Field Descriptions for the DWDM-Series Ethernet PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Time Last Cleared
When the statistics were last reset.
—
ifInOctets
Number of bytes received since the last counter reset.
Number of inbound packets that were chosen to be discarded even though no errors had been detected to prevent their being deliverable to a higher-layer protocol.
Total number of packets received that had a length (excluding framing bits, but including FCS octets) from 64 to 1518 octets, inclusive, but had either a bad FCS with an integral number of octets (FCS error) or a bad FCS with a nonintegral number of octets (alignment error).
G.2.17 GFP PM Table—ONS 15310 CL, ONS 15310 MA, ONS 15454 SONET, ONS 15454 SDH, ONS 15600 SDH
The GFP PM table provides monitoring capability to allow operators to identify performance degradation in the generic framing procedure (GFP) multiplexing and framing. GFP describes a framing and encapsulation format for transporting L2/L3 data over SONET, SDH, or OTN transport networks.
You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the GFP PM table.
Table G-33 Field Descriptions for the GFP PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
Round-trip delay (in milliseconds [ms]) for the end-to-end FC transport.
—
GfpStatsRxSBlkCRCErrors
Number of super block CRC errors detected in the received GFP-T frames.
—
GfpStatsRxDistanceExtBuffers
Number of receive buffer credits for GFP-T (valid only if distance extension is enabled).
—
GfpStatsTxDistanceExtBuffers
Number of transmit buffer credits for GFP-T (valid only if distance extension is enabled).
—
NE ID
Name of the selected NE.
—
G.2.18 High Order PM Table (Far End)—ONS 15454 SDH
The SDH High Order PM table shows far-end performance data for the far-end ONS 15454 SDH high-order section. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the High Order PM table.
Table G-34 Field Descriptions for the High Order PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Interface
Interface name of the selected NE.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
HP-EB
High-order path errored block. HP-EB indicates that one or more bits are in error within a block.
High-order path severely errored seconds. HP-SES is a one-second period containing 30 percent or more errored blocks or at least one defect. SES is a subset of ES.
High-order path unavailable seconds. HP-UAS is a count of the seconds when the VC path was unavailable. A high-order path becomes unavailable when ten consecutive seconds occur that qualify as HP-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as HP-SESs.
High-order path background block error ratio. HP-BBER is the ratio of BBE to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
High-order path failure count. HP-FC is a count of the number of failed events.
MRC_4, MRC_12_2.5G
NE ID
Name of the selected NE.
—
G.2.19 High Order PM Table (Far End)—ONS 15600 SDH
The High Order PM table shows far-end performance data for the ONS 15600 SDH high-order section. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the High Order PM table.
Table G-35 Field Descriptions for the High Order PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Interface
Interface name of the selected NE.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
HP-EB
High-order path errored blocks (HP-EB) indicates that bits are in error within a block.
ASAP_4, STM16_16, STM64_4
HP-ES
High-order path errored seconds (HP-ES) is a one-second period with one or more errored blocks or at least one defect.
ASAP_4, STM16_16, STM64_4
HP-SES
High-order path severely errored seconds (HP-SES) is a one-second period containing more than 30 percent errored blocks or at least one defect. SES is a subset of ES.
ASAP_4, STM16_16, STM64_4
HP-UAS
High-order path unavailable seconds (HP-UAS) is a count of the seconds when the VC path was unavailable. A low-order path becomes unavailable when ten consecutive seconds occur that qualify as HP-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as HP-SESs.
ASAP_4, STM16_16, STM64_4
HP-FC
High-order path failure count (HP-FC) is a count of the number of failed events.
ASAP_4, STM16_16, STM64_4
HP-BBE
High-order path background block errors (HP-BBE) is an errored block not occurring as part of a severely errored second (SES).
ASAP_4, STM16_16, STM64_4
HP-ESR
High-order path errored seconds ratio (HP-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
ASAP_4, STM16_16, STM64_4
HP-SESR
High-order path severely errored seconds ratio (HP-SESR) is the ratio of SESs to total seconds in available time during a fixed measurement interval.
ASAP_4, STM16_16, STM64_4
HP-BBER
High-order path background block error ratio (HP-BBER) is the ratio of background block errors (BBEs) to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
ASAP_4, STM16_16, STM64_4
NE ID
Name of the selected NE.
—
G.2.20 High Order PM Table—ONS 15454 SDH
The High Order PM table shows performance data for the ONS 15454 SDH physical section. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the High Order PM table.
Table G-36 Field Descriptions for the High Order PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
HP-EB
High-order path errored blocks (HP-EB) indicates that one or more bits are in error within a block.
High-order path severely errored seconds (HP-SES) is a one-second period containing greater than 30% errored blocks or at least one defect. SES is a subset of ES.
High-order path unavailable seconds (HP-UAS) is a count of the seconds when the VC path was unavailable. A low-order path becomes unavailable when ten consecutive seconds occur that qualify as HP-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as HP-SESs.
High-order path background block error ratio (HP-BBER) is the ratio of background block errors (BBEs) to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
HP-PPJC-Pdet multiplex section, positive pointer justification count, path detected (MS-PPJC-Pdet) is a count of the positive pointer justifications detected on a particular path on an incoming SDH signal.
HP-NPJC-Pdet multiplex section, negative pointer justification count, path detected (MS-NPJC-Pdet) is a count of the negative pointer justifications detected on a particular path on an incoming SDH signal.
HP-PPJC-Pgen multiplex section, positive pointer justification count, path generated (MS-PPJC-Pgen) is a count of the positive pointer justifications generated for a particular path.
HP-NPJC-Pgen multiplex section, negative pointer justification count, path generated (MS-NPJC-Pgen) is a count of the negative pointer justifications generated for a particular path.
Sum of the absolute values of differences between positive transmitted and received, and negative transmitted and received. The important metric on pointer justification is not the exact counts, but how many were absorbed.
The High Order PM table shows performance data for the ONS 15600 SDH physical section. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the High Order PM table.
Table G-37 Field Descriptions for the High Order PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
HP-EB
High-order path errored blocks (HP-EB) indicates that one or more bits are in error within a block.
ASAP_4, STM16_16, STM64_4
HP-ES
High-order path errored seconds (HP-ES) is a one-second period with one or more errored blocks or at least one defect.
ASAP_4, STM16_16, STM64_4
HP-SES
High-order path severely errored seconds (HP-SES) is a one-second period containing greater than 30% errored blocks or at least one defect. SES is a subset of ES.
ASAP_4, STM16_16, STM64_4
HP-UAS
High-order path unavailable seconds (HP-UAS) is a count of the seconds when the VC path was unavailable. A low-order path becomes unavailable when ten consecutive seconds occur that qualify as HP-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as HP-SESs.
ASAP_4, STM16_16, STM64_4
HP-FC
High-order path failure count (HP-FC) is a count of the number of failed events.
ASAP_4, STM16_16, STM64_4
HP-BBE
High-order path background block errors (HP-BBE) is an errored block not occurring as part of an SES.
ASAP_4, STM16_16, STM64_4
HP-ESR
High-order path errored seconds ratio (HP-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
ASAP_4, STM16_16, STM64_4
HP-SESR
High-order path severely errored seconds ratio (HP-SESR) is the ratio of SES to total seconds in available time during a fixed measurement interval.
ASAP_4, STM16_16, STM64_4
HP-BBER
High-order path background block error ratio (HP-BBER) is the ratio of BBEs to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
ASAP_4, STM64_4, STM16_16
HP-PPJC-Pdet
HP-PPJC-Pdet multiplex section, positive pointer justification count, path detected (MS-PPJC-Pdet) is a count of the positive pointer justifications detected on a particular path on an incoming SDH signal.
STM64_4, STM16_16
HP-NPJC-Pdet
HP-NPJC-Pdet multiplex section, negative pointer justification count, path detected (MS-NPJC-Pdet) is a count of the negative pointer justifications detected on a particular path on an incoming SDH signal.
STM64_4, STM16_16
HP-PPJC-Pgen
HP-PPJC-Pgen multiplex section, positive pointer justification count, path generated (MS-PPJC-Pgen) is a count of the positive pointer justifications generated for a particular path.
STM64_4, STM16_16
HP-NPJC-Pgen
HP-NPJC-Pgen multiplex section, negative pointer justification count, path generated (MS-NPJC-Pgen) is a count of the negative pointer justifications generated for a particular path.
STM64_4, STM16_16
NE ID
Name of the selected NE.
—
G.2.22 IP SLA PM Table—ONS 15310 CL, ONS 15310 MA, ONS 15454 SONET, ONS 15454 SDH
The IP SLA PM table allows you to monitor service-level agreements (SLAs) for IP networks. Service levels are measured by downtime, bandwidth, latency, jitter, packet loss, and so on. These measurements are controllable and do not depend on network traffic.
You can display IP SLA performance data in real time. When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Note You can launch the IP SLA PM table only from the IP SLA table, not from the Domain Explorer or the NE Explorer.
The following table describes the fields in the IP SLA PM table.
Table G-38 Field Descriptions for the IP SLA PM Table
Column
Description
Cards Supported
Alias NE ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
NE ID
Name of the selected NE.
—
Validity
Whether the data in the entry is valid.
—
rttMonJitterStatsCompletions
Number of jitter operations that have completed successfully.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOverThresholds
Number of jitter operations that violate the threshold.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsNumOfRTT
Number of successful round trips.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsRTTSum
Sum of the round-trip values, in milliseconds (ms).
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsRTTSum2Low
Sum of the squares of the low round-trip values, in ms.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsRTTSum2High
Sum of the squares of the high round-trip values, in ms.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsRTTMin
Minimum number of round-trip times (RTTs) that were measured successfully.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsRTTMax
Maximum number of RTTs that were measured successfully.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsMinOfPositivesSD
Minimum positive jitter values from the source to the destination, in ms. Positive jitter values indicate delays in receiving time from one packet to another.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsMaxOfPositivesSD
Maximum positive jitter values from the source to the destination, in ms. Positive jitter values indicate delays in receiving time from one packet to another.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsNumOfPositivesSD
Number of jitter values from the source to the destination that are positive (that is, network latency increases for two consecutive test packets).
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSumOfPositivesSD
Sum of the positive values, in ms.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSum2PositivesSDLow
Sum of the squares of the low positive values.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSum2PositivesSDHigh
Sum of the squares of the high positive values.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsMinOfNegativesSD
Minimum negative jitter values from the source to the destination. The absolute value is given.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsMaxOfNegativesSD
Maximum negative jitter values from the source to the destination. The absolute value is given.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsNumOfNegativesSD
Number of jitter values from the source to the destination that are negative (that is, network latency decreases for two consecutive test packets).
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSumOfNegativesSD
Sum of the negative values.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSum2NegativesSDLow
Sum of the squares of the negative low values.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSum2NegativesSDHigh
Sum of the squares of the negative high values.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsMinOfPositivesDS
Minimum of all positive jitter values from packets sent from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsMaxOfPositivesDS
Maximum of all positive jitter values from packets sent from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsNumOfPositivesDS
Sum of numbers of all positive jitter values from packets sent from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSumOfPositivesDS
Sum of RTTs of all positive jitter values from packets sent from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSum2PositivesDSLow
Sum of squares of RTTs of all positive jitter values from packets sent from the destination to the source (low-order 32 bits).
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSum2PositivesDSHigh
Sum of the squares of RTTs of all positive jitter values from packets sent from the destination to the source (high-order 32 bits).
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsMinOfNegativesDS
Minimum of all negative jitter values from packets sent from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsMaxOfNegativesDS
Maximum of all negative jitter values from packets sent from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsNumOfNegativesDS
Sum of numbers of all negative jitter values from packets sent from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSumOfNegativesDS
Sum of RTTs of all negative jitter values from packets sent from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSum2NegativesDSLow
Sum of the squares of RTTs of all negative jitter values from packets sent from the destination to the source (low-order 32 bits).
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsSum2NegativesDSHigh
Sum of the squares of RTTs of all negative jitter values from packets sent from the destination to the source (high-order 32 bits).
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsPacketLossSD
Number of packets lost from the source to the destination.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsPacketLossDS
Number of packets lost from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsPacketOutOfSequence
Number of packets that were returned out of order.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsPacketMIA
Number of packets lost where the direction (source-to-destination or destination-to-source) cannot be determined.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsPacketLateArrival
Number of packets that arrived after the timeout.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsError
Number of times an operation could not be started due to other internal failures.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsBusies
Number of times the operation could not be started because the previously scheduled run was not finished.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOWSumSD
Sum of one-way times from the source to the destination.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOWSum2SDLow
Sum of the squares of one-way times from the source to the destination (low-order 32 bits).
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOWSum2SDHigh
Sum of the squares of one-way times from the source to the destination (high-order 32 bits).
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOWMinSD
Minimum of all one-way times from the source to the destination.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOWMaxSD
Maximum of all one-way times from the source to the destination.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOWSumDS
Sum of one-way times from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOWSum2DSLow
Sum of the squares of one-way times from the destination to the source (low-order 32 bits).
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOWSum2DSHigh
Sum of the squares of one-way times from the destination to the source (high-order 32 bits).
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOWMinDS
Minimum of all one-way times from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOWMaxDS
Maximum of all one-way times from the destination to the source.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsNumOfOW
Number of one-way times that were measured successfully.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
rttMonJitterStatsOWMinSDNew
Minimum of all one-way times from the source to the destination. Replaces deprecated rttMonJitterStatsOWMinSD.
•ONS 15310 CL—ML100T, ML100X-8, ML1000
•ONS 15310 MA—ML100T, ML100X-8, ML1000
•ONS 15454 SONET—ML100T, ML100X-8, ML1000
•ONS 15454 SDH—ML100T, ML100X-8, ML1000
G.2.23 Low Order VC11 PM Table—ONS 15454 SDH
The Low Order VC11 PM table shows performance data for the ONS 15454 SDH low-order VC11. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Low Order VC11 PM table.
Table G-39 Field Descriptions for the Low Order VC11 PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Interface
Interface name of the selected NE.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
VC11-LP-EB
Low-Order Path Errored Block (LP-EB) indicates that one or more bits are in error within a block.
—
VC11-LP-BBE
Low-Order Path Background Block Error (LP-BBE) is an errored block not occurring as part of an SES.
—
VC11-LP-ES
Low-Order Path Errored Second (LP-ES) is a one-second period with one or more errored blocks or at least one defect.
—
VC11-LP-SES
Low-Order Path Severely Errored Seconds (LP-SES) is a one-second period containing greater than 30% errored blocks or at least one defect. SES is a subset of ES.
—
VC11-LP-UAS
Low-Order Path Unavailable Seconds (LP-UAS) is a count of the seconds when the VC path was unavailable. A low-order path becomes unavailable when ten consecutive seconds occur that qualify as LP-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as LP-SESs.
—
VC11-LP-ESR
Low-Order Path Errored Second Ratio (LP-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
—
VC11-LP-SESR
Low-Order Path Severely Errored Second Ratio (LP-SESR) is the ratio of SES to total seconds in available time during a fixed measurement interval.
—
VC11-LP-BBER
Low-Order Path Background Block Error Ratio (LP-BBER) is the ratio of BBEs to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
—
NE ID
Name of the selected NE.
—
G.2.24 Low Order VC12 PM Table—ONS 15454 SDH
The Low Order VC12 PM table shows performance data for the ONS 15454 SDH low-order VC12. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Low Order VC12 PM table.
Table G-40 Field Descriptions for the Low Order VC12 PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Interface
Interface name of the selected NE.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
VC12-LP-EB
Low-Order Path Errored Block (LP-EB) indicates that one or more bits are in error within a block.
E1, E1N, E1_42
VC12-LP-BBE
Low-Order Path Background Block Error (LP-BBE) is an errored block not occurring as part of an SES.
E1, E1N, E1_42
VC12-LP-ES
Low-Order Path Errored Second (LP-ES) is a one-second period with one or more errored blocks or at least one defect.
E1, E1N, E1_42
VC12-LP-SES
Low-Order path severely errored seconds (LP-SES) is a one-second period containing greater than 30% errored blocks or at least one defect. SES is a subset of ES.
E1, E1N, E1_42
VC12-LP-UAS
Low-Order path unavailable seconds (LP-UAS) is a count of the seconds when the VC path was unavailable. A low-order path becomes unavailable when ten consecutive seconds occur that qualify as LP-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as LP-SESs.
E1, E1N, E1_42
VC12-LP-ESR
Low-Order Path Errored Second Ratio (LP-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
E1, E1N, E1_42
VC12-LP-SESR
Low-Order Path Severely Errored Second Ratio (LP-SESR) is the ratio of SES to total seconds in available time during a fixed measurement interval.
E1, E1N, E1_42
VC12-LP-BBER
Low-Order Path Background Block Error Ratio (LP-BBER) is the ratio of BBEs to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
The Low Order VC11 Section PM table shows far-end performance data for the ONS 15454 SDH low-order VC11 section far end. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Low Order VC11 Section PM table.
Table G-41 Field Descriptions for the Low Order VC11 Section PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Interface
Interface name of the selected NE.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
VC11-LP-EB
Low-order errored block (LP-EB) indicates that one or more one or more bits are in error within a block.
—
VC11-LP-BBE
Low-order background block errors (LP-BBE) is an errored block not occurring as part of an SES.
—
VC11-LP-ES
Low-order errored seconds (LP-ES) is a one-second period with one or more errored blocks or at least one defect.
—
VC11-LP-SES
Low-order severely errored seconds (LP-SES) is a one-second period containing greater than or equal to 30 percent errored blocks or at least one defect. SES is a subset of ES.
—
VC11-LP-UAS
Low-order unavailable seconds (LP-UAS) is a count of the seconds when the VC path was unavailable. A low-order path becomes unavailable when ten consecutive seconds occur that qualify as LP-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as LP-SESs.
—
VC11-LP-ESR
Low-order errored second ratio (LP-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
—
VC11-LP-SESR
Low-order severely errored second ratio (LP-SESR) is the ratio of SES to total seconds in available time during a fixed measurement interval.
—
VC11-LP-BBER
Low-order background block error ratio (LP-BBER) is the ratio of BBE to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
The Low Order VC12 Section PM table shows far-end performance data for the ONS 15454 SDH low-order VC12 section far end. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Low Order VC12 Section PM table.
Table G-42 Field Descriptions for the Low Order VC12 Section PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Interface
Interface name of the selected NE.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
VC12-LP-EB
Low-order errored block (LP-EB) indicates that one or more bits are in error within a block.
E1, E1N, E1_42
VC12-LP-BBE
Low-order background block errors (LP-BBE) is an errored block not occurring as part of an SES.
E1, E1N, E1_42
VC12-LP-ES
Low-order errored seconds (LP-ES) is a one-second period with one or more errored blocks or at least one defect.
E1, E1N, E1_42
VC12-LP-SES
Low-order severely errored seconds (LP-SES) is a one-second period containing greater than or equal to 30 percent errored blocks or at least one defect. SES is a subset of ES.
E1, E1N, E1_42
VC12-LP-UAS
Low-order unavailable seconds (LP-UAS) is a count of the seconds when the VC path was unavailable. A low-order path becomes unavailable when ten consecutive seconds occur that qualify as LP-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as LP-SESs.
E1, E1N, E1_42
VC12-LP-ESR
Low-order errored second ratio (LP-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
E1, E1N, E1_42
VC12-LP-SESR
Low-order severely errored second ratio (LP-SESR) is the ratio of SES to total seconds in available time during a fixed measurement interval.
E1, E1N, E1_42
VC12-LP-BBER
Low-order background block error ratio (LP-BBER) is the ratio of BBE to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
E1, E1N, E1_42
NE ID
Name of the selected NE.
—
G.2.27 Low Order VC3 PM Table—ONS 15454 SDH
The Low Order VC3 PM table shows performance data for the ONS 15454 SDH low-order VC3. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Low Order VC3 PM table.
Table G-43 Field Descriptions for the Low Order VC3 PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Interface
Interface name of the selected NE.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
VC3-LP-EB
Low-Order Path Errored Block (LP-EB) indicates that one or more bits are in error within a block.
DS3I, DS3IN, E3
VC3-LP-BBE
Low-Order Path Background Block Error (LP-BBE) is an errored block not occurring as part of an SES.
DS3I, DS3IN, E3
VC3-LP-ES
Low-Order Path Errored Second (LP-ES) is a one-second period with one or more errored blocks or at least one defect.
DS3I, DS3IN, E3
VC3-LP-SES
Low-Order path severely errored seconds (LP-SES) is a one-second period containing greater than 30% errored blocks or at least one defect. SES is a subset of ES.
DS3I, DS3IN, E3
VC3-LP-UAS
Low-Order path unavailable seconds (LP-UAS) is a count of the seconds when the VC path was unavailable. A low-order path becomes unavailable when ten consecutive seconds occur that qualify as LP-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as LP-SESs.
DS3I, DS3IN, E3
VC3-LP-ESR
Low-Order Path Errored Second Ratio (LP-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
DS3I, DS3IN, E3
VC3-LP-SESR
Low-Order Path Severely Errored Second Ratio (LP-SESR) is the ratio of SES to total seconds in available time during a fixed measurement interval.
DS3I, DS3IN, E3
VC3-LP-BBER
Low-Order Path Background Block Error Ratio (LP-BBER) is the ratio of BBEs to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
The Low Order VC3 Section PM table shows far-end performance data for the far-end ONS 15454 SDH low-order VC3 section. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Low Order VC3 Section PM table.
Table G-44 Field Descriptions for the Low Order VC3 Section PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Interface
Interface name of the selected NE.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
VC3-LP-EB
Low-order section errored block (LP-EB) indicates that one or more bits are in error within a block.
DS3I, DS3IN, E3
VC3-LP-BBE
Low-order section background block errors (LP-BBE) is an errored block not occurring as part of an SES.
DS3I, DS3IN, E3
VC3-LP-ES
Low-order section errored seconds (LP-ES) is a one-second period with one or more errored blocks or at least one defect.
DS3I, DS3IN, E3
VC3-LP-SES
Low-order section severely errored seconds (LP-SES) is a one-second period containing greater than or equal to 30 percent errored blocks or at least one defect. SES is a subset of ES.
DS3I, DS3IN, E3
VC3-LP-UAS
Low-order section unavailable seconds (LP-UAS) is a count of the seconds when the VC path was unavailable. A low-order path becomes unavailable when ten consecutive seconds occur that qualify as LP-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as LP-SESs.
DS3I, DS3IN, E3
VC3-LP-ESR
Low-order section errored second ratio (LP-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
DS3I, DS3IN, E3
VC3-LP-SESR
Low-order section severely errored seconds ratio (LP-SESR) is the ratio of SES to total seconds in available time during a fixed measurement interval.
DS3I, DS3IN, E3
VC3-LP-BBER
Low-order section background block error ratio (LP-BBER) is the ratio of BBE to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
The Multiplex Section PM table shows far-end performance data for the SDH multiplex section far-end. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Multiplex Section PM table.
Table G-45 Field Descriptions for the Multiplex Section PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
MS-EB
Multiplex section errored block (MS-EB) indicates that one or more bits are in error within a block.
Multiplex section severely errored seconds (MS-SES) is a one-second period that contains 30 percent or more errored blocks or at least one defect. SES is a subset of ES. For more information, see ITU-T G.829 Section 5.1.3.
Multiplex section unavailable seconds (MS-UAS) is a count of the seconds when the section was unavailable. A section becomes unavailable when ten consecutive seconds occur that qualify as MS-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as MS-SESs. When the condition is entered, MS-SESs decrement and then count toward MS-UAS.
Multiplex section errored seconds ratio (MS-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
Multiplex section background block errored ratio (MS-BBER) is the ratio of BBE to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
The Multiplex Section PM table shows far-end performance data for the ONS 15600 SDH multiplex section far end. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Multiplex Section PM table.
Table G-46 Field Descriptions for the Multiplex Section PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
MS-EB
Multiplex section errored block (MS-EB) indicates that one or more bits are in error within a block.
ASAP_4, STM16_16, STM64_4
MS-ES
Multiplex section errored seconds (MS-ES) is a one-second period with one or more errored blocks or at least one defect.
ASAP_4, STM16_16, STM64_4
MS-SES
Multiplex section severely errored seconds (MS-SES) is a one-second period that contains 30 percent or more errored blocks or at least one defect. SES is a subset of ES. For more information, see ITU-T G.829 Section 5.1.3.
ASAP_4, STM16_16, STM64_4
MS-UAS
Multiplex section unavailable seconds (MS-UAS) is a count of the seconds when the section was unavailable. A section becomes unavailable when ten consecutive seconds occur that qualify as MS-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as MS-SESs. When the condition is entered, MS-SESs decrement and then count toward MS-UAS.
ASAP_4, STM16_16, STM64_4
MS-FC
Multiplex section failure count (MS-FC) is a count of the number of failed events.
ASAP_4, STM16_16, STM64_4
MS-BBE
Multiplex section background block errors (MS-BBE) is an errored block not occurring as part of an SES.
ASAP_4, STM16_16, STM64_4
MS-ESR
Multiplex section errored seconds ratio (MS-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
—
MS-SESR
Multiplex section severely errored seconds ratio (MS-SESR) is the ratio of SES to total seconds in available time during a fixed measurement interval.
—
MS-BBER
Multiplex section background block errored ratio (MS-BBER) is the ratio of BBE to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
—
NE ID
Name of the selected NE.
—
G.2.31 Multiplex Section PM Table—ONS 15454 SDH
The Multiplex Section PM table shows performance data for the SDH multiplex section. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Multiplex Section PM table.
Table G-47 Field Descriptions for the Multiplex Section PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
MS-EB
Multiplex section errored blocks (MS-EB) indicates that bits are in error within a block.
Multiplex section severely errored seconds (MS-SES) is a one-second period that contains 30 percent or more errored blocks or at least one defect. SES is a subset of ES. For more information, see ITU-T G.829 Section 5.1.3.
Multiplex section unavailable seconds (MS-UAS) is a count of the seconds when the section was unavailable. A section becomes unavailable when ten consecutive seconds occur that qualify as MS-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as MS-SESs. When the condition is entered, MS-SESs decrement and then count toward MS-UAS.
In a 1 + 1 protection scheme for a working card, protection switching count (PSC) is a count of the number of times service switches from a working card to a protection card plus the number of times service switches back to the working card.
For a protection card, PSC is a count of the number of times service switches to a working card from a protection card plus the number of times service switches back to the protection card. The PSC PM applies to revertive and nonrevertive, line-level protection switching.
Note MS-SPRing is not supported on the STM-1 card; therefore, the PSD-W, PSD-S, and PSD-R PMs do not increment.
Note This parameter is not supported for transponder or muxponder cards.
Protection switching duration (PSD) applies to the length of time, in seconds, that service is carried on another line. For a working line, PSD is a count of the number of seconds that service was carried on the protection line. For the protection line, PSD is a count of the seconds that the line was used to carry service. The PSD PM applies to revertive and nonrevertive, line-level protection switching.
Note MS-SPRing is not supported on the STM-1 card; therefore, the PSD-W, PSD-S, and PSD-R PMs do not increment.
Note This parameter is not supported for transponder or muxponder cards.
For a working line in a 2-fiber MS-SPRing, protection switching count-working (PSC-W) is a count of the number of times traffic switches away from the working capacity in the failed line and back to the working capacity after the failure is cleared. PSC-W increments on the failed working line and PSC increments on the active protect line.
Note This parameter is not supported for transponder or muxponder cards.
For a working line in a 2-fiber MS-SPRing, protection switching duration-working (PSD-W) is a count of the number of seconds that service was carried on the protection line. PSD-W increments on the failed working line and PSD increments on the active protect line.
Note This parameter is not supported for transponder or muxponder cards.
In a 4-fiber MS-SPRing, protection switching count-span (PSC-S) is a count of the number of times service switches from a working line to a protection line plus the number of times it switches back to the working line. A count is only incremented if span switching is used.
Note This parameter is not supported for transponder or muxponder cards.
In a 4-fiber MS-SPRing, protection switching duration-span (PSD-S) is a count of the seconds that the protection line was used to carry service. A count is only incremented if span switching is used.
Note This parameter is not supported for transponder or muxponder cards.
In a 4-fiber MS-SPRing, protection switching count-ring (PSC-R) is a count of the number of times service switches from a working line to a protection line plus the number of times it switches back to a working line. A count is only incremented if ring switching is used.
Note This parameter is not supported for transponder or muxponder cards.
In a 4-fiber MS-SPRing, protection switching duration-ring (PSD-R) is a count of the seconds that the protection line was used to carry service. A count is only incremented if ring switching is used.
Note This parameter is not supported for transponder or muxponder cards.
Multiplex section errored seconds ratio (MS-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
Multiplex section background block error ratio (MS-BBER) is the ratio of BBE to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
The Multiplex Section PM table shows performance data for the ONS 15600 SDH multiplex section. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Multiplex Section PM table.
Table G-48 Field Descriptions for the Multiplex Section PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
MS-EB
Multiplex section errored blocks (MS-EB) indicates that one or more bits are in error within a block.
ASAP_4, STM16_16, STM64_4
MS-ES
Multiplex section errored seconds (MS-ES) is a one-second period with one or more errored blocks or at least one defect.
ASAP_4, STM16_16, STM64_4
MS-SES
Multiplex section severely errored seconds (MS-SES) is a one-second period that contains 30 percent or more errored blocks or at least one defect. SES is a subset of ES. For more information, see ITU-T G.829 Section 5.1.3.
ASAP_4, STM16_16, STM64_4
MS-UAS
Multiplex section unavailable seconds (MS-UAS) is a count of the seconds when the section was unavailable. A section becomes unavailable when ten consecutive seconds occur that qualify as MS-SESs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as MS-SESs. When the condition is entered, MS-SESs decrement and then count toward MS-UAS.
ASAP_4, STM16_16, STM64_4
MS-FC
Multiplex section failure count (MS-FC) is a count of the number of failed events.
ASAP_4, STM16_16, STM64_4
MS-BBE
Multiplex section background block errors (MS-BBE) is an errored block not occurring as part of an SES.
ASAP_4, STM16_16, STM64_4
MS-PSC
In a 1 + 1 protection scheme for a working card, PSC is a count of the number of times service switches from a working card to a protection card plus the number of times service switches back to the working card.
For a protection card, PSC is a count of the number of times service switches to a working card from a protection card plus the number of times service switches back to the protection card. The PSC PM applies to revertive and nonrevertive, line-level protection switching.
Note MS-SPRing is not supported on the STM-1 card; therefore, the PSD-W, PSD-S, and PSD-R PMs do not increment.
ASAP_4, STM16_16, STM64_4
MS-PSD
PSD applies to the length of time, in seconds, that service is carried on another line. For a working line, PSD is a count of the number of seconds that service was carried on the protection line. For the protection line, PSD is a count of the seconds that the line was used to carry service. The PSD PM applies to revertive and nonrevertive, line-level protection switching.
Note MS-SPRing is not supported on the STM-1 card; therefore, the PSD-W, PSD-S, and PSD-R PMs do not increment.
ASAP_4, STM16_16, STM64_4
MS-PSC-W
For a working line in a 2-fiber MS-SPRing, protection switching count-working (PSC-W) is a count of the number of times traffic switches away from the working capacity in the failed line and back to the working capacity after the failure is cleared. PSC-W increments on the failed working line and PSC increments on the active protect line.
ASAP_4, STM16_16, STM64_4
MS-PSD-W
For a working line in a 2-fiber MS-SPRing, protection switching duration-working (PSD-W) is a count of the number of seconds that service was carried on the protection line. PSD-W increments on the failed working line and PSD increments on the active protect line.
ASAP_4, STM16_16, STM64_4
MS-PSC-S
In a 4-fiber MS-SPRing, protection switching count-span (PSC-S) is a count of the number of times service switches from a working line to a protection line plus the number of times it switches back to the working line. A count is only incremented if span switching is used.
ASAP_4, STM16_16, STM64_4
MS-PSD-S
In a 4-fiber MS-SPRing, protection switching duration-span (PSD-S) is a count of the seconds that the protection line was used to carry service. A count is only incremented if span switching is used.
ASAP_4, STM16_16, STM64_4
MS-PSC-R
In a 4-fiber MS-SPRing, protection switching count-ring (PSC-R) is a count of the number of times service switches from a working line to a protection line plus the number of times it switches back to a working line. A count is only incremented if ring switching is used.
ASAP_4, STM16_16, STM64_4
MS-PSD-R
In a 4-fiber MS-SPRing, protection switching duration-ring (PSD-R) is a count of the seconds that the protection line was used to carry service. A count is only incremented if ring switching is used.
ASAP_4, STM16_16, STM64_4
MS-ESR
Multiplex section errored seconds ratio (MS-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
—
MS-SESR
Multiplex section severely errored seconds ratio (MS-SESR) is the ratio of SES to total seconds in available time during a fixed measurement interval.
—
MS-BBER
Multiplex section background block error ratio (MS-BBER) is the ratio of BBE to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
—
NE ID
Name of the selected NE.
—
G.2.33 Optical Physical PM Table—ONS 15310 CL, ONS 15310 MA, ONS 15454 SONET, ONS 15454 SDH, ONS 15600 SONET, ONS 15600 SDH
The Optical Physical PM table shows physical-layer performance data. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
The following table describes the fields in the Optical Physical PM table.
Table G-49 Field Descriptions for the Optical Physical PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Card-level interface.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Laser Bias Current
Laser bias current, which is interpreted as a percentage value from 0 to 100.
Note Laser bias current is not supported (N/A) for the TXP_MR_2.5G and TXPP_MR_2.5G cards.
Minimum transmit power level in increments of one-tenths of dBm. The range is from -40.0 to 30.0 dBm for the following cards:TXP_MR_2.5G, TXPP_MR_2.5G, TXP_MR_10E, TXP_MR_10G, 2.5G_DM, 2.5G_DMP, MXP_2.5G_10E, and MXP_2.5G_10G. For the other supported DWDM cards, the range is from -50.0 to 30.0 dBm.
Note Transmit power is not supported for trunk ports.
Average transmit power level in increments of one-tenths of dBm. The range is from -40.0 to 30.0 dBm for the following cards:TXP_MR_2.5G, TXPP_MR_2.5G, TXP_MR_10E, TXP_MR_10G, 2.5G_DM, 2.5G_DMP, MXP_2.5G_10E, and MXP_2.5G_10G. For the other supported DWDM cards, the range is from -50.0 to 30.0 dBm.
Note Transmit power is not supported for trunk ports.
Maximum transmit power level in increments of one-tenths of dBm. The range is from -40.0 to 30.0 dBm for the following cards:TXP_MR_2.5G, TXPP_MR_2.5G, TXP_MR_10E, TXP_MR_10G, 2.5G_DM, 2.5G_DMP, MXP_2.5G_10E, and MXP_2.5G_10G. For the other supported DWDM cards, the range is from -50.0 to 30.0 dBm.
Note Transmit power is not supported for trunk ports.
Minimum receive power level in increments of one-tenths of dBm. The range is from -40.0 to 30.0 dBm for the following cards:TXP_MR_2.5G, TXPP_MR_2.5G, TXP_MR_10E, TXP_MR_10G, 2.5G_DM, 2.5G_DMP, MXP_2.5G_10E, and MXP_2.5G_10G. For the other supported DWDM cards, the range is from -50.0 to 30.0 dBm.
Average receive power level in increments of one-tenths of dBm. The range is from -40.0 to 30.0 dBm for the following cards:TXP_MR_2.5G, TXPP_MR_2.5G, TXP_MR_10E, TXP_MR_10G, 2.5G_DM, 2.5G_DMP, MXP_2.5G_10E, and MXP_2.5G_10G. For the other supported DWDM cards, the range is from -50.0 to 30.0 dBm.
Maximum receive power level in increments of one-tenths of dBm. The range is from -40.0 to 30.0 dBm for the following cards:TXP_MR_2.5G, TXPP_MR_2.5G, TXP_MR_10E, TXP_MR_10G, 2.5G_DM, 2.5G_DMP, MXP_2.5G_10E, and MXP_2.5G_10G. For the other supported DWDM cards, the range is from -50.0 to 30.0 dBm.
G.2.34 OTN FEC PM Table—ONS 15454 SONET, ONS 15454 SDH
The OTN FEC PM table shows OTN forward error correction (FEC) performance data for trunk ports on the ONS 15454 SONET and ONS 15454 SDH. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the OTN FEC PM table.
Table G-50 Field Descriptions for the OTN FEC PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
Ratio of uncorrected codewords to codewords transmitted. A codeword is a block of N symbols that carry K information symbols and R redundant symbols (N = K+R).
The OTN Path PM table shows OTN path performance data for trunk ports on the ONS 15454 SONET and ONS 15454 SDH. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the OTN Path PM table.
Table G-51 Field Descriptions for the OTN Path PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
The OTN Path PM table shows near-end OTN path performance data for trunk ports on the ONS 15454 SONET and ONS 15454 SDH. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the OTN Path PM table.
Table G-52 Field Descriptions for the OTN Path PM Table (Near End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
The OTN Section PM table shows OTN section performance data for trunk ports on the ONS 15454 SONET and ONS 15454 SDH. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the OTN Section PM table.
Table G-53 Field Descriptions for the OTN Section PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
The OTN Section PM table shows near-end OTN section performance data for trunk ports on the ONS 15454 SONET and ONS 15454 SDH. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the OTN Section PM table.
Table G-54 Field Descriptions for the OTN Section PM Table (Near End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
ES-S
Section Errored Seconds (ES-S) indicates the errored seconds recorded in the OTN section during the PM time interval.
G.2.39 POS PM Table—ONS 15310 CL, ONS 15310 MA, ONS 15454 SONET, ONS 15454 SDH, ONS 15600 SONET, ONS 15600 SDH
The POS PM table shows POS performance data for Ethernet cards. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the POS PM table.
Note Real-time PM data is not available for POS cards on NE releases earlier than release 5.0.
Table G-55 Field Descriptions for the POS PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Time Last Cleared
When the statistics were last reset.
—
Rx Pre HDLC Bytes
Number of bytes received prior to the bytes undergoing HDCL encapsulation by the policy engine.
—
Rx Post HDLC Bytes
Number of bytes received after the bytes undergoing HDLC encapsulation by the policy engine.
—
Rx Packets
Number of bytes received since the last counter reset.
Number of received frames dropped at the port level.
—
ifInDiscards
Number of inbound packets that were chosen to be discarded even though no errors had been detected to prevent their being deliverable to a higher-layer protocol.
Total number of events in which packets were dropped by the probe due to lack of resources. The value indicates the number of times this condition has been detected.
Receive utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
•ONS 15600 SONET: ASAP_4
Tx Utilization Stats (%)
Transmit utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
•ONS 15600 SONET: ASAP_4
NE ID
Name of the selected NE.
—
G.2.40 Regenerator Section PM Table—ONS 15454 SDH
The Regenerator Section PM table shows performance data for the SDH regenerator section. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Regenerator Section PM table.
Table G-56 Field Descriptions for the Regenerator Section PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
RS-EB
Regenerator Section Errored Block (RS-EB) indicates that one or more bits are in error within a block.
Regenerator Section Severely Errored Second (RS-SES) is a one-second period that contains 30 percent or more errored blocks or at least one defect. SES is a subset of ES.
Regenerator Section Unavailable Second (RS-UAS) is a count of the seconds when the regenerator section was unavailable. A section becomes unavailable when ten consecutive seconds occur that qualify as RS-UASs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as RS-UASs.
Regenerator Section Errored Second Ratio (RS-ESR) is the ratio of errored seconds to total seconds in available time during a fixed measurement interval.
Regenerator Section Severely Errored Second Ratio (RS-SESR) is the ratio of SES to total seconds in available time during a fixed measurement interval.
Regenerator Section Background Block Error Ratio (RS-BBER) is the ratio of BBE to total blocks in available time during a fixed measurement interval. The count of total blocks excludes all blocks during SESs.
Regenerator Section Out of Frame Seconds (RS-OSF) is the count of seconds when the Regenerator Section was out of frame.
MRC_4, MRC_12_2.5G, MXP_MR_10DME, OC192_XFP
NE ID
Name of the selected NE.
—
G.2.41 Regenerator Section PM Table—ONS 15600 SDH
The Regenerator Section PM table shows performance data for the ONS 15600 SDH regenerator section. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Regenerator Section PM table.
Table G-57 Field Descriptions for the Regenerator Section PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
RS-EB
Regenerator Section Errored Block (RS-EB) indicates that one or more bits are in error within a block.
ASAP_4, STM16_16, STM64_4
RS-ES
Regenerator Section Errored Second (RS-ES) is a one-second period with one or more errored blocks or at least one defect.
ASAP_4, STM16_16, STM64_4
RS-SES
Regenerator Section Severely Errored Second (RS-SES) is a one-second period that contains 30 percent or more errored blocks or at least one defect. SES is a subset of ES.
ASAP_4, STM16_16, STM64_4
RS-BBE
Regenerator Section Background Block Error (RS-BBE) is an errored block not occurring as part of an SES.
ASAP_4, STM16_16, STM64_4
RS-UAS
Regenerator Section Unavailable Second (RS-UAS) is a count of the seconds when the regenerator section was unavailable. A section becomes unavailable when ten consecutive seconds occur that qualify as RS-UASs, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as RS-UASs.
—
RS-OFS
Regenerator Section Out of Frame Seconds (RS-OSF) is the count of seconds when the regenerator section was out of frame.
ASAP_4, STM16_16, STM64_4
NE ID
Name of the selected NE.
—
G.2.42 RPR 802.17 PM Table—ONS 15454 SONET, ONS 15454 SDH
The RPR 802.17 PM table shows performance data for the ONS 15454 SONET and ONS 15454 SDH ML-series cards in Resilient Packet Ring (RPR) mode (IEEE 802.17). You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the RPR 802.17 PM table.
Table G-58 Field Descriptions for the RPR 802.17 PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Time Last Cleared
When the statistics were last reset.
—
rprSpanStatsInUcastClassAFrames
Number of received (PHY to MAC) class A unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInUcastClassAOctets
Number of received (PHY to MAC) class A unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInUcastClassBCirFrames
Number of received (PHY to MAC) class B CIR unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInUcastClassBCirOctets
Number of received (PHY to MAC) class B CIR unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInUcastClassBEirFrames
Number of received (PHY to MAC) class B EIR unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInUcastClassBEirOctets
Number of received (PHY to MAC) class B EIR unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInUcastClassCFrames
Number of received (PHY to MAC) class C unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInUcastClassCOctets
Number of received (PHY to MAC) class C unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInMcastClassAFrames
Number of received (PHY to MAC) class A multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInMcastClassAOctets
Number of received (PHY to MAC) class A multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInMcastClassBCirFrames
Number of received (PHY to MAC) class B CIR multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInMcastClassBCirOctets
Number of received (PHY to MAC) class B CIR multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInMcastClassBEirFrames
Number of received (PHY to MAC) class B EIR multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInMcastClassBEirOctets
Number of received (PHY to MAC) class B EIR multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInMcastClassCFrames
Number of received (PHY to MAC) class C multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInMcastClassCOctets
Number of received (PHY to MAC) class C multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInCtrlFrames
Number of received (PHY to MAC) control frames processed by this MAC. This does not include control frames in transit; that is, a multicast control frame received from a ringlet will be counted as In but not Out. This does not include fairness or idle frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInOamEchoFrames
Number of received (PHY to MAC) OAM echo frames processed by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInOamFlushFrames
Number of received (PHY to MAC) OAM flush frames processed by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInOamOrgFrames
Number of received (PHY to MAC) OAM org frames processed by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInTopoAtdFrames
Number of received (PHY to MAC) topology ATD frames processed by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInTopoChkSumFrames
Number of received (PHY to MAC) topology checksum frames processed by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsInTopoTpFrames
Number of received (PHY to MAC) topology TP frames processed by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutUcastClassAFrames
Number of transmitted (PHY to MAC) class A unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutUcastClassAOctets
Number of transmitted (PHY to MAC) class A unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutUcastClassBCirFrames
Number of transmitted (PHY to MAC) class B CIR unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutUcastClassBCirOctets
Number of transmitted (PHY to MAC) class B CIR unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutUcastClassBEirFrames
Number of transmitted (PHY to MAC) class B EIR unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutUcastClassBEirOctets
Number of transmitted (PHY to MAC) class B EIR unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutUcastClassCFrames
Number of transmitted (PHY to MAC) class C unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutUcastClassCOctets
Number of transmitted (PHY to MAC) class C unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutMcastClassAFrames
Number of transmitted (PHY to MAC) class A multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutMcastClassAOctets
Number of transmitted (PHY to MAC) class A multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutMcastClassBCirFrames
Number of transmitted (PHY to MAC) class B CIR multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutMcastClassBCirOctets
Number of transmitted (PHY to MAC) class B CIR multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutMcastClassBEirFrames
Number of transmitted (PHY to MAC) class B EIR multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutMcastClassBEirOctets
Number of transmitted (PHY to MAC) class B EIR multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutMcastClassCFrames
Number of transmitted (PHY to MAC) class C multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutMcastClassCOctets
Number of transmitted (PHY to MAC) class C multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutCtrlFrames
Number of transmitted (PHY to MAC) control frames generated by this MAC. This does not include control frames in transit; that is, a multicast control frame transmitted from a ringlet will be counted as In but not Out. This does not include fairness or idle frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutOamEchoFrames
Number of transmitted (PHY to MAC) OAM echo frames generated by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutOamFlushFrames
Number of transmitted (PHY to MAC) OAM flush frames generated by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutOamOrgFrames
Number of transmitted (PHY to MAC) OAM org frames generated by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutTopoAtdFrames
Number of transmitted (PHY to MAC) topology ATD frames generated by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutTopoChkSumFrames
Number of transmitted (PHY to MAC) topology checksum frames generated by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanStatsOutTopoTpFrames
Number of transmitted (PHY to MAC) topology TP frames generated by this MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInUcastClassAFrames
Number of MAC-to-client class A unicast frames in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInUcastClassAOctets
Number of MAC-to-client class A unicast octets in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInUcastClassBCirFrames
Number of MAC-to-client class B CIR unicast frames in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInUcastClassBCirOctets
Number of MAC-to-client class B CIR unicast octets in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInUcastClassBEirFrames
Number of MAC-to-client class B EIR unicast frames in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInUcastClassBEirOctets
Number of MAC-to-client class B EIR unicast octets in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInUcastClassCFrames
Number of MAC-to-client class C unicast frames in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInUcastClassCOctets
Number of MAC-to-client class C unicast octets in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInMcastClassAFrames
Number of MAC-to-client class A multicast and broadcast frames in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInMcastClassAOctets
Number of MAC-to-client class A multicast and broadcast octets in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInMcastClassBCirFrames
Number of MAC-to-client class B CIR multicast and broadcast frames in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInMcastClassBCirOctets
Number of MAC-to-client class B CIR multicast and broadcast octets in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInMcastClassBEirFrames
Number of MAC-to-client class B EIR multicast and broadcast frames in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInMcastClassBEirOctets
Number of MAC-to-client class B EIR multicast and broadcast octets in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInMcastClassCFrames
Number of MAC-to-client class C multicast and broadcast frames in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInMcastClassCOctets
Number of MAC-to-client class C multicast and broadcast octets in the current interval.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsInBcastFrames
Number of MAC-to-client broadcast frames. This value is used only when deriving the multicast and broadcast packet counters for the interface MIB.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutUcastClassAFrames
Number of client-to-MAC class A unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutUcastClassAOctets
Number of client-to-MAC class A unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutUcastClassBCirFrames
Number of client-to-MAC class B CIR unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutUcastClassBCirOctets
Number of client-to-MAC class B CIR unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutUcastClassBEirFrames
Number of client-to-MAC class B EIR unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutUcastClassBEirOctets
Number of client-to-MAC class B EIR unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutUcastClassCFrames
Number of client-to-MAC class C unicast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutUcastClassCOctets
Number of client-to-MAC class C unicast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutMcastClassAFrames
Number of client-to-MAC class A multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutMcastClassAOctets
Number of client-to-MAC class A multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutMcastClassBCirFrames
Number of client-to-MAC class B CIR multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutMcastClassBCirOctets
Number of client-to-MAC class B CIR multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutMcastClassBEirFrames
Number of client-to-MAC class B EIR multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutMcastClassBEirOctets
Number of client-to-MAC class B EIR multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutMcastClassCFrames
Number of client-to-MAC class C multicast and broadcast frames.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutMcastClassCOctets
Number of client-to-MAC class C multicast and broadcast octets.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprClientStatsOutBcastFrames
Number of client-to-MAC broadcast frames. This value is used only when deriving the multicast and broadcast packet counters for the interface MIB.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanErrorStatsTtlExpFrames
Number of received (PHY to MAC) frames that were dropped due to zero Time To Live (TTL).
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanErrorStatsTooLongFrames
Number of received (PHY to MAC) frames that exceed the maximum permitted frame size.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanErrorStatsTooShortFrames
Number of received (PHY to MAC) frames shorter than the minimum permitted frame size.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanErrorStatsBadHecFrames
Number of received (PHY to MAC) frames with HEC errors.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanErrorStatsBadFcsFrames
Number of received (PHY to MAC) data and control frames where the FCS value did not match the expected FCS value.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanErrorStatsSelfSrcUcastFrames
Number of received (PHY to MAC) unicast frames that were transmitted by the station itself; that is, the source MAC is equal to the interface MAC.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanErrorStatsPmdAbortFrames
Number of received (PHY to MAC) frames that were aborted by the PMD.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanErrorStatsBadAddrFrames
Number of received (PHY to MAC) frames with invalid SA values.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanErrorStatsBadParityFrames
Number of received (PHY to MAC) frames where the parity value does not match the expected parity value.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanErrorStatsContainedFrames
Number of received (PHY to MAC) frames that were removed due to context containment.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
rprSpanErrorStatsScffErrors
Number of received (PHY to MAC) errored SCFFs with bad parity, bad FCS, or both.
ONS 15454 SONET and SDH: ML100T, ML100X-8, ML1000
G.2.43 FC PM Table—ONS 15454 SONET, ONS 15454 SDH
The FC PM table shows performance data for the ONS 15454 SONET and ONS 15454 SDH. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the FC PM table.
Table G-59 Field Descriptions for the FC PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
Number of inbound packets that were chosen to be discarded even though no errors had been detected to prevent their being deliverable to a higher-layer protocol.
Receive utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
—
Tx Utilization
Transmit utilization, which is a percentage of utilization of the Ethernet segment on a scale of 0 to 100 percent.
—
FibreStatsRxRecvrReady
Number of current receive receiver-ready buffer-to-buffer credits.
•ONS 15454 SONET: MXP_MR_10DME
•ONS 15454 SDH: MXP_MR_10DME
FibreStatsTxRecvrReady
Number of current transmit receiver-ready buffer-to-buffer credits.
•ONS 15454 SONET: MXP_MR_10DME
•ONS 15454 SDH: MXP_MR_10DME
NE ID
Name of the selected NE.
—
G.2.44 ISC PM Table—ONS 15454 SONET, ONS 15454 SDH
The ISC PM table shows performance data for the ONS 15454 SONET and ONS 15454 SDH. You can display 15-minute or 1-day increments.
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the ISC PM table.
Table G-60 Field Descriptions for the ISC PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Time Last Cleared
When the statistics were last reset.
•ONS 15454 SONET: MXP_MR_10DME
•ONS 15454 SDH: MXP_MR_10DME
rxTotalPkts
Number of packets received since the last counter reset.
ifInOctets
Number of bytes received since the last counter reset.
txTotalPkts
Number of packets transmitted since the last counter reset.
ifOutOctets
Number of bytes transmitted since the last counter reset.
NE ID
Name of the selected NE.
—
G.2.45 SONET Line PM Table (Far End)—ONS 15310 CL, ONS 15310 MA, ONS 15327, ONS 15454 SONET, ONS 15600 SONET
The SONET Line PM table shows far-end performance data for the ONS 15310 CL, ONS 15310 MA, ONS 15327, ONS 15454 SONET, and ONS 15600 SONET line. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the SONET Line PM table.
Table G-61 Field Descriptions for the SONET Line PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-L
Coding violations-line (CV-L) is a count of bit interleaved parity (BIP) errors detected at the line layer (that is, using the B2 bytes in the incoming SONET signal). Up to 8 x N BIP errors can be detected per STS-N frame; each error increments the current CV-L second register.
Errored seconds-line (ES-L) is a count of the seconds when at least one line-layer BIP error was detected or a line alarm indication signal (AIS-L) defect was present.
Severely errored seconds-line (SES-L) is a count of the seconds when K (see GR-253 for values) or more line-layer BIP errors were detected or an AIS-L defect was present.
Unavailable seconds-line (UAS-L) is a count of the seconds when the line is unavailable. A line becomes unavailable when ten consecutive seconds occur that qualify as SES-Ls, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as SES-Ls.
Failure count-line (FC-L) is a count of the number of near-end line failure events. A failure event begins when an AIS-L failure or a lower-layer traffic-related, near-end failure is declared. This failure event ends when the failure is cleared. A failure event that begins in one period and ends in another period is counted only in the period where it begins.
G.2.46 SONET Line PM Table—ONS 15310 CL, ONS 15310 MA, ONS 15327, ONS 15454 SONET, ONS 15600 SONET
The SONET Line PM table shows performance data for the ONS 15310 CL, ONS 15310 MA, ONS 15327, ONS 15454 SONET, and ONS 15600 SONET line. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the SONET Line PM table.
Table G-62 Field Descriptions for the SONET Line PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-L
CV-L lists a count of bit interleaved parity (BIP) errors detected at the line-layer (using the B2 bytes in the incoming SONET signal). Up to 8 x N BIP errors can be detected per STS-N frame, with each error incrementing the current CV-L second register.
Unavailable seconds-line (UAS-L) lists a count of the seconds when the line is unavailable. A line becomes unavailable when ten consecutive seconds occur that qualify as SES-Ls, and continues to be unavailable until ten consecutive seconds occur that do not qualify as SES-Ls.
Failure count-line (FC-L) lists a count of the number of near-end line failure events. A failure event begins when an AIS-L failure is declared, or when a lower-layer, traffic-related, near-end failure is declared. This failure event ends when the failure is cleared. A failure event that begins in one period and ends in another period is counted only in the period where it begins.
In a 1 + 1 protection scheme for a working card, PSC is a count of the number of times service switches from a working card to a protection card plus the number of times service switches back to the working card. For a protection card, PSC is a count of the number of times service switches to a working card from a protection card plus the number of times service switches back to the protection card. The PSC PM is only applicable if revertive line-level protection switching is used. PSC is supported in revertive and nonrevertive modes.
Note This parameter is not supported for transponder or muxponder cards.
PSD applies to the length of time, in seconds, that service is carried on another line. For a working line, PSD is a count of the number of seconds that service was carried on the protection line. For the protection line, it is a count of the seconds that the line was used to carry service. The PSD PM is only applicable if revertive line-level protection switching is used. PSD is supported in revertive and nonrevertive modes.
Note This parameter is not supported for transponder or muxponder cards.
For a working line in a 2-fiber BLSR, protection switching count-working (PSC-W) is a count of the number of times traffic switches away from the working capacity in the failed line and back to the working capacity after the failure is cleared. PSC-W increments on the failed working line and PSC increments on the active protect line.
Note This parameter is not supported for transponder or muxponder cards.
For a working line in a 2-fiber BLSR, protection switching duration-working (PSD-W) is a count of the number of seconds that service was carried on the protection line. PSD-W increments on the failed working line and PSD increments on the active protect line.
Note This parameter is not supported for transponder or muxponder cards.
In a four-fiber BLSR, protection switching count-span (PSC-S) is a count of the number of times service switches from a working line to a protection line plus the number of times it switches back to the working line. A count is only incremented if span switching is used.
Note This parameter is not supported for transponder or muxponder cards.
In a four-fiber BLSR, protection switching duration-span (PSD-S) is a count of the seconds that the protection line was used to carry service. A count is only incremented if span switching is used.
Note This parameter is not supported for transponder or muxponder cards.
In a 4-fiber BLSR, protection switching count-ring (PSC-R) is a count of the number of times service switches from a working line to a protection line plus the number of times it switches back to a working line. A count is only incremented if ring switching is used.
Note This parameter is not supported for transponder or muxponder cards.
In a 4-fiber BLSR, protection switching duration-ring (PSD-R) is a count of the seconds that the protection line was used to carry service. A count is only incremented if ring switching is used.
Note This parameter is not supported for transponder or muxponder cards.
G.2.47 SONET Section PM Table—ONS 15310 CL, ONS 15310 MA, ONS 15327, ONS 15454 SONET, ONS 15600 SONET
The SONET Section PM table shows performance data at the section layer. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the SONET Section PM table.
Table G-63 Field Descriptions for the SONET Section PM Table
Field
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Coding Violations - Section
Number of BIP errors detected at the section-layer (using the B1 byte in the incoming SONET signal). Up to eight section BIP errors can be detected per STS-N frame, with each error incrementing the current CV-S second register.
Number of seconds when an SEF defect was present. A SEF defect is expected to be present during most seconds when a LOS or LOF defect is present. However, there can be situations when that is not the case, and the SEFS-S parameter is only incremented based on the presence of the SEF defect.
G.2.48 SONET STS Path PM Table (Far End)—ONS 15310 CL, ONS 15310 MA, ONS 15327, ONS 15454 SONET, ONS 15600
The SONET STS Path PM table shows far-end performance data for the ONS 15310 CL, ONS 15310 MA, ONS 15327, ONS 15454 SONET, and ONS 15600 SONET STS path. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the SONET STS Path PM table.
Table G-64 Field Descriptions for the SONET STS Path PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-P
STS path coding violations (STS CV-P) is a count of BIP errors detected at the STS path layer (that is, using the B3 byte). Up to eight BIP errors can be detected per frame; each error increments the current CV-P second register.
STS path errored seconds (STS ES-P) is a count of the seconds when at least one STS path BIP error was detected. A path alarm indication signal (AIS-P) defect (or a lower-layer, traffic-related, near-end defect) or a path loss of pointer (LOP-P) defect can also cause an STS ES-P.
STS path severely errored seconds (STS SES-P) is a count of the seconds when K (2400) or more STS path BIP errors were detected. An AIS-P defect (or a lower-layer, traffic-related, near-end defect) or an LOP-P defect can also cause an STS SES-P.
STS path unavailable seconds (STS UAS-P) is a count of the seconds when the STS path was unavailable. An STS path becomes unavailable when ten consecutive seconds occur that qualify as SES-Ps, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as SES-Ps.
STS path failure counts (STS FC-P) is a count of the number of near-end STS path failure events. A failure event begins when an AIS-P failure, an LOP-P failure, a UNEQ-P failure, or a path trace identifier mismatch (TIM-P) failure is declared, or if the STS PTE that is monitoring the path supports ERDI-P for that path. The failure event ends when these failures are cleared.
G.2.49 SONET STS Path PM Table—ONS 15310 CL, ONS 15310 MA, ONS 15327, ONS 15454 SONET, ONS 15600 SONET
The SONET STS Path PM table shows performance data for the ONS 15310 CL, ONS 15310 MA, ONS 15327, ONS 15454 SONET, and ONS 15600 SONET STS path. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the SONET STS Path PM table.
Table G-65 Field Descriptions for the SONET STS Path PM Table
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-P
STS path coding violations (STS CV-P) is a count of BIP errors detected at the STS path layer (that is, using the B3 byte). Up to eight BIP errors can be detected per frame; each error increments the current CV-P second register.
STS path errored seconds (STS ES-P) is a count of the seconds when at least one STS path BIP error was detected. A path alarm indication signal (AIS-P) defect (or a lower-layer, traffic-related, near-end defect) or a path loss of pointer (LOP-P) defect can also cause an STS ES-P.
STS path severely errored seconds (STS SES-P) is a count of the seconds when K (2400) or more STS path BIP errors were detected. An AIS-P defect (or a lower-layer, traffic-related, near-end defect) or an LOP-P defect can also cause an STS SES-P.
STS path unavailable seconds (STS UAS-P) is a count of the seconds when the STS path was unavailable. An STS path becomes unavailable when ten consecutive seconds occur that qualify as SES-Ps, and it continues to be unavailable until ten consecutive seconds occur that do not qualify as SES-Ps.
STS path failure counts (STS FC-P) is a count of the number of near-end STS path failure events. A failure event begins when an AIS-P failure, an LOP-P failure, a UNEQ-P failure, or a path trace identifier mismatch (TIM-P) failure is declared, or if the STS PTE that is monitoring the path supports ERDI-P for that path. The failure event ends when these failures are cleared.
Positive pointer justification count, STS path detected (PPJC-Pdet) is a count of the positive pointer justifications detected on a particular path on an incoming SONET signal.
Negative pointer justification count, STS path detected (NPJC-Pdet) is a count of the negative pointer justifications detected on a particular path on an incoming SONET signal.
Positive pointer justification count, STS path generated (PPJC-Pgen) is a count of the positive pointer justifications generated for a particular path to reconcile the frequency of the SPE with the local clock.
Negative pointer justification count, STS path generated (PPJC-Pgen) is a count of the negative pointer justifications generated for a particular path to reconcile the frequency of the SPE with the local clock.
Sum of the absolute values of differences between positive transmitted and received, and negative transmitted and received. The important metric on pointer justification is not the exact counts, but how many were absorbed.
The SONET VT1.5 PM table contains PM information at the virtual tributary (VT1.5) layer. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
The following table describes the fields in the SONET VT1.5 PM table.
Table G-66 Field Descriptions for the SONET VT1.5 PM Table
Field
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-V
Code violations VT layer (CV-V) is a count of the BIP errors detected at the VT path layer. Up to two BIP errors can be detected per VT Super Frame, with each error incrementing the current CV-V second register.
Errored seconds VT layer (ES-V) is a count of the seconds when at least one VT Path BIP error was detected. An AIS-V defect (a lower-layer, traffic-related, near-end defect) or a LOP-V defect can also cause an ES-V.
Severely errored seconds VT layer (SES-V) is a count of seconds when K (600) or more VT Path BIP errors were detected. SES-V can also be caused by an AIS-V defect (a lower-layer, traffic-related, near-end defect) or a LOP-V defect.
Unavailable second VT layer (UAS-V) is a count of the seconds when the VT path was unavailable. A VT path becomes unavailable when ten consecutive seconds occur that qualify as SES-Vs, and continues to be unavailable until ten consecutive seconds occur that do not qualify as SES-Vs.
The SONET VT2 PM table contains PM information at the virtual tributary (VT2) layer. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
The following table describes the fields in the SONET VT2 PM table.
Table G-67 Field Descriptions for the SONET VT2 PM Table
Field
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-V
Code violations VT layer (CV-V) is a count of the BIP errors detected at the VT path layer. Up to two BIP errors can be detected per VT Super Frame, with each error incrementing the current CV-V second register.
•ONS 15454 SONET: DS1_E1_56
ES-V
Errored seconds VT layer (ES-V) is a count of the seconds when at least one VT Path BIP error was detected. An AIS-V defect (a lower-layer, traffic-related, near-end defect) or a LOP-V defect can also cause an ES-V.
•ONS 15454 SONET: DS1_E1_56
SES-V
Severely errored seconds VT layer (SES-V) is a count of seconds when K (600) or more VT Path BIP errors were detected. SES-V can also be caused by an AIS-V defect (a lower-layer, traffic-related, near-end defect) or a LOP-V defect.
•ONS 15454 SONET: DS1_E1_56
UAS-V
Unavailable second VT layer (UAS-V) is a count of the seconds when the VT path was unavailable. A VT path becomes unavailable when ten consecutive seconds occur that qualify as SES-Vs, and continues to be unavailable until ten consecutive seconds occur that do not qualify as SES-Vs.
•ONS 15454 SONET: DS1_E1_56
NE ID
Name of the selected NE.
—
G.2.52 SONET VT PM Table (Far End)—ONS 15310 CL, ONS 15310 MA, ONS 15327, ONS 15454 SONET
The SONET VT PM table shows far-end performance data for the ONS 15310 CL, ONS 15310 MA, ONS 15327, and ONS 15454 SONET VT. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the SONET VT PM table.
Table G-68 Field Descriptions for the SONET VT PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
The SONET VT2 PM table shows far-end performance data for the ONS 15454 SONET VT2. You can display performance data for 15-minute, 1-day, or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•1-day—Data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 10 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the SONET VT2 PM table.
Table G-69 Field Descriptions for the SONET VT2 PM Table (Far End)
Column
Description
Cards Supported
Alias ID
Alias name of the selected NE.
—
Module Name
Module for which PM data is displayed.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
CV-V
Coding violations-VT.
•ONS 15454 SONET: DS1_E1_56
ES-V
Errored seconds-VT.
•ONS 15454 SONET: DS1_E1_56
SES-V
Severely errored seconds-VT.
•ONS 15454 SONET: DS1_E1_56
UAS-V
Unavailable seconds-VT.
•ONS 15454 SONET: DS1_E1_56
NE ID
Name of the selected NE.
—
G.3 ONS 155xx-Specific PM Tables
This section describes the PM tables that are specific to ONS 15501, ONS 15530, and ONS 15540 NEs.
G.3.1 Overview of Supported PM Parameters
The following ONS 15501, ONS 15530, and ONS 15540 PM parameters are available on any of the interfaces listed in the following table. Table G-71 to Table G-77 list all the ONS 15501, ONS 15530, and ONS 15540 PM parameters with the corresponding description and a list of interfaces supported.
Table G-70 ONS 155xx Optical Interfaces
ONS 15501
ONS 15530
ONS 15540
OID Chassis
cevPortTransparent
cevPortTransparent
OID In Port
cevPortWave
cevPortWave
OID Out Port
cevPortWaveEthPhy
cevPortWaveEthPhy
cevPort10GigEthPhy
cevport10GigEthBhy
cevPortWavePatch
cevPortWavePatch
cevPortEsconPhy
cevportWaveOSC
cevPortGEFCPhy
cevPortVOAIn
cevPortVOAFilterIn
cevPortWaveOSC
cevPortWaveSonetPhy
cevPort2GFCPhy
Table G-71 Section PM Parameters—Near End
Parameter
Description
Interfaces Supported
Alias ID
Alias name of the selected NE.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
—
Rx CVRD
Represents the counter associated with the number of code violations and running disparity errors encountered in the receive direction.
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
—
Rx Header CRC Error
Number of CDL frames received with CDL header CRC errors.
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
Table G-75 ONS 15530 Fiber Channel Port Errors PM Parameters
Parameter
Description
Interfaces Supported
Alias ID
Alias name of the selected NE.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
—
Rx Link Resets
Number of link resets (LR primitives) that are received
cevPortGEFCPhy, cevPort2GFCPhy
Tx Link Resets
Number of link resets (LR primitives) that are transmitted
Link Resets
Number of times the reset link protocol was initiated on this port
Rx Offline Sequences
Number of offline primitive OLS received on this port
Tx Offline Sequences
Number of offline primitive OLS transmitted by this port
Loss of Synchs
Number of instances of synchronization loss detected at this port. This count is part of FC-PH's link error status block (LESB).
Loss of Signals
Number of instances of signal loss detected at this port. This count is part of FC-PH's LESB.
cevPortGEFCPhy
Link Failures
Number of link failures. This count is part of FC-PH's LESB.
Prim Seq Protocol Errors
Number of primitive sequence protocol errors detected at this port. This count is part of FC-PH's LESB.
Invalid Tx Words
Number of invalid transmission words received at this port. This count is part of FC-PH's LESB.
Invalid CRCs
Number of frames received with invalid CRC. This count is part of FC-PH's LESB.
Invalid Ordered Sets
Number of invalid ordered sets received at this port
FrameTooLong
Number of frames received at this port where the frame length was greater than what was agreed to in FLOG/PLOGI
Truncated Frames
Number of frames received at this port where the frame length was less than the minimum indicated by the frame header, which is normally 24 bytes
Address Errors
Number of frames received with unknown addressing
Delimiter Errors
Number of invalid frame delimiters received at this port
Encoding Disparity Errors
Number of encoding disparity errors received at this port
Other Errors
Number of errors that were detected on this port but were not counted by another error counter in this row.
Module Name
Module for which PM data is displayed.
—
NE ID
Name of the selected NE.
—
Table G-76 ONS 15530 RMON Ethernet History PM Parameters
Parameter
Description
Interfaces Supported
Alias ID
Alias name of the selected NE.
—
Physical Location
Slot and port number for which PM data is displayed.
—
Interface
Interface name of the selected NE.
—
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
—
Maintenance
Whether the NE was under maintenance when the performance data was collected.
—
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
—
Octets
Total number of octets of data (including the bad packets) received in the network. This also includes FCS octets but excludes framing bits.
cevPortGEFCPhy
Packets
Number of packets (including bad packets) received during the sampling interval.
CRCAlignErrors
Number of packets received during the sampling interval that had a length of 64 to 1518 octets but had either a bad FCS with an integral number of octets (FCS error) or a bad FCS with a nonintegral number of octets (alignment error).
Undersize Packets
Number of packets received during the sampling interval that were are less than 64 octets long excluding framing bits but including FCS octets.
Oversize Packets
Number of packets received during the sampling interval that were longer than 1518 octets excluding framing bits but including FCS octets.
Module Name
Module for which PM data is displayed.
—
NE ID
Name of the selected NE.
—
Table G-77 ONS 15501 Physical PM Parameters
Parameter
Description
Alias ID
Alias name of the selected NE.
Physical Location
Slot and port number for which PM data is displayed.
Interface
Interface name of the selected NE.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Maintenance
Whether the NE was under maintenance when the performance data was collected.
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
Input optical power
Optical power that goes to the amplifier.
Output optical power
Measured value for raw optical power generated at the output of the amplifier.
Output signal power
Optical signal power at the output of the amplifier.
Device temperature
Ambient temperature of the NE.
Optical power gain
Measured value for power gain. The value does not include the amplification noise that is significant for low input signals.
Power Supply 1 Level
Voltage fed through power supply 1.
Note The Power Supply field does not apply to the ONS 15501 AC.
Power Supply 2 Level
Voltage fed through power supply 2.
Note The Power Supply field does not apply to the ONS 15501 AC.
Module Name
Name of the selected module.
NE ID
Name of the selected NE.
G.3.2 CDL PM Table—ONS 15530 and ONS 15540
The Converged Data Link (CDL) PM table provides OAM&P in Ethernet packet-based optical networks without a SONET/SDH layer.
You can display performance data for 15-minute or 1-day increments:
•For the 15-minute table, data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•For the 1-day table, data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
When the NE is rebooted, all performance data is cleared on the NE and the first new entry for each interface becomes the new baseline entry. (Baseline entries are always marked invalid.) You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Entries for performance parameters with associated threshold alarms (traps) are flagged in red. Orange represents a major performance problem, yellow represents a minor problem, and blue represents a warning.
Note Display of performance data is affected by settings in the Control Panel.
The following table describes the fields in the CDL PM table.
Table G-78 Field Descriptions for the CDL PM Table
Field
Description
Alias ID
Alias name of the selected NE.
Physical Location
Physical location of the NE: slot, subslot, and port.
Interface
Whether the interface is transparent or trunk side.
Time Stamp
Time when the performance statistics were collected.
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
Maintenance
Whether the NE was under maintenance when the performance data was collected.
RX HEC
Number of CDL frames received with CDL Header CRC errors.
RX Non CDL
Number of packets received without a CDL header on this interface.
RX Invalid Flow ID
Number of CDL Flow Identifier lookup errors in the receive direction.
Net Ethernet CRC (ONS 15530 only)
Number of net Ethernet CRC errors.
Module Name
Name of the module.
NE ID
Name of the selected NE.
G.3.3 Ethernet History PM Table—ONS 15530
The Ethernet History PM table shows Ethernet history performance data for ONS 15530 interfaces.
You can display performance data for 15-minute or 1-day increments:
•For the 15-minute table, data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•For the 1-day table, data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
When the NE is rebooted, all performance data is cleared on the NE and the first new entry for each interface becomes the new baseline entry. (Baseline entries are always marked invalid.) You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Entries for performance parameters with associated threshold alarms (traps) are flagged in red. Orange represents a major performance problem, yellow represents a minor problem, and blue represents a warning.
Note Display of performance data is affected by settings in the Control Panel.
The following table describes the fields in the Ethernet History PM table.
Table G-79 Field Descriptions for the Ethernet History PM Table
Field
Description
Alias ID
Alias name of the selected NE.
Physical Location
Physical location of the NE: slot, subslot, and port.
Interface
Name of the interface on which the performance data was collected.
Time Stamp
Time when the performance statistics were collected.
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
Maintenance
Whether the NE was under maintenance when the performance data was collected.
Octets
Total number of octets of data (including those in bad packets) received on the network (excluding framing bits but including FCS octets).
Packets
Number of packets (including bad packets) received during this sampling interval.
CRC Alignment Errors
Number of packets received during this sampling interval that had a length (excluding framing bits but including FCS octets) from 64 to 1518 octets, inclusive, but had either a bad FCS with an integral number of octets (FCS error) or a bad FCS with a nonintegral number of octets (alignment error).
Under Size Packets
Number of packets received during this sampling interval that were less than 64 octets long (excluding framing bits but including FCS octets) and were otherwise well formed.
Over Size Packets
Number of packets received during this sampling interval that were longer than 1518 octets (excluding framing bits but including FCS octets) but were otherwise well formed.
Module Name
Name of the selected NE module.
NE ID
Name of the selected NE.
G.3.4 FC Port Error PM Table—ONS 15530
The Fibre Channel (FC) Port Error PM table shows performance data for the ONS 15530.
You can display performance data for 15-minute or 1-day increments:
•For the 15-minute table, data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•For the 1-day table, data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
When the NE is rebooted, all performance data is cleared on the NE and the first new entry for each interface becomes the new baseline entry. (Baseline entries are always marked invalid.) You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Entries for performance parameters with associated threshold alarms (traps) are flagged in red. Orange represents a major performance problem, yellow represents a minor problem, and blue represents a warning.
Note Display of performance data is affected by settings in the Control Panel.
The following table describes the fields in the FC Port Error PM table.
Table G-80 Field Descriptions for the FC Port Error PM Table
Field
Description
Alias ID
Alias name of the selected NE.
Physical Location
Physical location of the NE—slot, subslot, and port.
Interface
Whether the interface is transparent or trunk side.
Time Stamp
Time when the performance statistics were collected.
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
Maintenance
Whether the NE was under maintenance when the performance data was collected.
Rx Link Resets
Number of link resets (LR primitives) received.
Tx Link Resets
Number of link resets (LR primitive) transmitted.
Link Resets
Number of times the reset link protocol was initiated on the port. This includes the number of Loop Initialization Primitive (LIP) events on an arbitrated loop port.
Rx Offline Sequences
Number of offline primitive OLS received at the port.
Tx Offline Sequences
Number of offline primitive OLS transmitted by the port.
Link Failures
Number of link failures. This count is part of the FC-PH Link Error Status Block (LESB).
Loss of Synchs
Number of instances of synchronization loss detected at the port. This count is part of the FC-PH LESB.
Loss of Signals
Number of instances of signal loss detected at the port. This count is part of the FC-PH LESB.
Primitive Sequence Protocol Errors
Number of primitive sequence protocol errors detected at the port. This count is part of the CFC-PH LESB.
Invalid Tx Words
Number of invalid transmission words received at the port. This count is part of the FC-PH LESB.
Invalid CRCs
Number of frames received with an invalid CRC. This count is part of the FC-PH LESB.
Invalid Ordered Sets
Number of invalid ordered sets received at the port.
Frame Too Longs
Number of frames received at the port where the frame length was greater than what was agreed to in FLOGI/PLOGI. This could be caused by losing the end of frame delimiter.
Truncated Frames
Number of frames received at the port where the frame length was less than the minimum indicated by the frame header (normally 24 bytes, but it could be more if the DFCTL field indicates an optional header should have been present).
Address Errors
Number of frames received with unknown addressing, such as an unknown SID or DID. The SID or DID is not known to the routing algorithm.
Delimiter Errors
Number of invalid frame delimiters received at the port. An example is a frame with a class 2 start and a class 3 at the end.
Encoding Disparity Errors
Number of encoding disparity errors received at the port.
Other Errors
Number of errors that were detected on the port but were not counted by any other error counter in the row.
Module Name
Name of the selected NE module.
NE ID
Name of the selected NE.
G.3.5 Line PM Table—ONS 15530 and ONS 15540
The Line PM table shows physical performance data for ONS 15530 and ONS 15540 client and trunk side interfaces. The data shown is from the following modules:
•The transparent and trunk side interfaces of the transponders
•The Optical Supervisory Channel (OSC) interface on the MUX cards
You can display performance data for 15-minute or 1-day increments:
•For the 15-minute table, data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•For the 1-day table, data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
When the NE is rebooted, all performance data is cleared on the NE and the first new entry for each interface becomes the new baseline entry. (Baseline entries are always marked invalid.) You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Entries for performance parameters with associated threshold alarms (traps) are flagged in red. Orange represents a major performance problem, yellow represents a minor problem, and blue represents a warning.
Note Display of performance data is affected by settings in the Control Panel.
The following table describes the fields in the Line PM table.
Table G-81 Field Descriptions for the Line PM Table
Field
Description
Alias ID
Alias name of the selected NE.
Physical Location
Physical location of the NE-slot, subslot, and port.
Interface
Whether the interface is transparent or trunk side.
Time Stamp
Time when the performance statistics were collected.
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
Maintenance
Whether the NE was under maintenance when the performance data was collected.
RX CVRD
Code violations and running disparity errors encountered in the receive direction for both types of interfaces. A threshold is associated with this parameter, and the table cell will be flagged in red when the parameter exceeds the threshold. You can set thresholds by using the command line interface (CLI).
RX CRC
Number of CRC errors. This column has a valid value only for interfaces that provide CRC error monitoring. This column is not applicable to ONS 15540.
Tx Packet Errors
Number of ingress error indications from the far end of an Ethernet network, where an ESCON stream is encapsulated in Ethernet packets. This number is incremented whenever an ESCON packet or control character has 8b/10b code violations or running disparity errors in the ingress direction at the far end of the Ethernet network. This column has a valid value only for ESCON interfaces where Ethernet encapsulation is performed. This column is not applicable to ONS 15540.
Module Name
Name of the selected module.
NE ID
Name of the selected NE.
G.3.6 Physical PM Table—ONS 15501
The Physical PM table shows physical performance data for the ONS 15501 AC and ONS 15501 DC.
You can display performance data for 15-minute increments. The data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals. You can also use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
When the NE is rebooted, all performance data is cleared on the NE and the first new entry for each interface becomes the new baseline entry. (Baseline entries are always marked invalid.)
Entries for performance parameters with associated threshold alarms (traps) are flagged in red. Orange represents a major performance problem, yellow represents a minor problem, and blue represents a warning.
Note Display of performance data is affected by settings in the Control Panel.
The following table describes the fields in the Physical PM table.
Table G-82 Field Descriptions for the Physical PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Time Stamp
Date and time when the data was collected.
Validity
Whether the data in the entry is valid.
Maintenance
Whether the NE was under maintenance when the performance data was collected.
Input Power (dBm)
Optical power being fed into the amplifier.
Output Power (dBm)
Measured value for raw optical power being generated at the output of the amplifier.
Output Signal Power (dBm)
Optical signal power at the output of the amplifier.
Power Gain (dBm)
Measured value for power gain. This value does not include the amplification noise that is significant for low input signals.
Device Temp (Celsius)
Ambient temperature of the NE.
Power Supply 1 Level (volts)
Voltage fed through power supply 1.
Note The Power Supply field does not apply to the ONS 15501 AC.
Power Supply 2 Level (volts)
Voltage fed through power supply 2.
Note The Power Supply field does not apply to the ONS 15501 AC.
Module Name
Name of the selected module.
NE ID
Name of the selected NE.
G.3.7 Physical PM Table—ONS 15530 and ONS 15540
The Physical PM table shows physical performance data for ONS 15530 and ONS 15540 client and trunk side interfaces. The data shown is from the following modules:
•The transparent and trunk side interfaces of the transponders
•The OSC interface on the MUX cards
You can display performance data for 15-minute or 1-day increments:
•For the 15-minute table, data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•For the 1-day table, data is collected at midnight GMT. The data shown represents the difference between the counter values read at successive midnights.
When the NE is rebooted, all performance data is cleared on the NE and the first new entry for each interface becomes the new baseline entry. (Baseline entries are always marked invalid.) You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Entries for performance parameters with associated threshold alarms (traps) are flagged in red. Orange represents a major performance problem, yellow represents a minor problem, and blue represents a warning.
Note Display of performance data is affected by settings in the Control Panel.
The following table describes the fields in the Physical PM table.
Table G-83 Field Descriptions for the Physical PM Table
Field
Description
Alias ID
Alias name of the selected NE.
Physical Location
Physical location of the NE: slot, subslot, and port.
Interface
Whether the interface is transparent or trunk side.
Time Stamp
Time when the performance statistics were collected.
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as the baseline entry. The description of the baseline entry is "invalid-not enough time has elapsed."
Maintenance
Whether the NE was under maintenance when the performance data was collected.
Mean Power
Mean laser power in dBm.
Maximum Power
Maximum laser power in dBm.
Minimum Power
Minimum laser power in dBm.
Mean Device Temperature
Mean device temperature in degrees Celsius.
Note This field applies only to the ONS 15530 NE.
Maximum Device Temperature
Maximum device temperature in degrees Celsius.
Note This field applies only to the ONS 15530 NE.
Minimum Device Temperature
Minimum device temperature in degrees Celsius.
Note This field applies only to the ONS 15530 NE.
Direction
Line direction.
Available Seconds
Available seconds.
Module Name
Name of the module.
NE ID
Name of the selected NE.
G.3.8 SONET Section PM Table—ONS 15530 and ONS 15540
The SONET Section PM table shows section layer performance data for ONS 15530 and ONS 15540 SONET interfaces. The data shown is from modules with the protocol configured as SONET or SDH. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
You can display performance data for 15-minute or 1-day increments:
•For the 15-minute table, data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on).
•For the 1-day table, the values shown are the total of 96 15-minute values, ending at midnight GMT.
Entries for performance parameters with associated threshold alarms (traps) are shown in red. Orange represents a major problem, yellow represents a minor problem, and blue represents a warning.
When the NE is rebooted, all performance data is cleared on the NE and the first new entry for each interface becomes the new baseline entry (baseline entries are always marked invalid).
Note Display of performance data is affected by settings in the Control Panel.
The following table describes the fields in the SONET Section PM table.
Table G-84 Field Descriptions for the SONET Section PM Table
Field
Description
Alias ID
Alias name of the selected NE.
Physical Location
Physical location of the NE-slot, subslot, and port.
Interface
Whether the interface is transparent or wave.
Time Stamp
Time when the performance statistics were collected.
Validity
Whether the data in the entry is valid.
Note The first entry for each interface and port is always invalid and is used as a baseline entry. The description field of a baseline entry is "invalid-not enough time has elapsed."
Maintenance
Whether the NE was under maintenance when the performance data was collected.
Errored Seconds-Section
Number of errored seconds encountered by the SONET/SDH section in the current interval. An errored second is a one-second period with one or more coding violations at that layer or one or more incoming defects at that layer.
Severely Errored Seconds-Section
Number of severely errored seconds encountered by the SONET/SDH section in the current interval. A severely errored second is a one-second period with x or more coding violations at that layer one or more incoming defects at that layer. The value of x depends on the line rate and bit error rate.
Severely Errored Framing Seconds-Section
Number of severely errored framing seconds encountered by the SONET/SDH section in the current interval. A severely errored framing second is a a one-second period containing one or more severely errored framing events.
Code Violations-Section
Number of coding violations encountered by the SONET/SDH section in the interval. Coding violations are bit interleaved parity errors that are detected in the incoming signal. A threshold is associated with this parameter, and the table cell will be flagged in red when it exceeds the threshold. You can set thresholds by using the CLI.
Module Name
Name of the selected module.
NE ID
Name of the selected NE.
G.4 ONS 1580x-Specific PM Tables
This section describes the PM tables that are specific to ONS 15800, ONS 15801, and ONS 15808 NEs.
G.4.1 ADA PM Table
The ADA PM table shows the performance of ONS 15800 and ONS 15801 Add/Drop Amplifier (ADA) modules. ADAs are used with Optical Add/Drop Multiplexer-Passive-4 channels (OADM-P4) modules at 2.5-Gbps OADM sites with 100-GHz spacing to equalize inserted and pass-through channels to the level of line channels. ADAs consist of two independent, single-stage amplifiers. A single ADA module covers both east-to-west and west-to-east transmission directions. Consequently, only one ADA module is required for each pair of OADM-P4 modules.
Figure G-1 ONS 15800 or ONS 15801 Add/Drop Amplifier
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-85 Field Descriptions for the ADA PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Input Power 2
Input power (in dBm) of laser 2.
Output Power 1
Output power (in dBm) of laser 1.
Output Power 2
Output power (in dBm) of laser 2.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Laser Power 1
Power (in mW) of laser 1.
Laser Power 2
Power (in mW) of laser 2.
NE ID
Name of the selected NE.
G.4.2 AIU PM Table
The Alarm Interface Unit (AIU) PM table reports performance data for the ONS 15808 AIU module.
The AIU module manages digital and analog inputs from external equipment. It also manages digital outputs that can control external devices. The AIU module allows remote control of isolated optical line amplification sites. Each AIU module manages up to 32 digital inputs, eight analog inputs, and 20 digital outputs. The digital inputs are ground-activated and are used to monitor site conditions such as fire alarms, flood warnings, and open doors. Analog inputs are used to remotely monitor voltages from transducers with slow parameter sensors. The digital outputs are used to operate equipment remotely. For example, digital outputs can be used to start a generator engine or turn on security lights at a remote site from the network operations center (NOC).
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-86 Field Descriptions for the AIU PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
General Analog Input 1
Analog input (in volts) from analog source 1.
General Analog Input 2
Analog input (in volts) from analog source 2.
General Analog Input 3
Analog input (in volts) from analog source 3.
General Analog Input 4
Analog input (in volts) from analog source 4.
General Analog Input 5
Analog input (in volts) from analog source 5.
General Analog Input 6
Analog input (in volts) from analog source 6.
General Analog Input 7
Analog input (in volts) from analog source 7.
General Analog Input 8
Analog input (in volts) from analog source 8.
NE ID
ID number of the NE where the AIU module is installed.
G.4.3 All Amplifiers PM Table
The All Amplifiers PM table shows performance monitoring data for ONS 15800 and ONS 15801 amplifiers. You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-87 Field Descriptions for the All Amplifiers PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power in dBm of laser 1.
Input Power 2
Input power in dBm of laser 2.
Output Power 1
Output power in dBm of laser 1.
Output Power 2
Output power in dBm of laser 2.
Output Power Red 1
Red output power in dBm of laser 1.
Output Power Blue 1
Blue output power in dBm of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Laser Power 1
Power (in mW) of laser 1.
Laser Power 2
Power (in mW) of laser 2.
External Pump Power 1
External pump power (in mW) of laser 1.
NE ID
Name of the NE where the amplifier is installed.
G.4.4 All B1 and FEC Counters PM Table
The All B1 and FEC Counters PM table shows performance monitoring data for all B1 and forward error correction (FEC) counters on the ONS 1580x NEs in the selected group.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-88 Field Descriptions for the All B1 and FEC Counters PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30% of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Bit Error Rate
Ratio of received bits that contain errors.
B1 Unavailable Time
Amount of B1 unavailable time.
FEC Errored Seconds
Number of FEC errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
FEC Severely Errored Seconds
Number of FEC severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30% of errored blocks or at least one defect.
FEC Background Block Errors
Number of FEC BBEs. An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
FEC Unavailable Time
Amount of FEC unavailable time.
FEC Error Corrected Bits Rate
Ratio of FEC bit errors corrected to bits transmitted.
FEC Uncorrected Codewords Rate
Ratio of uncorrected codewords to codewords transmitted. A codeword is a block of N symbols that carry K information symbols and R redundant symbols (N = K+R).
NE ID
Name of the selected NE.
G.4.5 All B1 Transponders PM Table
The All B1 Transponders PM table shows performance monitoring information for all ONS 1580x B1 transponders. B1 transponders are used to convert, retime, reshape, and regenerate SONET and SDH signals through the optical path. B1 transponder modules perform nonintrusive B1 monitoring on the client signal.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-89 Field Descriptions for the All B1 Transponders PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30 percent of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
Input Power 1
Input power dBm of the B1 transponder.
Output Power 1
Output power in dBm of the B1 transponder.
Laser Temperature 1
Temperature (in degrees Celsius) of the B1 transponder distributed feedback laser.
Laser Current 1
Current (in mA) of the B1 transponder distributed feedback laser.
Laser Power 1
Power (in mW) of the B1 transponder distributed feedback laser.
NE ID
Name of the NE where the B1 transponder is installed.
G.4.6 All Demultiplexers PM Table
The All Demultiplexers PM table shows performance monitoring data for ONS 15800 and ONS 15801 demultiplexers.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-90 Field Descriptions for the All Demultiplexers PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of the demultiplexer.
Operating Temperature 1
Operating temperature (in degrees Celsius) of the demultiplexer.
NE ID
Name of the NE where the demultiplexer is installed.
G.4.7 All FEC Transponders PM Table
The All FEC Transponder PM table reports performance monitoring information for all ONS 1580x FEC transponders. Forward error correction is a technique that consists of transmitting data in an encoded form such that the redundancy added by the coding allows the decoding to detect and correct errors. FEC performance monitoring data is used to validate the DWDM server layer transport.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-91 Field Descriptions for the All FEC Transponder PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30 percent of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Bit Error Rate
Ratio of received bits that contain errors.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Errored Seconds
Number of FEC ES. An errored second is a one-second period with one or more error blocks or at least one defect.
FEC Severely Errored Seconds
Number of FEC SES. A severely errored second is a one-second period that contains at least 30 percent of errored blocks or at least one defect.
FEC Background Block Errors
Number of FEC BBE. An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
FEC Unavailable Seconds
Number of FEC UAS. The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Error Corrected Bits Rate
Ratio of FEC bit errors corrected to bits transmitted.
FEC Uncorrected Codewords Rate
Ratio of uncorrected codewords to codewords transmitted. A codeword is a block of N symbols that carry K information symbols and R redundant symbols (N = K+R).
Input Power 1
Input power (in dBm) of the FEC transponder.
Output Power 1
Output power (in dBm) of the FEC transponder.
Laser Temperature 1
Temperature (in degrees Celsius) of the FEC transponder distributed feedback laser.
Laser Current 1
Current (in mA) of the FEC transponder distributed feedback laser.
Laser Power 1
Power (in mW) of the FEC transponder distributed feedback laser.
NE ID
Name of the NE where the FEC transponder is installed.
G.4.8 All Normal Transponders PM Table
The All Normal Transponders PM table shows performance monitoring data for the ONS 15800 or ONS 15801 normal transponders, which are used to convert, retime, reshape, and regenerate SONET and SDH signals through the optical path.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-92 Field Descriptions for the All Normal Transponders PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Current 1
Current (in mA) of laser 1.
Laser Power 1
Power (in mW) of laser 1.
NE ID
Name of the NE where the transponder is installed.
G.4.9 All Mux/Demux/Channel Processor PM Table
The ONS 15808 All Mux/Demux/Channel Processor PM table shows performance monitoring data for ONS 15808 multiplexer, demultiplexer, and channel processors.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-93 Field Descriptions for the All Mux/Demux/Channel Processor PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of the processor.
Operating Temperature 1
Operating temperature (in degrees Celsius) of the processor.
NE ID
Name of the NE where the processor is installed.
G.4.10 All Transponders PM Table
The All Transponders PM table shows performance monitoring data for the ONS 15800 and the ONS 15801 transponders, including:
•Line extender modules (LEMs)
•Receive transponder (RXT) modules
•Wavelength converter modules (WCMs)
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-94 Field Descriptions for the All Transponders PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30 percent of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Bit Error Rate
Ratio of received bits that contain errors.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Errored Seconds
Number of forward error correction (FEC) ES. An errored second is a one-second period with one or more error blocks or at least one defect.
FEC Severely Errored Seconds
Number of FEC SES. A severely errored second is a one-second period that contains at least 30 percent of errored blocks or at least one defect.
FEC Background Block Errors
Number of FEC BBE. An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
FEC Unavailable Seconds
Number of FEC UAS. The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Error Corrected Bits Rate
Ratio of FEC bit errors corrected to bits transmitted.
FEC Uncorrected Codewords Rate
Ratio of uncorrected codewords to codewords transmitted. A codeword is a block of N symbols that carry K information symbols and R redundant symbols (N = K+R).
Input Power 1
Input power (in dBm) of the transponder.
Output Power 1
Output power (in dBm) of the transponder.
Laser Temperature 1
Temperature (in degrees Celsius) of the transponder distributed feedback laser.
Laser Current 1
Current (in mA) of the transponder distributed feedback laser.
Laser Power 1
Power (in mW) of the transponder distributed feedback laser.
NE ID
Name of the NE where the module is installed.
G.4.11 Amplifier ELH PM Table
The ONS 15808 Amplifier Extended Long Haul (ELH) PM table shows performance monitoring data for ONS 15808 ELH amplifiers.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-95 Field Descriptions for the Amplifier ELH PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Laser Power 1
Power (in mW) of laser 1.
Laser Power 2
Power (in mW) of laser 2.
External Pump Power 1
External pump power (in mW) of laser 1.
Pump Power 1
Pump power (in mW) of laser 1.
Fiber Temperature 1
Fiber temperature (in degrees Celsius) of laser 1.
Variable Optical Attenuation 1
Variable optical attenuation (in dB) of laser 1.
NE ID
Name of the NE where the ELH amplifier is installed.
G.4.12 Amplifier LH PM Table
The ONS 15808 Amplifier LH PM table shows performance monitoring data for ONS 15808 long-haul (LH) amplifiers.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-96 Field Descriptions for the Amplifier LH PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Laser Power 1
Power (in mW) of laser 1.
Laser Power 2
Power (in mW) of laser 2.
External Pump Power 1
External pump power (in mW) of laser 1.
Pump Power 1
Pump power (in mW) of laser 1.
Fiber Temperature 1
Fiber temperature (in degrees Celsius) of laser 1.
Variable Optical Attenuation 1
Variable optical attenuation (in dB) of laser 1.
NE ID
Name of the NE where the amplifier is installed.
G.4.13 B1 Counters PM Table
The B1 Counters PM table shows performance monitoring data for all B1 counters on the ONS 1580x NEs in the selected group.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-97 Field Descriptions for the B1 Counters PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30% of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
B1 Bit Error Rate
Ratio of received bits that contain errors.
NE ID
Name of the selected NE.
G.4.14 B1 LEM Transponder PM Table
The B1 LEM Transponder PM table shows performance monitoring information for the ONS 1580x B1 Line Extender Module (LEM) transponders, including:
•Line Extender Module-Externally Modulated-10 Gbps High Output Power-B1 Monitoring (LEM-10H-Mxx)
The B1 LEM extends transmission distances at ONS 15800 and ONS 15801 regeneration and optical add/drop multiplexing (OADM) sites. The highly sensitive LEM transponder is optimized for a single bit rate with minimum jitter generation, minimum transfer, and maximum jitter tolerance. At regeneration sites, LEMs integrate the function of receive transponders (RXTs) and wavelength converter modules (WCMs) to individually regenerate each channel prior to remultiplexing. B1 LEMs perform nonintrusive B1 monitoring.
Figure G-2 ONS 15800 or ONS 15801 B1 Line Extender Module Transponder
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-98 Field Descriptions for the B1 LEM Transponder PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30 percent of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
Input Power 1
Input power in dBm of the B1 LEM.
Output Power 1
Output power in dBm of the B1 LEM.
Laser Temperature 1
Temperature (in degrees Celsius) of the B1 LEM distributed feedback laser.
Laser Current 1
Current (in mA) of the B1 LEM distributed feedback laser.
Laser Power 1
Power (in mW) of the B1 LEM distributed feedback laser.
NE ID
Name of the NE where the B1 LEM is installed.
G.4.15 B1 RXT Transponder PM Table
The B1 RXT Transponder PM table shows performance monitoring information for the ONS 15800 and ONS 15801 B1 receive transponder (RXT) modules, including:
B1 RXTs are used in terminal sites (receive direction) and in optical add/drop multiplexing (OADM) sites (dropped signals) to retime, reshape, and regenerate low-input demultiplexed signals. The signals are then transmitted to short-reach SONET or intraoffice SDH equipment. B1 RXTs perform nonintrusive B1 monitoring.
Figure G-3 ONS 15800 or ONS 15801 B1 Receive Transponder
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-99 Field Descriptions for the B1 RXT Transponder PM Table
Column
Descriptions
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30 percent of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
Input Power 1
Input power in dBm of the B1 RXT.
Output Power 1
Output power in dBm of the B1 RXT.
Laser Current 1
Current (in mA) of the B1 RXT distributed feedback laser.
Laser Power 1
Power (in mW) of the B1 RXT distributed feedback laser.
NE ID
Name of the NE where the B1 RXT is installed.
G.4.16 B1 WCM Transponder PM Table
The B1 WCM Transponder PM table shows performance monitoring information for the ONS 15800 and ONS 15801 B1 wavelength converter module (WCM) transponders, including:
•Wavelength Converter Module-10 Gbps High Output Power-B1 Monitoring (WCM-10H-Mxx)
B1 WCMs are used in terminal sites (transmit direction) and in optical add/drop multiplexing (OADM) sites to retime, reshape, and regenerate SONET and SDH signals for transmission in the ONS 15800 and ONS 15801 systems. The B1 WCM optical-electrical-optical wavelength method is designed to match the optimum channel wavelength position in the ONS 15800 and ONS 15801 systems. B1 WCMs perform nonintrusive B1 monitoring.
Figure G-4 ONS 15800 or ONS 15801 B1 Wavelength Converter Module
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-100 Field Descriptions for the B1 WCM Transponder PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30 percent of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
Input Power 1
Input power (in dBm) of the B1 WCM.
Output Power 1
Output power (in dBm) of the B1 WCM.
Laser Temperature 1
Temperature (in degrees Celsius) of the B1 WCM distributed feedback laser.
Laser Current 1
Current (in mA) of the B1 WCM distributed feedback laser.
Laser Power 1
Power (in mW) of the B1 WCM distributed feedback laser.
NE ID
Name of the NE where the B1 WCM is installed.
G.4.17 BBA PM Table
The Blue-Band Booster Amplifier (BBA) PM table reports performance data for the ONS 15800 and ONS 15801 BBA module. BBAs are used in the receive direction of terminal and regeneration sites to boost the power level of the blue-band signal.
Figure G-5 ONS 15800 or ONS 15801 Blue-Band Booster Amplifier
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-101 Field Descriptions for the BBA PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Current 1
Current (in mA) of laser 1.
Laser Power 1
Power (in mW) of laser 1.
NE ID
Name of the NE where the BBA is installed.
G.4.18 BCS ELH PM Table
The Band Combiner and Splitter (BCS) Extended Long Haul (ELH) PM table reports performance data for the ONS 15808 BCS-ELH module.
The BCS-ELH module combines and separates C-band (long haul configuration), L-band (ELH configuration), and OSC signals. The module also interfaces with the external pump and ELH amplifier. The BCS-ELH module allows for a smooth, nontraffic-affecting upgrade to extended long haul implementation.
Figure G-6 ONS 15808 Band Combiner and Splitter Extended Long Haul Module
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-102 Field Descriptions for the BCS-ELH PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
External Pump 1 Power
Power (in mW) of the external pump 1.
External Pump 2 Power
Power (in mW) of the external pump 2.
Total External Pump Power
Total external pump power (in mW).
External Pump 1 Insertion Loss
Insertion loss (in mW) of the external pump 1.
External Pump 2 Insertion Loss
Insertion loss (in mW) of the external pump 2.
NE ID
ID number of the NE where the BCS-ELH module is installed.
G.4.19 BT Transponder PM Table
The BT Transponder PM table reports performance data for the ONS 15808 BT10E-LCxx and BT10E-LLxx transponders.
The bidirectional line transponder (BT10E-LCxx and BT10E-LLxx) performs a rate adaptation between the 10 GE client interface (10.312 Gbit/s) and the FEC payload rate (9.9532 Gbit/s). The BT10E-LCxx and BT10E-LLxx support a constant flow of maximum Ethernet packet length (1518 bytes) with a minimum average IPG = 10.5. The maximum packet length that can be supported is 1545 bytes.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-103 Field Descriptions for the BT Transponder PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Laser Temperature 1
Temperature (in degrees Celsius) of the transponder distributed feedback laser.
Laser Current 1
Current (in mA) of the transponder distributed feedback laser.
Laser Power 1
Power (in mW) of the transponder distributed feedback laser.
Input Power 1
Input power (in dBm) of the transponder.
Output Power 1
Output power (in dBm) of the transponder.
Total Packets
Total number of received packets.
Correct Packets
Number of received packets that are correct (excluding bad packets).
Runts Packets
Number of received runt frames (packets).
Giants Packets
Number of received giant frames (packets).
Total Errors
Total number of received errors.
Total CRC
Number of received packets (length = 64 1522 bytes) with a bad FCS.
Total PCS Errored Block
Number of decoding errored blocks.
Total Oversize Packets
Number of received frames (packets) with a frame size greater than or equal to the configured buffer size (Frame_Size >= Buffer_Size). All the packets with a Frame_Size > (Buffer_Size + 4) are truncated. For all the packets with a Buffer_Size = Frame_Size = (Buffer_Size + 4), the behavior is not deterministic. The packets may or may not be truncated.
FEC Errored Seconds
Number of FEC errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
FEC Severely Errored Seconds
Number of FEC severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30% of errored blocks or at least one defect.
FEC Background Block Errors
Number of FEC background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
FEC Unavailable Seconds
Number of FEC unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Error Corrected Bits Rate
Ratio of FEC bit errors corrected to bits transmitted.
FEC Uncorrected Codewords Rate
Ratio of uncorrected codewords to codewords transmitted. A codeword is a block of N symbols that carry K information symbols and R redundant symbols (N = K+R).
Total Transmitted Packets
Total number of transmitted packets.
NE ID
ID number of the NE where the line transponder is installed.
G.4.20 CMP PM Table
The CMP PM table reports performance data for the ONS 1580x Control and Monitoring Processor (CMP) module.
The CMP module monitors and relays commands to the ONS 1580x modules. It also provides an interface to CTM. The CMP module is able to monitor all modules in the system through the Shelf Control Unit (SCU) module, which connects the internal control buses (CBUSs) of all optical subracks in the site. This configuration allows all modules installed at a site to be managed as a unique NE. In sites containing more than one bay, multiple CMP modules are required. One CMP module is required for each bay.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-104 Field Descriptions for the CMP PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Alarms last whole hour
Number of alarms generated in the previous whole hour.
Alarms current hour
Number of alarms generated in the current hour.
Alarm Peak
Peak number of alarms at any given time.
Alarm Average 24h
Average number of alarms per second in a 24-hour period.
Alarm Average 60s
Average number of alarms per second in a 60-second period.
Free Log
Percentage of free log space available.
HD Free Mem
Amount of free hard drive memory, measured in megabytes (MB).
HD Avail Mem
Percentage of hard drive memory available.
Free RAM
Amount of free RAM available, measured in megabytes.
Avail RAM
Percentage of RAM available.
RAM Block
Size of the RAM block, measured in megabytes.
NE ID
ID number of the NE where the receiver transponder is installed.
G.4.21 Demultiplexer PM Table
The Demultiplexer PM table reports performance data for the ONS 15808 demultiplexers, including:
Demultiplexer modules demultiplex the 40 odd- and even-numbered C-band channels at 100 GHz spacing. On the receive side, the 40MD-CO--D module demultiplexes the odd-numbered C-band channels; the 40MD-CE--D module demultiplexes the even-numbered C-band channels.
Figure G-7 ONS 15808 Demultiplexer
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-105 Field Descriptions for the Demultiplexer PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of the demultiplexer.
Operating Temperature 1
Operating temperature (in degrees Celsius) of the demultiplexer.
NE ID
ID number of the NE where the demultiplexer is installed.
G.4.22 Ethernet Counters PM Table
The Ethernet Counters PM table reports Ethernet performance data for the ONS 15808 NEs.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-106 Field Descriptions for the Ethernet Counters PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Total Packets
Total number of received packets.
Correct Packets
Number of received packets that are correct (excluding bad packets).
Runts Packets
Number of received runt frames (packets).
Giants Packets
Number of received giant frames (packets).
Total Errors
Total number of received errors.
Total CRC
Number of received packets (length = 64 1522 bytes) with a bad FCS.
Total PCS Errored Block
Number of decoding errored blocks.
Total Oversize Packets
Number of received frames (packets) with a frame size greater than or equal to the configured buffer size (Frame_Size >= Buffer_Size). All the packets with a Frame_Size > (Buffer_Size + 4) are truncated. For all the packets with a Buffer_Size = Frame_Size = (Buffer_Size + 4), the behavior is not deterministic. The packets may or may not be truncated.
Total Transmitted Packets
Total number of transmitted packets.
NE ID
ID number of the NE where the line transponder is installed.
G.4.23 FEC Counters PM Table
The FEC Counters PM table shows performance monitoring data for all forward error correction (FEC) counters on the ONS 1580x NEs in the selected group. You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-107 Field Descriptions for the FEC Counters PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
FEC Errored Seconds
Number of FEC errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
FEC Severely Errored Seconds
Number of FEC severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30% of errored blocks or at least one defect.
FEC Background Block Errors
Number of FEC background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
FEC Unavailable Time
Amount of FEC unavailable time.
FEC Error Corrected Bits Rate
Ratio of FEC bit errors corrected to bits transmitted.
FEC Uncorrected Codewords Rate
Ratio of uncorrected codewords to codewords transmitted. A codeword is a block of N symbols that carry K information symbols and R redundant symbols (N = K+R).
NE ID
Name of the selected NE.
G.4.24 FEC LEM PM Table
The FEC LEM PM table reports performance data for the ONS 15800 and ONS 15801 FEC line extender module (LEM) transponders, including:
Forward error correction is a technique that consists of transmitting data in an encoded form such that the redundancy added by the coding allows the decoding to detect and correct errors. The FEC LEMs are wavelength converter modules used at regeneration sites for transmission on ONS 15800 and ONS 15801 optically amplified systems.
The FEC LEM provides a high-input sensitivity optical receiver with FEC decoding and encoding capabilities and an external-modulator-based transmitter. Input and output bit rates are 2.6-Gbps FEC or 10.66-Gbps FEC data streams. The FEC LEM must be interfaced at both input and output with other ONS 15800 or ONS 15801 FEC modules. The module cannot interface directly with SONET/SDH signals. The FEC LEM provides error correction capability according to FEC ASIC specifications. The FEC LEM cannot provide performance monitoring for SONET or SDH data in transit (B1 monitor).
Figure G-8 ONS 15800 or ONS 15801 FEC Line Extender Module
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-108 Field Descriptions for the FEC LEM PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
FEC Errored Seconds
Number of FEC errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
FEC Severely Errored Seconds
Number of FEC severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30 percent of errored blocks or at least one defect.
FEC Background Block Errors
Number of FEC background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
FEC Unavailable Seconds
Number of FEC unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Error Corrected Bits Rate
Ratio of FEC bit errors corrected to bits transmitted.
FEC Uncorrected Codewords Rate
Ratio of uncorrected codewords to codewords transmitted. A codeword is a block of N symbols that carry K information symbols and R redundant symbols (N = K+R).
Input Power 1
Input power (in dBm) of the FEC LEM transponder.
Output Power 1
Output power (in dBm) of the FEC LEM transponder.
Laser Temperature 1
Temperature (in degrees Celsius) of the FEC LEM transponder distributed feedback laser.
Laser Current 1
Current (in mA) of the FEC LEM transponder distributed feedback laser.
Laser Power 1
Power (in mW) of the FEC LEM transponder distributed feedback laser.
NE ID
Name of the NE where the FEC LEM is installed.
G.4.25 FEC RXT PM Table
The FEC RXT PM table reports performance monitoring data for the ONS 15800 and the ONS 15801 FEC receive transponder (RXT) modules, including:
The FEC RXT is a high-sensitivity wavelength converter used at terminal sites to provide an optimized optical receiver and a decoder function necessary for forward error correction for transmission. The FEC technique helps detect and correct errors that occur on a noisy digital transmission line.
To provide FEC functionality, an encoder is integrated in each wavelength converter module (WCM) or line extender module (LEM), adding computed redundant symbols to a limited data block and producing encoded data at a higher bit rate. At the receiving site, the RXT decoder performs the error correction while extracting the redundancy to regenerate the data that was encoded by the WCM or LEM.
Figure G-9 ONS 15800 or ONS 15801 FEC Receive Transponder
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-109 Field Descriptions for the FEC RXT PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30 percent of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Bit Error Rate
Ratio of received bits that contain errors.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Errored Seconds
Number of FEC ES. An errored second is a one-second period with one or more error blocks or at least one defect.
FEC Severely Errored Seconds
Number of FEC SES. A severely errored second is a one-second period that contains at least 30 percent errored blocks or at least one defect.
FEC Background Block Errors
Number of FEC BBE. An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
FEC Unavailable Seconds
Number of FEC UAS. The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Error Corrected Bits Rate
Ratio of FEC bit errors corrected to bits transmitted.
FEC Uncorrected Codewords Rate
Ratio of uncorrected codewords to codewords transmitted. A codeword is a block of N symbols that carry K information symbols and R redundant symbols (N = K+R).
Input Power 1
Input power (in dBm) of the FEC RXT.
Output Power 1
Output power (in dBm) of the FEC RXT.
Laser Current 1
Current (in mA) of the FEC RXT distributed feedback laser.
Laser Power 1
Power (in mW) of the FEC RXT distributed feedback laser.
NE ID
Name of the NE where the FEC RXT is installed.
G.4.26 FEC WCM PM Table
The FEC WCM PM table reports performance monitoring data for the ONS 15800 and ONS 15801 FEC wavelength converter module (WCM) transponders, including:
Forward error correction is a technique that consists of transmitting data in an encoded form such that the redundancy added by the coding allows the decoding to detect and correct errors. The FEC WCM is a wavelength converter used at terminal sites to adapt SDH or SONET line terminal equipment (LTE) optical signals that are output for transmission on ONS 15800 and ONS 15801 systems.
The optical receiver at the input recovers the optical data signal, converts the signal into electrical data, and provides nonintrusive performance monitoring on the incoming SONET or SDH data frame. An FEC encoder is integrated in each module, adding computed redundant symbols to a limited data block and producing encoded data at a higher bit rate. The encoded electrical data is fed to an optical transmitter based on laser external modulation. Transmitted data is decoded and regenerated by an FEC receive transponder (RXT) at the receiving site.
Figure G-10 ONS 15800 or ONS 15801 FEC Wavelength Converter Module
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-110 Field Descriptions for the FEC WCM PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30 percent of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Bit Error Rate
Ratio of received bits that contain errors.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
Input Power 1
Input power (in dBm) of the FEC WCM transponder.
Output Power 1
Output power (in dBm) of the FEC WCM transponder.
Laser Temperature 1
Temperature (in degrees Celsius) of the FEC WCM transponder distributed feedback laser.
Laser Current 1
Current (in mA) of the FEC WCM transponder distributed feedback laser.
Laser Power 1
Power (in mW) of the FEC WCM transponder distributed feedback laser.
NE ID
Name of the NE where the FEC WCM is installed.
G.4.27 Input/Output Card PM Table
The Input/Output Card PM table shows performance monitoring data for the ONS 15800 and ONS 15801 Input/Output Card (IOC-W) modules. The IOC-W reports external conditions, such as power, fire, flood, open door, and other environmental conditions, monitored by up to eight analog sources. The IOC-W module also permits remote control of isolated optical line amplifier (OLA) sites.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-111 Field Descriptions for the Input/Output Card PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
General Analog Input 1
Analog input (in volts) from analog source 1.
General Analog Input 2
Analog input (in volts) from analog source 2.
General Analog Input 3
Analog input (in volts) from analog source 3.
General Analog Input 4
Analog input (in volts) from analog source 4.
General Analog Input 5
Analog input (in volts) from analog source 5.
General Analog Input 6
Analog input (in volts) from analog source 6.
General Analog Input 7
Analog input (in volts) from analog source 7.
General Analog Input 8
Analog input (in volts) from analog source 8.
NE ID
Name of the NE where the IOC-W module is installed.
G.4.28 IR Booster/Tx Amplifier PM Table
The IR Booster/Tx Amplifier PM table shows performance monitoring data for ONS 15800 and ONS 15801 Infrared-Band Booster Amplifier (IRBA) modules and Transmit Power Amplifier-Infrared band (TPA-IR) modules, including:
The IRBA is an EDFA booster amplifier that is used in terminal (receive section) and optical line amplification (OLA) sites in the ONS 15800 or ONS 15801 system. The IRBA is the second amplification stage in the receive section of the infrared band and is positioned directly after the Pre-Line Amplifier-Infrared band (PRE-L-IR) module. The IRBA-10G is used in terminal and regeneration sites (with both OC-48 and OC-192 bit rates).
The TPA-IR module consists of two stages of amplification, each containing an erbium-doped fiber pumped by semiconductor lasers at the pump wavelength of 1480 nm. After the infrared band is multiplexed by two 16-channel Wavelength Multiplexer-Infrared band (16WM-IRF or 16WM-IRS) modules, the TPA-IR module uniformly amplifies the 32 infrared-band channels.
Figure G-11 ONS 15800 or ONS 15801 Infrared-Band Booster Amplifier
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-112 Field Descriptions for the IR Booster/Tx Amplifier PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Laser Power 1
Power (in mW) of laser 1.
Laser Power 2
Power (in mW) of laser 2.
External Pump Power 1
External pump power (in mW) of laser 1.
NE ID
Name of the NE where the amplifier is installed.
G.4.29 LEM Transponder PM Table
The LEM Transponder PM table shows performance monitoring data for the ONS 15800 or ONS 15801 line extender module (LEM) normal transponders, including:
LEMs extend transmission distances in regeneration and in optical add/drop multiplexing (OADM) sites. The highly sensitive LEM is optimized for a single bit rate with minimum jitter generation, minimum transfer, and minimum jitter tolerance. At regeneration sites, LEMs integrate the function of receive transponders (RXTs) and wavelength converter modules (WCMs) to individually regenerate each channel prior to remultiplexing.
Figure G-12 ONS 15800 or ONS 15801 Normal Line Extender Module
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-113 Field Descriptions for the LEM Transponder PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Current 1
Current (in mA) of laser 1.
Laser Power 1
Power (in mW) of laser 1.
NE ID
Name of the NE where the transponder is installed.
G.4.30 Line Service Module PM Table
The Line Service Module PM table reports performance monitoring data for the ONS 15800 and the ONS 15801 Line Service Modem (LSM-W) module. The LSM-W is a bidirectional optical modem that operates at an E1 line rate (2.048 Mbps). It transports the optical service channel, which carries telemetry, supervision, user-defined information, and orderwire between sites.
Figure G-13 ONS 15800 or ONS 15801 Line Service Modem Module
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-114 Field Descriptions for the Line Service Module PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
East Output Power 1
Output power (in dBm) of the east laser.
West Output Power 2
Output power (in dBm) of the west laser.
East Laser Temperature 1
Temperature (in degrees Celsius) of the east laser.
West Laser Temperature 2
Temperature (in degrees Celsius) of the west laser.
East Laser Current 1
Current (in mA) of the east laser.
West Laser Current 2
Current (in mA) of the west laser.
NE ID
Name of the NE where the LSM-W is installed.
G.4.31 Line Transponders PM Table
The Line Transponders PM table reports performance data for the ONS 15808 line transponders, including:
The line transponder performs 3R regeneration of 2.5 Gbps and 10 Gbps optical signals and provides performance and quality parameters based on FEC overhead. Line transponders are used in regeneration sites to retime, reshape, and regenerate low output signals. Line transponders decode out-of-band (OOB) FEC information, perform error correction, and add OOB-FEC encoding to transport signals.
Figure G-14 ONS 15808 Line Transponder
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-115 Field Descriptions for the Line Transponders PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
FEC Errored Seconds
Number of FEC errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
FEC Severely Errored Seconds
Number of FEC severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30% of errored blocks or at least one defect.
FEC Background Block Errors
Number of FEC background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
FEC Unavailable Seconds
Number of FEC unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Error Corrected Bits Rate
Ratio of FEC bit errors corrected to bits transmitted.
FEC Uncorrected Codewords Rate
Ratio of uncorrected codewords to codewords transmitted. A codeword is a block of N symbols that carry K information symbols and R redundant symbols (N = K+R).
Input Power 1
Input power (in dBm) of the transponder.
Output Power 1
Output power (in dBm) of the transponder.
Laser Temperature 1
Temperature (in degrees Celsius) of the transponder distributed feedback laser.
Laser Current 1
Current (in mA) of the transponder distributed feedback laser.
Laser Power 1
Power (in mW) of the transponder distributed feedback laser.
NE ID
ID number of the NE where the line transponder is installed.
G.4.32 Multiplexer PM Table
The Multiplexer PM table reports performance data for the ONS 15808 multiplexers, including:
Multiplexer modules multiplex the 40 odd- and even-numbered C-band channels at 100 GHz spacing. On the transmit side, the 40MD-CO--M module multiplexes the odd-numbered C-band channels; the 40MD-CE--M module multiplexes the even-numbered C-band channels.
Figure G-15 ONS 15808 Multiplexer
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-116 Field Descriptions for the Multiplexer PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Operating Temperature 1
Operating temperature (in degrees Celsius) of the multiplexer.
NE ID
ID number of the NE where the multiplexer is installed.
G.4.33 Normal Demultiplexer PM Table
The Normal Demultiplexer PM table shows performance monitoring data for ONS 15800 and ONS 15801 wavelength demultiplexer modules, including:
•8-channel Wavelength Demultiplexer-Blue Band (8WD-B)
•24-channel Wavelength Demultiplexer-Red Band (24WD-R)
•24-channel Wavelength Demultiplexer-Low Loss-Red Band (24WD-LLR)
Figure G-16 ONS 15800 or ONS 15801 Wavelength Demultiplexer
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-117 Field Descriptions for the Normal Demultiplexer PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Operating Temperature 1
Operating temperature (in degrees Celsius) of laser 1.
NE ID
ID number of the NE where the demultiplexer is installed.
G.4.34 OADM PM Table—ONS 15800, ONS 15801
The OADM PM table reports performance monitoring data for the ONS 15800 and ONS 15801 optical add/drop multiplexer (OADM) modules, including:
OADM modules are used at ONS 15800 and ONS 15801 OADM sites that operate at 2.5 Gbps with 100-GHz spacing to add and drop a fixed number of channels.
Figure G-17 ONS 15800 or ONS 15801 Optical Add/Drop Multiplexer
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-118 Field Descriptions for the OADM PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Operating Temperature 1
Operating temperature (in degrees Celsius) of laser 1.
Operating Temperature 2
Operating temperature (in degrees Celsius) of laser 2.
NE ID
ID number of the NE where the OADM is installed.
G.4.35 OADM PM Table—ONS 15808
The OADM PM table reports performance data for the ONS 15808 Optical Add/Drop Unit-Passive 4-Channel-C band (OAD-8-C).
The OAD-8-C module is a two-slot unit used at optical add/drop multiplexing sites on the ONS 15808 system. The module adds and drops up to eight C-band channels at 100-GHz spacing from the 50-GHz grid on the system. The complete add/drop function is achieved by using two OAD modules to accommodate traffic in the two transmission directions.
Figure G-18 ONS 15808 Optical Amplifier Extended Long Haul
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-119 Field Descriptions for the OADM PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power Express Channels 1
Power (in dBm) at the input of the express channel. Express channels do not go through the add or drop process.
Input Power Add Channels 1
Power (in dBm) at the input of the add channel. Added channels enter from the IN (ADD) port.
Add Exp Channels Insertion Loss 1
Total optical power loss (in dB) caused by the insertion of the add express channels. Insertion loss is the total optical power loss caused by insertion of an optical component.
Drop Exp Channels Insertion Loss 1
Total optical power loss (in dB) caused by the insertion of the drop express channels.
Add Channels Insertion Loss 1
Total optical power loss (in dB) caused by the insertion of the add channels.
Drop Channels Insertion Loss 1
Total optical power loss (in dB) caused by the insertion of the drop channels. Dropped channels go to the OUT (DROP) port.
NE ID
ID number of the NE where the OAD-8-C module is installed.
G.4.36 OA-ELH PM Table
The Optical Amplifier ELH PM table reports performance data for the ONS 15808 Optical Amplifier-Extended Long Haul (OA-ELH), including:
•Optical Amplifier-ELH Application-L band-OADM Drop Receive (OA-ELH--OD)
Optical Amplifier-Extended Long Haul (OA-ELH) modules are EDFA amplifiers that operate in the L band to support ELH applications. OA-ELH modules perform preamplification and boosting functions on the composite L-band signal. OA-ELH modules are used in transmit and receive directions for all site types supported by the ONS 15808 (terminal sites, OLA sites, OADM sites, and regeneration sites).
Figure G-19 ONS 15808 Optical Amplifier Extended Long Haul
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-120 Field Descriptions for the OA-ELH PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1st Stage
First stage input power (in dBm).
Input Power 2nd Stage
Second stage input power (in dBm).
Output Power 1st Stage
First stage output power (in dBm).
Output Power 2nd Stage
Second stage output power (in dBm).
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Laser Power 1
Power (in mW) of laser 1.
Laser Power 2
Power (in mW) of laser 2.
External Pump Power 1
External pump power (in mW) of laser 1.
External Pump Power 2
External pump power (in mW) of laser 2.
Fiber Temperature 1
Fiber temperature (in degrees Celsius) of laser 1.
Variable Optical Attenuation 1
Variable optical attenuation (in dB) of laser 1.
NE ID
ID number of the NE where the OA-ELH is installed.
G.4.37 OBA-C PM Table
The OBA-C PM table reports performance data for the ONS 15808 Optical Booster Amplifier C band (OBA-C) module, including:
•Optical Booster Amplifier-C band-OADM Drop Receiver (OBA-C--DRX)
The OBA-C module is an active, EDFA power amplifier designed to boost the power level of the C-band signals received from the OPA-C module in terminal, OLA, and OADM sites. The OBA-C module can operate correctly with or without the Optical External Pump (OEP-C) module, depending on the configuration and channel count. The OBA-C module is used for both transmitted and received signals in the ONS 15808 system.
Figure G-20 ONS 15808 Optical Booster Amplifier
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-121 Field Descriptions for the OBA-C PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Laser Power 1
Power (in mW) of laser 1.
Laser Power 2
Power (in mW) of laser 2.
External Pump Power 1
External pump power (in mW) of laser 1.
Fiber Temperature 1
Fiber temperature (in degrees Celsius) of laser 1.
Variable Optical Attenuation 1
Variable optical attenuation (in dB) of laser 1.
NE ID
ID number of the NE where the OBA-C is installed.
G.4.38 OCP Unit PM Table
The OCP Unit PM table reports performance data for the ONS 15808 optical channel protection (OCP) module.
The OCP module enables 1+1 protection of a generic client optical signal regardless of bit rate, format protocol, and wavelength. To provide this protection, the OCP module is placed at the optical system access point. This means that the module must be connected between the client terminal and the ONS 15808 system transponders to provide path protection. The OCP module can provide channel protection for SDH and SONET traffic on the physical layer.
Figure G-21 ONS 15808 Optical Channel Protection Unit
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-122 Field Descriptions for the OCP Unit PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power from Client Transmitter
Input power (in dBm) from the client transmitter.
Output Power Client Receive
Output power (in dBm) from the client receiver.
Input Power Working Line
Input power (in dBm) of the working line.
Input Power Protection Line
Input power (in dBm) of the protected line.
Optical Switch Insertion Loss
Total optical power loss (in dB) caused by the insertion of the optical switch.
NE ID
ID number of the NE where the OCP module is installed.
G.4.39 OECP PM Table
The OECP PM table reports performance data for the ONS 15808 odd/even channel processor (OECP), including:
The OECP-C and OECP-C--P modules are bidirectional multiplexer/demultiplexers. On the transmit side, the passive OECP-C--P module multiplexes the 40 odd-numbered channel signal and the 40 even-numbered channel signal into a composite 80-channel signal in the C band. The channels in the 40-channel signal are spaced at 100 GHz. The channels in the 80-channel composite signal are spaced at 50 GHz. On the receive side, the active OECP-C module demultiplexes the composite 80-channel signal into two separate 40-channel signals in the C band.
On the transmit side, the passive OECP-L--P module multiplexes the 20 odd-numbered channel signal and the 20 even-numbered channel signal into a composite 40-channel signal in the L band. The channels in the 20-channel signal are spaced at 100 GHz. The channels in the 40-channel composite signal are spaced at 50 GHz. On the receive side, the active OECP-L module demultiplexes the composite 40-channel signal into two separate 20-channel signals in the L band.
Note Input power is never monitored on the C-band boards (OECP-C and OECP-C--P), but it is always monitored on the L-band boards (OECP-L and OECP-L--P). Operating temperature is monitored on the L-band boards only when they are configured as ACTIVE (OECP-L). Operating temperature is also monitored on the C-band boards.
Figure G-22 ONS 15808 Odd/Even Channel Processor
Figure G-23 ONS 15808 Odd/Even Channel Processor-L Band
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Note Some units of measure are absent on certain configurations.
Table G-123 Field Descriptions for the OECP PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in degrees Celsius) of the channel processor.
Operating Temperature 1
Operating temperature (in degrees Celsius) of the channel processor.
NE ID
ID number of the NE where the channel processor is installed.
G.4.40 OEP-C PM Table
The OEP-C PM table reports performance data for the ONS 15808 Optical Extra Pump C band (OEP-C) module, including:
•Optical Extra Pump-C band-Line (OEP-C--L)
•Optical Extra Pump-C band-Receiver Odd (OEP-C--RXO)
•Optical Extra Pump-C band-Receiver Even (OEP-C--RXE)
•Optical Extra Pump-C band-OADM (OEP-C--ADL)
The OEP-C module is an active optical extra pump designed to boost the number of channels amplified by the OBA-C module at all transmitting and line sites. The OEP-C module is connected directly to the extra pump (EP) input port of the OBA-C module on terminal, OADM, and OLA sites to provide extra pump power to amplify the full-load, 80-channel C-band signal.
Note The OEP-C module is required when the system is carrying more than 40 channels.
Figure G-24 ONS 15808 Optical Extra Pump Amplifier
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-124 Field Descriptions for the OEP-C PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Current 1
Current (in mA) of laser 1.
Pump Power 1
Pump power (in mW) of laser 1.
NE ID
ID number of the NE where the OEP-C is installed.
G.4.41 OPA-C PM Table
The OPA-C PM table reports performance data for the ONS 15808 Optical Preamplifier C band (OPA-C) module, including:
•Optical Preamplifier-C band-OADM Drop Receiver (OPA-C--DRX)
The OPA-C module is an active, single-stage EDFA power amplifier designed to preamplify all wavelengths in the C-band (80 channels at 50 GHz spacing). The OPA-C module is used at all ONS 15808 sites for both transmitted and received signals. On the receiving side, the OPA-C module amplifies the power of the 80-channel C-band signal before it is split into two 40-channel signals. On the transmitting side, the OPA-C module preamplifies the 80-channel C-band signal before it is amplified and combined for transmitting.
Figure G-25 ONS 15808 Optical Preamplifier
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-125 Field Descriptions for the OPA-C PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Current 1
Current (in mA) of laser 1.
Laser Power 1
Power (in mW) of laser 1.
Fiber Temperature 1
Fiber temperature (in degrees Celsius) of laser 1.
NE ID
ID number of the NE where the OPA-C is installed.
G.4.42 OP-ELH PM Table
The OP-ELH PM table reports performance data for the ONS 15808 Optical External Pump-Extended Long Haul (OP-ELH) amplifier, including:
•Optical External Pump-ELH Application-L band-OADM Drop Receive (OP-ELH--OD)
OP-ELH modules are used to boost the pump power of Optical Amplifier-Extended Long Haul (OA-ELH) modules. Each OA-ELH requires the use of an OP-ELH module. OP-ELH modules are made of two optical pump lasers, each pumping one of the two sections of the OA-ELH units.
Figure G-26 ONS 15808 Optical External Pump Extended Long Haul Amplifier
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-126 Field Descriptions for the OP-ELH PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Pump Power 1
Pump power (in mW) of laser 1.
Pump Power 2
Pump power (in mW) of laser 2.
NE ID
ID number of the NE where the OP-ELH is installed.
G.4.43 ORP-ELH PM Table
The Optical Raman Pump ELH PM table reports performance data for the ONS 15808 Optical Raman Pump-Extended Long Haul (ORP-ELH) amplifier, including:
•Optical Raman Pump-ELH Application-1470 nm-L band (ORP-ELH-1)
•Optical Raman Pump-ELH Application-1490 nm-L band (ORP-ELH-2)
ORP-ELH modules are used to generate Raman gain effects in the optical fiber. Two modules are available: ORP-ELH-1 (operating at 1480 nm) and ORP-ELH-2 (operating at 1500 nm). Both modules launch pump power in a counter-propagating direction to generate Raman effects in the optical fiber. ORP-ELH modules are used in all site types supported by the ONS 15808.
Figure G-27 ONS 15808 Optical Raman Pump Extended Long Haul Amplifier
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-127 Field Descriptions for the ORP-ELH PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Pump Power 1
Pump power (in mW) of laser 1.
Pump Power 2
Pump power (in mW) of laser 2.
Total Raman Pump Power
Total Raman pump power (in mW).
NE ID
ID number of the NE where the ORP-ELH is installed.
G.4.44 OSCM PM Table
The OSCM PM table reports performance data for the ONS 15808 optical service channel modem (OSCM) module.
The OSCM module provides each NE with logical and physical interfaces to manage the two-channel, unidirectional optical service channel information. The optical service channel connects all the stations of an optical network or subnetwork and transports general purpose information without affecting user traffic. The primary function of the OSCM module is to manage data subchannels for supervisory and order-wire services and to provide transparent links between each node of the network for user-defined functions. The OSCM module transports data in each direction by using a single optical wavelength (1620 nm) running on the same fiber pair as the optical payload channels.
Figure G-28 ONS 15808 Optical Service Channel Modem
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-128 Field Descriptions for the OSCM PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Number of Collisions
Total number of collisions.
Number of Transmitted Bytes
Total number of transmitted bytes.
East Output Power 1
Output power (in dBm) of the east laser.
West Output Power 2
Output power (in dBm) of the west laser.
East Laser Temperature 1
Temperature (in degrees Celsius) of the east laser.
West Laser Temperature 2
Temperature (in degrees Celsius) of the west laser.
East Laser Current 1
Current (in mA) of the east laser.
West Laser Current 2
Current (in mA) of the west laser.
NE ID
ID number of the NE where the OSCM module is installed.
G.4.45 OSU PM Table
The OSU PM table reports performance monitoring data for the ONS 15800 and ONS 15801 optical switching unit (OSU-W) module.
The OSU-W module enables 1+1 protection of a generic client optical signal regardless of bit rate, format protocol, and wavelength. To provide this protection, the OSU-W module is placed at the optical system access point. This means that the module must be connected between the client terminal and the ONS 15800 or ONS 15801 system transponders to provide path protection. The OSU-W module can provide channel protection on the physical layer, for SDH and SONET traffic as well as for unprotected traffic such as IP, ATM, and plesiochronous digital hierarchy (PDH).
Figure G-29 ONS 15800 or ONS 15801 Optical Switch Unit
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-129 Field Descriptions for the OSU PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power from Client Transmitter
Input power (in dBm) of the client transmitter.
Output Power Client Receive
Output power (in dBm) of the client receiver.
Input Power Working Line
Input power (in dBm) of the working line.
Input Power Protection Line
Input power (in dBm) of the protected line.
Optical Switch Insertion Loss
Total optical power loss (in dB) caused by the insertion of the optical switch.
NE ID
Name of the NE where the OSU-W is installed.
G.4.46 Pre-Line Amplifier PM Table
The Pre-Line Amplifier PM table reports performance monitoring data for the ONS 15800 or ONS 15801 Pre-Line Amplifier (PRE-L) module. The PRE-L module is used in terminal sites, optical line amplifier (OLA) sites, optical add/drop multiplexing (OADM) sites, and regeneration sites to preamplify the line signal.
Figure G-30 ONS 15800 or ONS 15801 Pre-Line Amplifier Module
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-130 Field Descriptions for the Pre-Line Amplifier PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power Red 1
Output power (in dBm) of the red band.
Output Power Blue 1
Output power (in dBm) of the blue band.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Current 1
Current (in mA) of laser 1.
Laser Power 1
Power (in mW) of laser 1.
NE ID
Name of the NE where the PRE-L module is installed.
G.4.47 Pre-Line Infrared Amplifier PM Table
The Pre-Line Infrared Amplifier PM table shows the performance monitoring data for the ONS 15800 or ONS 15801 Pre-Line Amplifier-Infrared Band (PRE-L-IR).
The PRE-L-IR is an EDFA preamplifier. It is used in the receive section of each site (terminal and OLA) in the ONS 15800 or ONS 15801 system where an infrared band is present. The PRE-L-IR is the first amplification stage in the receive section of the infrared band and is positioned directly after the PRE-L amplifier.
Figure G-31 ONS 15800 or ONS 15801 Pre-Line Infrared Band Amplifier-Infrared Band
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-131 Field Descriptions for the Pre-Line Infrared Amplifier PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Laser Power 1
Power (in mW) of laser 1.
Laser Power 2
Power (in mW) of laser 2.
NE ID
Name of the NE where the amplifier is installed.
G.4.48 Receiver Demultiplexer PM Table
The Receiver Demultiplexer PM table shows the performance monitoring data for the ONS 15800 or ONS 15801 32-Channel Wavelength Demultiplexer-Infrared band (32WD-IR) module.
The 32WD-IR module demultiplexes 32 different optical infrared-band channels from one optical input. The optical input power is monitored to detect failures. The 32WD-IR module is used in 2.5-Gbps and 10-Gbps ONS 15800 or ONS 15801 systems. It receives infrared-band input from the infrared-band booster amplifier (IRBA-10G module) and demultiplexes the signal into 32 channels at 100-GHz spacing.
Figure G-32 ONS 15800 or ONS 15801 32-Channel Wavelength Demultiplexer-Infrared Band
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-132 Field Descriptions for the Receiver Demultiplexer PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of the receiver demultiplexer.
Operating Temperature 1
Operating temperature (in degrees Celsius) of the receiver demultiplexer.
NE ID
Name of the NE where the receiver demultiplexer is installed.
G.4.49 Receiver Transponders PM Table
The Receiver Transponders PM table reports performance data for the ONS 15808 receive transponders, including:
The receive transponder is used in terminal sites (receive direction) and in OADM sites to retime, reshape, and regenerate 2.5 Gbps and 10 Gbps low-input signals. Receiver transponders perform 3R regeneration of optical signals and provide quality parameters based on FEC overhead and client signal validation parameters. Receiver transponders perform out-of-band (OOB) FEC decoding and error correction for transport signals, which are transmitted to SONET- or SDH-compliant client equipment. The interface complies with Bellcore GR-253 and ITU-T G.957 SONET and SDH physical interface specifications.
Figure G-33 ONS 15808 Receiver Transponder
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-133 Field Descriptions for the Receiver Transponders PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30% of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBE). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Bit Error Rate
Ratio of received bits that contain errors.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Errored Seconds
Number of FEC errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
FEC Severely Errored Seconds
Number of FEC severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30% of errored blocks or at least one defect.
FEC Background Block Errors
Number of FEC BBEs. An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
FEC Unavailable Seconds
Number of FEC UAS. The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Error Corrected Bits Rate
Ratio of FEC bit errors corrected to bits transmitted.
FEC Uncorrected Codewords Rate
Ratio of uncorrected codewords to codewords transmitted. A codeword is a block of N symbols that carry K information symbols and R redundant symbols (N = K+R).
Input Power 1
Input power (in dBm) of the transponder.
Output Power 1
Output power (in dBm) of the transponder.
Laser Current 1
Current (in mA) of the transponder distributed feedback laser.
Laser Power 1
Power (in mW) of the transponder distributed feedback laser.
NE ID
ID number of the NE where the receive transponder is installed.
G.4.50 Red/10G/RX Booster Amplifier PM Table
The Red/10G/RX Booster Amplifier PM table shows the performance of ONS 15800 or ONS 15801 red-band-booster amplifiers, including:
•Red-band Booster Amplifier (RBA)
•Red-band Booster Amplifier-10 Gbps (RBA-10G)
•Red-band Band Amplifier-10 Gbps-ETSI (RBA-10G-E)
Note Only the ONS 15801 can manage the RBA-10G-E. The ONS 15800 does not manage the RBA-10G-E.
Red-band booster amplifiers are used in the receive direction of terminal and regeneration sites to boost the power level of the red-band signal.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-134 Field Descriptions for the Red/10G/RX Booster Amplifier PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Laser Power 1
Power (in mW) of laser 1.
Laser Power 2
Power (in mW) of laser 2.
NE ID
Name of the NE where the module is installed.
G.4.51 RXT Transponder PM Table
The RXT Transponder PM table shows performance monitoring data for the ONS 15800 or ONS 15801 normal receive transponder (RXT) modules, including:
RXTs are used in terminal sites (receive direction) and in optical add/drop multiplexing (OADM) sites (dropped signals) to retime, reshape, and regenerate low-input demultiplexed signals. The signals are then transmitted to short-reach SONET or intraoffice SDH equipment.
Figure G-34 ONS 15800 or ONS 15801 Normal Receive Transponder
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-135 Field Descriptions for the RXT Transponder PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (dBm) of laser 1.
Laser Current 1
Current (in mA) of laser 1.
Laser Power 1
Power (in mW) of laser 1.
NE ID
Name of the NE where the transponder is installed.
G.4.52 SCU PM Table
The SCU PM table reports performance data for the ONS 15808 shelf control unit (SCU) module.
The SCU module is installed in every shelf in the system to manage all of the common shelf functions. The front panel of the SCU module has LEDs that indicate the status of the module, fans, and the bay alarms. The SCU module controls the following shelf functions:
•Monitoring of the power supply and fan status
•Monitoring of the local shelf input voltage
•Extension of the control bus (CBUS) to other shelves
•Testing of all shelf module LEDs
•Management of B-alarm relay and LEDs
•Management of alarm memory and acknowledgment
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-136 Field Descriptions for the SCU PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Fan Operating Current 1
Current (in mA) for fan 1.
Fan Operating Current 2
Current (in mA) for fan 2.
Fan Operating Current 3
Current (in mA) for fan 3.
Fan Operating Current 4
Current (in mA) for fan 4.
Fan Power Supply Voltage
Voltage of the fan power supply.
Backplane Power Supply Voltage Level
Voltage of the backplane power supply.
NE ID
ID number of the NE where the SCU module is installed.
G.4.53 SCF PM Table
The SCF PM table shows performance monitoring data for the ONS 15800 and ONS 15801 Subrack Common Functions (SCF) module. The SCF module powers and monitors the ONS 15800 and ONS 15801 fans, BAT1 and BAT2 external power supplies, and filtered power that is supplied to the internal power bus. The SCF module also manages the internal control bus extension, summarizes the alarm status of the optical subrack (OSR-W), and tests LEDs on all modules in the OSR-W.
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-137 Field Descriptions for the SCF PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Fan Operating Current 1
Current (in mA) for fan 1.
Fan Operating Current 2
Current (in mA) for fan 2.
Fan Operating Current 3
Current (in mA) for fan 3.
Fan Operating Current 4
Current (in mA) for fan 4.
Fan Power Supply Voltage
Voltage of the fan power supply.
Backplane Power Supply Voltage Level
Voltage of the backplane power supply.
NE ID
Name of the NE where the SCF module is installed.
G.4.54 Transmit Power Amplifier PM Table
The Transmit Power Amplifier PM table shows the performance of ONS 15800 or ONS 15801 transmit power amplifier (TPA) modules, including:
•Transmit Power Amplifier-Blue band (TPA-B)
•Transmit Power Amplifier-Red band (TPA-R)
TPA modules amplify multiplexed signals at ONS 15800 and ONS 15801 terminal and regeneration sites. The TPA-B module amplifies the blue channels, and the TPA-R module amplifies the red channels.
Figure G-35 ONS 15800 or ONS 15801 Transmit Power Amplifier
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-138 Field Descriptions for the Transmit Power Amplifier PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Temperature 2
Temperature (in degrees Celsius) of laser 2.
Laser Current 1
Current (in mA) of laser 1.
Laser Current 2
Current (in mA) of laser 2.
Laser Power 1
Power (in mW) of laser 1.
Laser Power 2
Power (in mW) of laser 2.
NE ID
Name of the NE where the module is installed.
G.4.55 Transmit Transponders PM Table
The Transmit Transponders PM table reports performance data for the ONS 15808 transmit transponders, including:
The transmit transponder performs 3R regeneration of the 2.5 Gbps and 10 Gbps optical signal and provides client signal validation parameters. The module transposes input client signals to appropriate wavelengths and transmits them to the multiplexing section of the ONS 15808 system. Transmit transponder modules add out-of-band forward error correction (OOB-FEC) signal encoding to the client signal to improve signal quality and transport distance.
Figure G-36 ONS 15808 Transmit Transponder
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-139 Field Descriptions for the Transmit Transponders PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SESs). A severely errored second is a one-second period that contains at least 30% of errored blocks or at least one defect.
B1 Background Block Errors
Number of B1 background block errors (BBEs). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Bit Error Rate
Ratio of received bits that contain errors.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
Input Power 1
Input power (in dBm) of the transponder.
Output Power 1
Output power (in dBm) of the transponder.
Laser Temperature 1
Temperature (in degrees Celsius) of the transponder distributed feedback laser.
Laser Current 1
Current (in mA) of the transponder distributed feedback laser.
Laser Power 1
Power (in mW) of the transponder distributed feedback laser.
NE ID
ID number of the NE where the transmit transponder is installed.
G.4.56 Transponders PM Table
The ONS 15808 Transponders PM table shows performance monitoring data for ONS 15808 transponders. You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-140 Field Descriptions for the Transponders PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
B1 Background Block Errors
Number of B1 background block errors (BBEs). An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
B1 Errored Seconds
Number of B1 errored seconds (ES). An errored second is a one-second period with one or more error blocks or at least one defect.
B1 Severely Errored Seconds
Number of B1 severely errored seconds (SES). A severely errored second is a one-second period that contains at least 30% of errored blocks or at least one defect.
B1 Unavailable Seconds
Number of B1 unavailable seconds (UAS). The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
B1 Bit Error Rate
Ratio of received bits that contain errors.
FEC Background Block Errors
Number of FEC BBEs. An errored block is a block in which one or more bits are in error. A background block error is an errored block that does not occur as part of a severely errored second.
FEC Errored Seconds
Number of FEC ES. An errored second is a one-second period with one or more error blocks or at least one defect.
FEC Severely Errored Seconds
Number of FEC SES. A severely errored second is a one-second period that contains at least 30% of errored blocks or at least one defect.
FEC Unavailable Seconds
Number of FEC UAS. The detection of 10 consecutive SES begins a period of UAS. The 10 SES detected are part of the UAS. The ES and SES counters decrement by 10 seconds and the UAS counter increments by an equivalent number of seconds. A new period of available time begins at the onset of 10 consecutive non-SES events.
FEC Error Corrected Bits Rate
Ratio of FEC bit errors corrected to bits transmitted.
FEC Uncorrected Codewords Rate
Ratio of uncorrected codewords to codewords transmitted. A codeword is a block of N symbols that carry K information symbols and R redundant symbols (N = K+R).
Input Power 1
Input power (in dBm) of the transponder.
Output Power 1
Output power (in dBm) of the transponder.
Laser Temperature 1
Temperature (in degrees Celsius) of the transponder distributed feedback laser.
Laser Power 1
Power (in mW) of the transponder distributed feedback laser.
Laser Current 1
Current (in mA) of the transponder distributed feedback laser.
NE ID
Name of the NE where the transponder is installed.
G.4.57 WCM Transponder PM Table
The WCM Transponder PM table shows performance monitoring data for the ONS 15800 or ONS 15801 wavelength converter module (WCM) normal transponders, including:
WCMs are used in terminal sites (transmit direction) and in optical add/drop multiplexing (OADM) sites to retime, reshape, and regenerate SONET and SDH signals for transmission in the ONS 15800 or ONS 15801 system. The WCM optical-electrical-optical wavelength method is designed to match the optimum channel wavelength position in the ONS 15800 or ONS 15801 system.
Figure G-37 ONS 15800 or ONS 15801 Normal Wavelength Converter Module
You can view performance information in 15-minute or 1-day increments. If you choose 15 min, the values reported are collected every 15 minutes. If you choose 1 day, the values reported are collected once every 24 hours. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
Table G-141 Field Descriptions for the WCM Transponder PM Table
Column
Description
Alias ID
Alias name of the selected NE.
Module Name
Name of the selected module.
Physical Location
Physical location of the card.
Time Stamp
Date and time of the performance report.
Input Power 1
Input power (in dBm) of laser 1.
Output Power 1
Output power (in dBm) of laser 1.
Laser Temperature 1
Temperature (in degrees Celsius) of laser 1.
Laser Current 1
Current (in mA) of laser 1.
Laser Power 1
Power (in mW) of laser 1.
NE ID
Name of the NE where the transponder is installed.
G.5 Cisco CRS-1 and XR 12000-Specific PM Tables
This section describes the PM tables that are specific to the Cisco CRS-1 and XR 12000.
G.5.1 BGP Peer PM Table
The Border Gateway Protocol (BGP) Peer PM table shows performance data for the BGP peers (if configured). You can display performance data for 15-minute or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 60 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the BGP Peer PM table.
Table G-142 Field Descriptions for the BGP Peer PM Table
Field
Description
Cards Supported
Alias ID
Alias name of the selected NE.
For the CRS-1 and XR 12000, BGP PM data collection applies to the entire router.
Physical Location
Slot and port number for which PM data is displayed.
IP Address
IP address of the BGP peer for which PM data is displayed.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Incoming Messages
Number of incoming messages received.
Outgoing Messages
Number of outgoing messages sent.
Incoming Update Messages
Number of incoming update messages received.
Outgoing Update Messages
Number of outgoing update messages sent.
Connection Established
Number of times the connection was established.
Connection Dropped
Number of times the connection was dropped.
Errors Received
Number of error notifications received on the connection.
Errors Sent
Number of error notifications sent on the connection.
NE ID
Name of the selected NE.
G.5.2 Interface Data Rates PM Table
The Interface Data Rates PM table shows rate-related performance data for Cisco CRS-1 and XR 12000 interfaces. You can display performance data for 15-minute or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 60 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Interface Data Rates PM table.
Table G-143 Field Descriptions for the Interface Data Rates PM Table
Slot and port number for which PM data is displayed.
Interface Name
Name of the interface for which PM data is displayed.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Incoming Data Rate
Input data rate, in thousands of bits per second (bps).
Incoming Packet Rate
Input packets per second.
Outgoing Data Rate
Output data rate, in thousands of bps.
Outgoing Packet Rate
Output packets per second.
Incoming Peak Rate
Peak input data rate.
Incoming Peak Packets
Peak input packet rate.
Outgoing Peak Rate
Peak output data rate.
Outgoing Peak Packets
Peak output packet rate.
Bandwidth
Bandwidth being used on the interface, in kilobits per second (kbps).
NE ID
Name of the selected NE.
G.5.3 Interface Generic Counters PM Table
The Interface Generic Counters PM table shows counter performance data for Cisco CRS-1 and XR 12000 interfaces. You can display performance data for 15-minute or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 60 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Interface Generic Counters PM table.
Table G-144 Field Descriptions for the Interface Generic Counters PM Table
Slot and port number for which PM data is displayed.
Interface Name
Name of the interface for which PM data is displayed.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Incoming Packets
Number of incoming packets received.
Incoming Octets
Number of incoming bytes received.
Outgoing Packets
Number of outgoing packets sent.
Outgoing Octets
Number of outgoing bytes sent.
Incoming Unicast Packets
Number of incoming unicast packets received.
Incoming Multicast Packets
Number of incoming multicast packets received.
Incoming Broadcast Packets
Number of incoming broadcast packets received.
Outgoing Unicast Packets
Number of outgoing unicast packets sent.
Outgoing Multicast Packets
Number of outgoing multicast packets sent.
Outgoing Broadcast Packets
Number of outgoing broadcast packets sent.
Incoming Total Drops
Number of correct inbound packets discarded.
Outgoing Total Drops
Number of correct outbound packets discarded.
Incoming Queue Drops
Number of incoming queue dropped packets on the interface.
Incoming Unknown Protocol
Number of inbound packets discarded with an unknown protocol.
Incoming Total Errors
Number of incorrect inbound packets discarded.
Outgoing Total Errors
Number of incorrect outbound packets discarded.
Incoming Overrun
Number of incoming overrun packets on the interface.
Outgoing Underrun
Number of outgoing underrun packets on the interface.
Incoming CRC
Number of inbound packets discarded with an incorrect CRC.
Incoming Frame
Number of inbound framing errors.
NE ID
Name of the selected NE.
G.5.4 MPLS LDP PM Table
The MPLS label distribution protocol (LDP) PM table shows performance data for the Cisco CRS-1 and XR 12000 MPLS LDP. You can display performance data for 15-minute or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 60 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the MPLS LDP PM table.
Table G-145 Field Descriptions for the MPLS LDP PM Table
Field
Description
Cards Supported
Alias ID
Alias name of the selected NE.
For the CRS-1 and XR 12000, MPLS LDP PM data collection applies to the entire router.
Physical Location
Slot and port number for which PM data is displayed.
IP Address
MPLS LDP IP address for which PM data is displayed.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Total Messages Sent
Total number of messages sent.
Total Messages Received
Total number of messages received.
Init Messages Sent
Total number of initialization messages sent.
Init Messages Received
Total number of initialization messages received.
Address Messages Sent
Total number of address messages sent.
Address Messages Received
Total number of address messages received.
Address Withdraw Messages Sent
Total number of address withdraw messages sent.
Address Withdraw Messages Received
Total number of address withdraw messages received.
Label Mapping Messages Sent
Total number of label mapping messages sent.
Label Mapping Messages Received
Total number of label mapping messages received.
Label Withdraw Messages Sent
Total number of label withdraw messages sent.
Label Withdraw Messages Received
Total number of label withdraw messages received.
Label Release Messages Sent
Total number of label release messages sent.
Label Release Messages Received
Total number of label release messages received.
Notification Messages Sent
Total number of notification messages sent.
Notification Messages Received
Total number of notification messages received.
Keep Alive Messages Sent
Total number of keep alive messages sent.
Keep Alive Messages Received
Total number of keep alive messages received.
NE ID
Name of the selected NE.
G.5.5 Node CPU PM Table
The Node CPU PM table shows performance data for Cisco CRS-1 and XR 12000 CPUs. You can display performance data for 15-minute or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 60 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Node CPU PM table.
Table G-146 Field Descriptions for the Node CPU PM Table
Slot and port number for which PM data is displayed.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Average CPU Used
Average percentage of system CPU utilization.
Number Processes
Number of processes in the system.
NE ID
Name of the selected NE.
G.5.6 Node Memory PM Table
The Node Memory PM table shows performance data for the Cisco CRS-1 and XR 12000 processor memory. You can display performance data for 15-minute or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 60 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Node Memory PM table.
Table G-147 Field Descriptions for the Node Memory PM Table
Slot and port number for which PM data is displayed.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Peak Memory
Maximum system memory used since bootup, in MB.
Application Memory
Current application memory in use, in bytes.
NE ID
Name of the selected NE.
G.5.7 Node Process PM Table
The Node Process PM table shows performance data for the processes running on the Cisco CRS-1 or XR 12000 CPUs. You can display performance data for 15-minute or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 60 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the Node Process PM table.
Table G-148 Field Descriptions for the Node Process PM Table
Slot and port number for which PM data is displayed.
Process ID
Process ID associated with the running process.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Average CPU Used
Average percentage of CPU used by the selected process.
Peak Memory
Maximum dynamic memory used since startup time, in KB.
Number Threads
Total number of threads executing in the selected process.
NE ID
Name of the selected NE.
G.5.8 OSPF V2 PM Table
The OSPF V2 PM table shows performance data for OSPF interfaces on the Cisco CRS-1 and XR 12000. You can display performance data for 15-minute or real-time increments:
•15-minute—Data is collected at the quarter-hour (for example, at 10:00, 10:15, and so on). The data shown represents the difference in counter values between successive 15-minute intervals.
•Real-time—When a real-time PM session is running, it polls the NE for x number of attributes every 60 to 900 seconds. This feature allows you to examine the current value of a PM parameter in granularities finer than the standard 15-minute or 1-day interval. For more information, see 10.4.5 Managing Real-Time PM Data, page 10-36.
Performance monitoring can be performed either on selected modules, or on specific locations in the NE. You can use the Plot tab to plot the data in a graphical view that is stored in the CTM database. See 10.4.8 Using PM Data Graphs, page 10-40.
The following table describes the fields in the OSPF V2 PM table.
Table G-149 Field Descriptions for the OSPF V2 PM Table
Field
Description
Cards Supported
Alias ID
Alias name of the selected NE.
For the CRS-1 and XR 12000, OSPFv2 PM data collection applies to the entire router.
Physical Location
Slot and port number for which PM data is displayed.
Instance Name
OSPF instance name.
Time Stamp (time zone)
When the data was collected. You can select GMT, Local, or User-Defined time for the Time Stamp display. Use the User Preferences dialog box to make your time zone selection.
Incoming Packets
Total number of packets received.
Outgoing Packets
Total number of packets sent.
Incoming Hello Packets
Number of hello packets received.
Outgoing Hello Packets
Number of hello packets sent.
Incoming DBD Packets
Number of database descriptor (DBD) packets received.
Incoming DBD-LSA Packets
Number of link state advertisements (LSAs) received in the DBD packets.
Outgoing DBD Packets
Number of DBD packets sent.
Outgoing DBD-LSA Packets
Number of LSAs sent in the DBD packets.
Incoming LS Requests
Number of link state (LS) requests received.
Incoming LS-LSA Requests
Number of LSAs received in the LS requests.
Outgoing LS Requests
Number of LS requests sent.
Outgoing LS-LSA Requests
Number of LSAs sent in the LS requests.
Incoming LSA Updates
Number of LSA updates received.
Incoming LSA-LSA Updates
Number of LSAs received in the LSA updates.
Outgoing LSA Updates
Number of LSA updates sent.
Outgoing LSA-LSA Updates
Number of LSAs sent in the LSA updates.
Incoming LSA Acknowledgements
Number of LSA acknowledgements received.
Incoming LSA-LSA Acknowledgements
Number of LSAs received in the LSA acknowledgements.
Cisco CRS-1 and XR 12000-Specific PM Tables
