DLPs A100 to A199



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


DLP-A111 Changing the Maximum Number of Session Entries for Alarm History

Purpose

This task changes the maximum number of session entries included in the alarm history. Use this task to extend the history list in order to save information for future reference or troubleshooting.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 From the Edit menu, choose Preferences.

The Cisco Transport Controller (CTC) Preferences dialog box appears (Figure 18-1).

Figure 18-1 CTC Preferences Dialog Box

Step 2 Click the up or down arrow buttons next to the Maximum History Entries field to change the entry.

Step 3 Click Apply and OK.


Note Setting the Maximum History Entries value to the high end of the range uses more Cisco Transport Controller (CTC) memory and could impair CTC performance.



Note This task changes the maximum history entries recorded for CTC sessions. It does not affect the maximum number of history entries viewable for a network, node, or card.


Step 4 Return to your originating procedure (NTP).


DLP-A112 Display Alarms and Conditions Using Time Zone

Purpose

This task changes the time stamp for events to the time zone of the ONS node reporting the alarm. By default, the events time stamp is set to the time zone for the CTC workstation.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 From the Edit menu, choose Preferences.

The CTC Preferences dialog box appears (Figure 18-1).

Step 2 Check the Display Events Using Each Node's Time Zone check box. The Apply button is enabled.

Step 3 Click Apply and OK.

Step 4 Return to your originating procedure (NTP).


DLP-A113 Synchronize Alarms

Purpose

This task is used to view ONS 15454 events at the card, node, or network level and to refresh the alarm listing so that you can check for new and cleared alarms and conditions.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Retrieve or higher



Step 1 At the card, node, or network view, click the Alarms tab.

Step 2 Click Synchronize.

This button causes CTC to retrieve a current alarm summary for the card, node, or network. This step is optional because CTC updates the Alarms window automatically as raise/clear messages arrive from the node.


Note Alarms that have been raised during the session will have a check mark in the Alarms window New column. When you click Synchronize, the check mark disappears.


Step 3 Return to your originating procedure (NTP).


DLP-A114 View Conditions

Purpose

This task is used to view conditions (events with a Not Reported [NR] severity) at the card, node, or network level. Conditions give you a clear record of changes or events that do not result in alarms.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Retrieve or higher



Step 1 From the card, node, or network view, click the Conditions tab.

Step 2 Click Retrieve (Figure 18-2).

The Retrieve button requests the current set of fault conditions from the node, card, or network. The window is not updated when events change on the node. You must click Retrieve to see any changes.

Figure 18-2 Node View Conditions Window

Conditions include all fault conditions raised on the node, whether or not they are reported.


Note Alarms can be unreported when they are filtered out of the display. See the "DLP-A225 Enable Alarm Filtering" task for information.


Events that are reported as Major (MJ), Minor (MN), or Critical (CR) severities are alarms. Events that are reported as Not-Alarmed (NA) are conditions. Conditions that are not reported at all are marked Not-Reported (NR) in the Conditions window severity column.

Conditions that have a default severity of Critical (CR), Major (MJ), Minor (MN), or Not-Alarmed (NA) but are not reported due to exclusion or suppression are shown as NR in the Conditions window.


Note For more information about alarm suppression, see the "DLP-A522 Suppress Alarm Reporting" task.


Current conditions are shown with the severity chosen in the alarm profile, if used. For more information about alarm profiles, see the "NTP-A71 Create, Download, and Assign Alarm Severity Profiles" procedure.


Note When a port is placed in the Out-of-Service and Management, Maintenance (OOS-MA,MT) service state, it raises an Alarms Suppressed for Maintenance (AS-MT) condition. For information about alarm and condition troubleshooting, refer to the Cisco ONS 15454 Troubleshooting Guide.


Step 3 If you want to apply exclusion rules, check the Exclude Same Root Cause check box at the node or network view, but do not check the Exclude Same Root Cause check box in card view.

An exclusion rule eliminates all lower-level alarms or conditions that originate from the same cause. For example, a fiber break may cause an LOS alarm, an AIS condition, and an SF condition. If you check the Exclude Same Root Cause check box, only the LOS alarm will appear. According to Telcordia, exclusion rules apply to a query of "all conditions from a node."

Step 4 Return to your originating procedure (NTP).


DLP-A117 Apply Alarm Profiles to Cards and Nodes

Purpose

This task applies a custom or default alarm profile to cards or nodes.

Tools/Equipment

None

Prerequisite Procedures

A518 Create a New or Cloned Alarm Severity Profile

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 In node view, click the Provisioning > Alarm Profiles > Alarm Behavior tabs (Figure 18-3).

Figure 18-3 Node View Alarm Behavior Window

Step 2 To apply profiles to a card:

a. Click a selection from the Profile column for the card.

b. Choose the new profile from the drop-down list.

c. Click Apply.

Step 3 To apply the profile to an entire node:

a. Click the Node Profile drop-down arrow at the bottom of the window (Figure 18-3).

b. Choose the new alarm profile from the drop-down list.

c. Click Apply.

Step 4 To reapply a previous alarm profile after you have applied a new one, select the previous profile and click Apply again.

Step 5 Return to your originating procedure (NTP).


DLP-A121 Enable/Disable Pointer Justification Count Performance Monitoring

Purpose

This task enables or disables pointer justification counts, which provide a way to align the phase variations in synchronous transport signal (STS) payloads and to monitor the clock synchronization between nodes. A consistently large pointer justification count indicates clock synchronization problems between nodes.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 Enable Intermediate Path Performance Monitoring as specified in A122 Enable/Disable Intermediate Path Performance Monitoring

Step 2 In node view, double-click the card you want to monitor. The card view appears.

See Table 18-1 for a list of line terminating equipment (LTE) cards.

Table 18-1 OC-N Cards that Terminate the Line, Called LTEs 

Line Terminating Equipment

EC1-12

OC3 IR 4/STM1 SH 1310

OC3 IR4/STM1 SH 1310-8

OC12 LR/STM4 LH 1310

OC12 IR/STM4 SH 1310

OC12 IR/STM4 SH 1310-4

OC12 LR/STM4 LH 1550

OC48 LR 1550

OC48 IR 1310

OC48 LR/STM16 LH AS 1550

OC48 IR/STM16 SH AS 1310

OC48 ELR 200 GHz

OC48 ELR/STM16 EH 100 GHz

OC192 SR/STM64 IO 1310

OC192 IR/STM64 SH 1550

OC192 LR/STM64 LH 1550

OC192 ELR/STM64 LH ITU 15xx.xx


Step 3 Click the Provisioning > Line tabs.

Step 4 From the PJSTSMon# drop-down list, make a selection based on the following rules (Figure 18-4):

Off means pointer justification monitoring is disabled (default).

1 to n are the number of STSs on the port. One STS per port can be enabled from the PJSTSMon# card drop-down list.

Figure 18-4 Enabling or Disabling Pointer Justification Count Parameters

Step 5 In the Service State field, confirm that the port is in the In-Service and Normal (IS-NR) service state.

Step 6 If the port is IS-NR, click Apply. If the port is in the Out-of-Service and Management, Disabled (OOS-MA,DSBLD), Out-of-Service and Management, Maintenance (OOS-MA,MT), or the Out-of-Service and Autonomous, Automatic In-Service (OOS-AU,AINS) service state, choose IS from the Admin State drop-down list and click Apply.

Step 7 Click the Performance tab to view PM parameters. For PM parameter definitions, refer to the "Performance Monitoring" chapter in the Cisco ONS 15454 Reference Manual.


Note The count fields for PPJC and NPJC PM parameters appear white and blank unless pointer justification count performance monitoring is enabled.


Step 8 Return to your originating procedure (NTP).


DLP-A122 Enable/Disable Intermediate Path Performance Monitoring

Purpose

This task enables or disables intermediate path performance monitoring, which allows you to monitor large amounts of STS traffic through intermediate nodes.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Note The monitored IPPM parameters are STS CV-P, STS ES-P, STS SES-P, STS UAS-P, and STS FC-P. Far-end path monitoring can be performed on the OC3-4 and EC-1 cards. For PM parameter definitions, refer to the "Performance Monitoring" chapter of the Cisco ONS 15454 Reference Manual.



Note An OC-48 IR card used in a BLSR does not support IPPM during a protection switch.



Step 1 In node view, double-click the OC-N card you want to monitor. The card view appears.

See Table 18-1 for a list of OC-N LTE cards.

Step 2 Click the Provisioning > SONET STS tabs (Figure 18-5).

Figure 18-5 SONET STS Tab for Enabling or Disabling IPPM

Step 3 Click the check box in the Enable IPPM column and make a selection based on the following rules:

Unchecked means IPPM is disabled for that STS (default)

Checked means IPPM is enabled for that STS

Step 4 Click Apply.

Step 5 Click the Performance tab to view PM parameters. For IPPM parameter definitions, refer to the "Performance Monitoring" chapter of the Cisco ONS 15454 Reference Manual.

Step 6 Return to your originating procedure (NTP).


DLP-A124 Refresh PM Counts at 15-Minute Intervals

Purpose

This task changes the window view to display PM counts in 15-minute intervals.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Retrieve or higher



Step 1 In node view, double-click the card where you want to view PM counts. The card view appears.

Step 2 Click the Performance tab.

Step 3 Click the 15 min radio button.

Step 4 Click Refresh. Performance monitoring parameters appear in 15-minute intervals synchronized with the time of day.

Step 5 View the Curr column to find PM counts for the current 15-minute interval.

Each monitored performance parameter has corresponding threshold values for the current time period. If the value of the counter exceeds the threshold value for a particular 15-minute interval, a threshold crossing alert (TCA) is raised. The number represents the counter value for each specific performance monitoring parameter.

Step 6 View the Prev-n columns to find PM counts for the previous 15-minute intervals.


Note If a complete 15-minute interval count is not possible, the value appears with a yellow background. An incomplete or incorrect count can be caused by monitoring for less than 15 minutes after the counter started, changing node timing settings, changing the time zone settings, replacing a card, resetting a card, or changing port service states. When the problem is corrected, the subsequent 15-minute interval appears with a white background.


Step 7 Return to your originating procedure (NTP).


DLP-A125 Refresh PM Counts at One-Day Intervals

Purpose

This task changes the window view to display PM parameters in 1-day intervals.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Retrieve or higher



Step 1 In node view, double-click the card where you want to view PM counts. The card view appears.

Step 2 Click the Performance tab.

Step 3 Click the 1 day radio button.

Step 4 Click Refresh. Performance monitoring appears in 1-day intervals synchronized with the time of day.

Step 5 View the Curr column to find PM counts for the current 1-day interval.

Each monitored performance parameter has corresponding threshold values for the current time period. If the value of the counter exceeds the threshold value for a particular 1-day interval, a threshold crossing alert (TCA) is raised. The number represents the counter value for each specific performance monitoring parameter.

Step 6 View the Prev-n columns to find PM counts for the previous 1-day intervals.


Note If a complete count over a 1-day interval is not possible, the value appears with a yellow background. An incomplete or incorrect count can be caused by monitoring for less than 24 hours after the counter started, changing node timing settings, changing the time zone settings, replacing a card, resetting a card, or changing port service states. When the problem is corrected, the subsequent 1-day interval appears with a white background.


Step 7 Return to your originating procedure (NTP).


DLP-A126 View Near-End PM Counts

Purpose

This task enables you to view near-end PM counts for the selected card and port.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Retrieve or higher



Step 1 In node view, double-click the card where you want to view PM counts. The card view appears.

Step 2 Click the Performance tab.

Step 3 Click the Near End radio button.

Step 4 Click Refresh. All PM parameters occurring for the selected card on the incoming signal appear. For PM parameter definitions refer to the "Performance Monitoring" chapter of the Cisco ONS 15454 Reference Manual.

Step 5 View the Curr column to find PM counts for the current time interval.

Step 6 View the Prev-n columns to find PM counts for the previous time intervals.

Step 7 Return to your originating procedure (NTP).


DLP-A127 View Far-End PM Counts

Purpose

This task enables you to view far-end PM parameters for the selected card and port.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Retrieve or higher



Step 1 In node view, double-click the card where you want to view PM counts. The card view appears.

Step 2 Click the Performance tab.

Step 3 Click the Far End radio button.

Step 4 Click Refresh. All PM parameters recorded by the far-end node for the selected card on the outgoing signal appear. For PM parameter definitions refer to the "Performance Monitoring" chapter of the Cisco ONS 15454 Reference Manual.

Step 5 View the Curr column to find PM counts for the current time interval.

Step 6 View the Prev-n columns to find PM counts for the previous time intervals.

Step 7 Return to your originating procedure (NTP).


DLP-A129 Reset Current PM Counts

Purpose

This task clears the current PM count, but it does not clear the cumulative PM count. This task allows you to see how quickly PM counts rise.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Retrieve or higher



Step 1 In node view, double-click the card where you want to view PM counts. The card view appears.

Step 2 Click the Performance tab.

Step 3 Click Baseline.


Note The Baseline button clears the PM counts displayed in the current time interval but does not clear the PM counts on the card. When the current time interval expires or the window view changes, the total number of PM counts on the card and on the window appear in the appropriate column. The baseline values are discarded if you change views to a different window and then return to the Performance window.


Step 4 View the current statistics columns to observe changes to PM counts for the current time interval.

Step 5 Return to your originating procedure (NTP).


DLP-A131 Search for Circuits

Purpose

This task searches for ONS 15454 circuits at the network, node, or card level.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Retrieve or higher



Step 1 Navigate to the appropriate CTC view:

To search the entire network, click View > Go to Network View.

To search for circuits that originate, terminate, or pass through a specific node, click View > Go to Other Node, then choose the node you want to search and click OK.

To search for circuits that originate, terminate, or pass through a specific card, double-click the card on the shelf graphic in node view to open the card in card view.

Step 2 Click the Circuits tab.

Step 3 If you are in node or card view, choose the scope for the search, Node or Network (All), from the Scope drop-down list located at the bottom right-hand side of the screen.

Step 4 Click Search.

Step 5 In the Circuit Name Search dialog box, complete the following:

Find What—Enter the text of the circuit name you want to find.

Match whole word only—Check this check box to instruct CTC to select circuits only if the entire word matches the text in the Find What field.

Match case—Check this check box to instruct CTC to select circuits only when the capitalization matches the capitalization entered in the Find What field.

Direction—Choose the direction for the search. Searches are conducted up or down from the currently selected circuit.

Step 6 Click Find Next. If a match is found, click Find Next again to find the next circuit.

Step 7 Repeat Steps 5 and 6 until you are finished, then click Cancel.

Step 8 Return to your originating procedure (NTP).


DLP-A137 Provision Path Trace on OC-N Ports

Purpose

This task monitors a path trace on OC-N ports within the circuit path.

Tools/Equipment

The OC-N ports you want to monitor must be on OC-N cards capable of receiving path trace. See Table 19-3.

Prerequisite Procedures

A264 Provision a J1 Path Trace on Circuit Source and Destination Ports

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 From the View menu, choose Go to Other Node. In the Select Node dialog box, choose the node where path trace was provisioned on the circuit source and destination ports.

Step 2 Click Circuits.

Step 3 Choose the STS circuit that has path trace provisioned on the source and destination ports, then click Edit.

Step 4 In the Edit Circuit window, click the Show Detailed Map check box at the bottom of the window. A detailed circuit graphic showing source and destination ports appears.

Step 5 In the detailed circuit map, right-click the circuit OC-N port (the square on the left or right of the source node icon) and choose Edit Path Trace from the shortcut menu.


Note The OC-N port must be on a receive-only card listed in Table 19-3. If not, the Edit Path Trace menu item will not appear.


Step 6 In the Circuit Path Trace window, enable the path trace expected string by choosing Auto or Manual from the Path Trace Mode drop-down list:

Auto—Uses the first string received from the port at the other path trace end as the current expected string. An alarm is raised when a string that differs from the baseline is received. For OC-N ports, Auto is recommended because Manual mode requires you to trace the circuit in the Edit Circuit window to determine whether the port is the source or destination path.

Manual—Uses the Current Expected String field as the baseline string. An alarm is raised when a string that differs from the Current Expected String is received.

Step 7 If you set the Path Trace Mode field to Manual, enter the string that the OC-N port should receive in the New Expected String field. To do this, trace the circuit path on the detailed circuit map to determine whether the port is in the circuit source or destination path, then set the New Expected String to the string transmitted by the circuit source or destination. If you set the Path Trace Mode field to Auto, skip this step.

Step 8 Click Apply, then click Close.

Step 9 Return to your originating procedure (NTP).


DLP-A140 Change the Node Name, Date, Time, and Contact Information

Purpose

This procedure changes basic information such as node name, date, time, and contact information.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Note Changing the date, time, or time zone might invalidate the node's performance monitoring counters.



Step 1 In node view, click the Provisioning > General tabs.

Step 2 Change any of the following:

General: Node Name

General: Contact

Location: Latitude

Location: Longitude

Location: Description


Note To see changes to longitude or latitude on the network map, you must go to network view and right-click the specified node, then click Reset Node Position.


Time: Use NTP/SNTP Server

Time: Date (M/D/Y)

Time: Time (H:M:S)

Time: Time Zone

Time: Use Daylight Savings Time

AIS-V Insertion On STS-1 Signal Degrade - Path: Insert AIS-V on STS-1 SD-P

AIS-V Insertion On STS-1 Signal Degrade - Path: SD-P BER

See the "NTP-A25 Set Up Name, Date, Time, and Contact Information" procedure for detailed field descriptions.

Step 3 Click Apply. Confirm that the changes appear; if not, repeat the task.

Step 4 Return to your originating procedure (NTP).


DLP-A142 Modify a Static Route

Purpose

This task modifies a static route on an ONS 15454.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

A65 Create a Static Route

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 In node view, click the Provisioning > Network tabs.

Step 2 Click the Static Routing tab.

Step 3 Click the static route you want to edit.

Step 4 Click Edit.

Step 5 In the Edit Selected Static Route dialog box, enter the following:

Mask

Next Hop

Cost

See the "DLP-A65 Create a Static Route" task for detailed field descriptions.

Step 6 Click OK.

Step 7 Return to your originating procedure (NTP).


DLP-A143 Delete a Static Route

Purpose

This task deletes an existing static route on an ONS 15454.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

A65 Create a Static Route

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 In node view, click the Provisioning > Network > Static Routing tabs.

Step 2 Click the static route you want to delete.

Step 3 Click Delete. A confirmation dialog box appears.

Step 4 Click Yes.

Step 5 Return to your originating procedure (NTP).


DLP-A144 Disable OSPF

Purpose

This task disables the Open Shortest Path First (OSPF) routing protocol process for an ONS 15454 LAN.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

A250 Set Up or Change Open Shortest Path First Protocol

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 In node view, click the Provisioning > Network > OSPF tabs. The OSPF subtab has several options.

Step 2 In the OSPF on LAN area, uncheck the OSPF active on LAN? check box.

Step 3 Click Apply.

Step 4 Return to your originating procedure (NTP).


DLP-A145 Change the Network View Background Color

Purpose

This task changes the network view background color or the domain view background color (the area displayed when you open a domain).

Tools/Equipment

None

Prerequisite procedures

A60 Log into CTC

Required/As needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Retrieve or higher



Note If you modify background colors, the change is stored in your CTC user profile on the computer. The change does not affect other CTC users.



Step 1 From the View menu, choose Go to Network View.

Step 2 If you want to change a domain background, double-click the domain. If not, continue with Step 3.

Step 3 Right-click the network view or domain map area and choose Set Background Color from the shortcut menu.

Step 4 In the Choose Color dialog box, select a background color.

Step 5 Click OK.

Step 6 Return to your originating procedure (NTP).


DLP-A148 Create Domain Icons

Purpose

This task creates a domain, which is an icon that groups ONS 15454 icons in CTC network view. By default, domains are visible to all CTC sessions that log into the network.

Tools/Equipment

None

Prerequisite procedures

A60 Log into CTC

Required/As needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Superuser



Note Domains created by one user are visible to all users who log into the network.



Note To allow users of any security level to create local domains, that is, domains that are visible on the home CTC session only, superusers can change the CTC.network.LocalDomainCreationAndViewing NE default value to TRUE. A TRUE value means any user can maintain the domain information in his or her Preferences file, meaning domain changes will not affect other CTC sessions. (The default value is FALSE, meaning domain information affects all CTC sessions and only superusers can create a domain or put a node into a domain.) See the "NTP-A336 Edit Network Element Defaults" procedure to change NE default values.



Step 1 From the View menu, choose Go to Network View.

Step 2 Right-click the network map and choose Create New Domain from the shortcut menu.

Step 3 When the domain icon appears on the map, click the map name and type the domain name.

Step 4 Press Enter.

Step 5 Return to your originating procedure (NTP).


DLP-A149 Manage Domain Icons

Purpose

This task manages CTC network view domain icons.

Tools/Equipment

None

Prerequisite procedures

A60 Log into CTC

A148 Create Domain Icons

Required/As needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Note All domain changes, such as added or removed nodes, are visible to all users who log into the network.



Note To allow users of any security level to create local domains, that is, domains that are visible on the home CTC session only, superusers can change the CTC.network.LocalDomainCreationAndViewing NE default value to TRUE. A TRUE value means any user can maintain the domain information in his or her Preferences file, meaning domain changes will not affect other CTC sessions. (The default value is FALSE, meaning domain information affects all CTC sessions and only superusers can create a domain or put a node into a domain.) See the "NTP-A336 Edit Network Element Defaults" procedure to change NE default values.



Step 1 From the View menu, choose Go to Network View.

Step 2 Locate the domain action you want in Table 18-2 and complete the appropriate steps.

Table 18-2 Managing Domains 

Domain action
Steps

Move a domain

Press Ctrl and drag and drop the domain icon to the new location.

Rename a domain

Right-click the domain icon and choose Rename Domain from the shortcut menu. Type the new name in the domain name field.

Add a node to a domain

Drag and drop the node icon to the domain icon.

Move a node from a domain to the network map

Open the domain and right-click a node. Choose Move Node Back to Parent View.

Open a domain

Double-click the domain icon.

Right-click the domain and choose Open Domain.

Return to network view

Right-click the domain view area and choose Go to Parent View from the shortcut menu.

Preview domain contents

Right-click the domain icon and choose Show Domain Overview. The domain icon shows a small preview of the nodes in the domain. To turn off the domain overview, right-click the overview and select Show Domain Overview.

Remove domain

Right-click the domain icon and choose Remove Domain. Any nodes in the domain are returned to the network map.


Step 3 Return to your originating procedure (NTP).


DLP-A150 Modify a 1:1 Protection Group

Purpose

This task modifies a 1:1 protection group for electrical (DS-1, DS-3, EC-1, and DS3XM) cards.

Tools/Equipment

None

Prerequisite Procedures

A71 Create a 1:1 Protection Group

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 In node view, click the Provisioning > Protection tabs.

Step 2 In the Protection Groups area, click the 1:1 protection group you want to modify.

Step 3 In the Selected Group area, you can modify the following, as needed:

Name—As needed, type the changes to the protection group name. The name can have up to 32 alphanumeric characters.

Revertive—Check this box if you want traffic to revert to the working card after failure conditions stay corrected for the amount of time chosen from the Reversion Time drop-down list. Uncheck if you do not want traffic to revert.

Reversion time—If the Revertive check box is selected, choose the reversion time from the Reversion time drop-down list. The range is 0.5 to 12.0 minutes. The default is 5.0 minutes. This is the amount of time that will elapse before the traffic reverts to the working card. Traffic can revert when conditions causing the switch are cleared.

Step 4 Click Apply.


Note To convert electrical protection groups, see the "NTP-A91 Upgrade DS-1 and DS-3 Protect Cards from 1:1 Protection to 1:N Protection" procedure.


Step 5 Return to your originating procedure (NTP).


DLP-A152 Modify a 1:N Protection Group

Purpose

This task modifies a 1:N protection group for DS-1 and DS-3 cards.

Tools/Equipment

None

Prerequisite Procedures

A72 Create a 1:N Protection Group

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 Verify that the DS-1 and DS-3 cards are installed according to the 1:N specifications in the "DLP-A72 Create a 1:N Protection Group" task.

Step 2 In node view, click the Provisioning > Protection tabs.

Step 3 In the Protection Groups area, click the 1:N protection group you want to modify.

Step 4 In the Selected Group area, change any of the following, as needed:

Name—Type the changes to the protection group name. The name can have up to 32 alphanumeric characters.

Available Entities—If cards are available, they will appear here. Use the arrow buttons to move them into the Working Cards column.

Working Entities—Use the arrow buttons to move cards out of the Working Cards column.

Reversion Time—Choose a reversion time from the drop-down list. The range is 0.5 to 12.0 minutes. The default is 5.0 minutes. This is the amount of time that will elapse before the traffic reverts to the working card. Traffic can revert when conditions causing the switch are cleared.

See the "DLP-A72 Create a 1:N Protection Group" task for field descriptions.

Step 5 Click Apply.


Note To convert electrical protection groups, see the "NTP-A91 Upgrade DS-1 and DS-3 Protect Cards from 1:1 Protection to 1:N Protection" procedure.


Step 6 Return to your originating procedure (NTP).


DLP-A154 Modify a 1+1 Protection Group

Purpose

This task modifies a 1+1 protection group for any optical port (OC-3, OC-12, OC-12 IR, OC-48, OC-48AS, and OC-192).

Tools/Equipment

None

Prerequisite Procedures

A73 Create a 1+1 Protection Group

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 In node view, click the Provisioning > Protection tabs.

Step 2 In the Protection Groups area, click the 1+1 protection group you want to modify.

Step 3 In the Selected Group area, you can modify the following, as needed:

Name—Type the changes to the protection group name. The name can have up to 32 alphanumeric characters.

Bidirectional switching—Check or uncheck.

Revertive—Check this box if you want traffic to revert to the working card after failure conditions stay corrected for the amount of time chosen from the Reversion Time drop-down list. Uncheck if you do not want traffic to revert.

Reversion time—If the Revertive check box is selected, choose the reversion time from the Reversion time drop-down list. The range is 0.5 to 12.0 minutes. The default is 5.0 minutes. This is the amount of time that will elapse before the traffic reverts to the working card. Traffic can revert when conditions causing the switch are cleared.

See the "DLP-A73 Create a 1+1 Protection Group" task for field descriptions.

Step 4 Click Apply.

Step 5 Return to your originating procedure (NTP).


DLP-A155 Delete a Protection Group

Purpose

This task deletes a 1:1, 1:N, 1+1, or Y-cable protection group.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 In node view, click the Provisioning > Protection tabs.

Step 2 In the Protection Groups area, click the protection group you want to delete.

Step 3 Click Delete.

Step 4 Click Yes in the Delete Protection Group dialog box.

Step 5 Return to your originating procedure (NTP).


DLP-A156 Delete a Section DCC Termination

Purpose

This task deletes a SONET Section DCC termination on the ONS 15454.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 Click the Provisioning > Comm Channel > SDCC tabs.

Step 2 Click the SDCC termination to be deleted and click Delete. The Delete SDCC Termination dialog box appears.

Step 3 Click Yes in the confirmation dialog box.

Step 4 Return to your originating procedure (NTP).


DLP-A157 Change the Node Timing Source

Purpose

This task changes the SONET timing source for the ONS 15454.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Caution The following procedure might be service affecting and should be performed during a scheduled maintenance window.


Step 1 In node view, click the Provisioning > Timing tabs.

Step 2 In the General Timing section, change any of the following information:

Timing Mode


Note Because mixed timing can cause timing loops, Cisco does not recommend using the Mixed Timing option. Use this mode with care.


SSM Message Set

Quality of RES

Revertive

Revertive Time

See the "DLP-A69 Set Up External or Line Timing" task for field descriptions.

Step 3 In the BITS Facilities section, you can change the following information:


Note The BITS Facilities section sets the parameters for your BITS1 and BITS2 timing references. Many of these settings are determined by the timing source manufacturer. If equipment is timed through BITS Out, you can set timing parameters to meet the requirements of the equipment.


BITS In State

BITS Out State

State

Coding

Framing

Sync Messaging

AIS Threshold

LBO

Step 4 In the Reference Lists area, you can change the following information:


Note Reference lists define up to three timing references for the node and up to six BITS Out references. BITS Out references define the timing references used by equipment that can be attached to the node's BITS Out pins on the backplane. If you attach equipment to BITS Out pins, you normally attach it to a node with Line mode because equipment near the external timing reference can be directly wired to the reference.


NE Reference

BITS 1 Out

BITS 2 Out

Step 5 Click Apply.

Step 6 Return to your originating procedure (NTP).


DLP-A158 Change User Password and Security Level on a Single Node

Purpose

This task changes settings for an existing user at one node.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Superuser



Step 1 In node view, click the Provisioning > Security > Users tabs.

Step 2 Click the user whose settings you want to modify, then click Change.

Step 3 In the Change User dialog box, you can:

Change a user password

Modify the user security level

Lock out the user

See the "NTP-A30 Create Users and Assign Security" procedure for field descriptions.

Step 4 Click OK.


Note User settings that you changed during this task will not appear until that user logs off and logs back in.


Step 5 Return to your originating procedure (NTP).


DLP-A159 Delete a User from a Single Node

Purpose

This task deletes an existing user from a single node.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Superuser



Note You cannot delete a user who is currently logged in. To log out a user, you can complete the "DLP-A315 Log Out a User on a Single Node" task, or you can choose the "Logout before delete" option in the Delete User dialog box.



Note CTC will allow you to delete other Superusers if one Superuser remains. For example, you can delete the CISCO15 user if you have created another Superuser. Use this option with caution.



Step 1 In node view, click the Provisioning > Security > Users tabs.

Step 2 Choose the user you want to delete.

Step 3 Click Delete.

Step 4 In the Delete User dialog box, verify that the user name displayed is the one you want to delete.

Step 5 Click OK.

Step 6 Return to your originating procedure (NTP).


DLP-A160 Change User Password and Security Level on Multiple Nodes

Purpose

This task changes settings for an existing user at multiple nodes.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Superuser



Note You must add the same user name and password to each node the user will access.



Step 1 From the View menu, choose Go to Network View. Verify that you can access all the nodes where you want to add users.

Step 2 Click the Provisioning > Security > Users tabs. Highlight the user's name whose settings you want to change.

Step 3 Click Change. The Change User dialog box appears.

Step 4 In the Change User dialog box, you can:

Change a user's password

Modify the user's security level

Lock out the user

See the "DLP-A75 Create a New User on Multiple Nodes" task for field descriptions.

Step 5 In the Select Applicable Nodes area, uncheck any nodes where you do not want to change the user's settings (all network nodes are selected by default).

Step 6 Click OK. A Change Results confirmation dialog box appears.

Step 7 Click OK to acknowledge the changes.

Step 8 Return to your originating procedure (NTP).


DLP-A161 Delete a User from Multiple Nodes

Purpose

This task deletes an existing user from multiple nodes.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Superuser



Note You cannot delete a user who is currently logged in. To log out a user, you can complete the "DLP-A316 Log Out a User on Multiple Nodes" task, or you can choose the "Logout before delete" option in the Delete User dialog box.



Note CTC will allow you to delete other Superusers if one Superuser remains. For example, you can delete the CISCO15 user if you have created another Superuser. Use this option with caution.



Step 1 From the View menu, choose Go to Network View.

Step 2 Click the Provisioning > Security tabs. Highlight the name of the user you want to delete.

Step 3 Click Delete. The Delete User dialog box appears.

Step 4 In the Select Applicable Nodes area, uncheck any nodes where you do not want to delete this user.

Step 5 Click OK. A User Deletion Results confirmation dialog box appears.

Step 6 Click OK to acknowledge the changes.

Step 7 Return to your originating procedure (NTP).


DLP-A163 Delete SNMP Trap Destinations

Purpose

This task deletes Simple Network Management Protocol (SNMP) trap destinations on an ONS 15454.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 In node view, click the Provisioning > SNMP tabs.

Step 2 In the Trap Destinations area, click the trap you want to delete.

Step 3 Click Delete. A confirmation dialog box appears.

Step 4 Click Yes.

Step 5 Return to your originating procedure (NTP).


DLP-A165 Change Line and Threshold Settings for a DS1-14 or DS1N-14 Card

Purpose

This task changes the line and threshold settings for a DS1-14 or DS1N-14 card.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Note For the default values and domains of user-provisionable card settings, refer to the "Network Element Defaults" appendix in the Cisco ONS 15454 Reference Manual.



Step 1 In node view, double-click the DS1-14 or DS1N-14 card where you want to change the line or threshold settings.

Step 2 Click the Provisioning tab.

Step 3 Depending on the setting you need to modify, click the Line, Line Thresholds, Elect Path Thresholds, or SONET Thresholds tab.


Note See Chapter 8 "Manage Alarms" for information about the Alarm Profiles tab.



Note If you want to modify a threshold setting, it might be necessary to click on the available directional, type, and interval (15 Min, 1 Day) radio buttons and then click Refresh. This will display the desired threshold setting.


Step 4 Modify the settings found under these subtabs by clicking in the field you want to modify. In some fields you can choose an option from a drop-down list; in others you can type a value.

Step 5 Click Apply.

Step 6 Repeat Steps 3 through 5 for each subtab that has parameters you want to provision.

For definitions of the line settings, see Table 18-3. For definitions of the line threshold settings, see Table 18-4. For definitions of the electrical path threshold settings, see Table 18-5. For definitions of the SONET threshold settings, see Table 18-6.

Table 18-3 describes the values on the Provisioning > Line tabs.

Table 18-3 Line Options for DS1-14 and DS1N-14 Cards 

Parameter
Description
Options

Port #

(Display only) Port number.

1 to 14

Port Name

Sets the port name.

User-defined, up to 32 alphanumeric/special characters. Blank by default.

See the "DLP-A314 Assign a Name to a Port" task.

SF BER

Sets the signal fail bit error rate.

1E-3

1E-4

1E-5

SD BER

Sets the signal degrade bit error rate.

1E-5

1E-6

1E-7

1E-8

1E-9

Line Type

Defines the line framing type.

D4

ESF - Extended Super Frame

Unframed

Line Coding

Defines the DS-1 transmission coding type.

AMI - Alternate Mark Inversion (default)

B8ZS - Bipolar 8 Zero Substitution

Line Length

Defines the distance (in feet) from the backplane connection to the next termination point.

0 - 131

132 - 262

263 - 393

394 - 524

525 - 655

Admin State

Sets the port administrative service state unless network conditions prevent the change.

IS—Puts the port in-service. The port service state changes to IS-NR.

IS,AINS—Puts the port in automatic in-service. The port service state changes to OOS-AU,AINS.

OOS,DSBLD—Removes the port from service and disables it. The port service state changes to OOS-MA,DSBLD.

OOS,MT—Removes the port from service for maintenance. The port service state changes to OOS-MA,MT.

Service State

(Display only) Identifies the autonomously generated state that gives the overall condition of the port. Service states appear in the format: Primary State-Primary State Qualifier, Secondary State.

IS-NR—(In-Service and Normal) The port is fully operational and performing as provisioned.

OOS-AU,AINS—(Out-Of-Service and Autonomous, Automatic In-Service) The port is out-of-service, but traffic is carried. Alarm reporting is suppressed. The ONS node monitors the ports for an error-free signal. After an error-free signal is detected, the port stays in OOS-AU,AINS state for the duration of the soak period. After the soak period ends, the port service state changes to IS-NR.

OOS-MA,DSBLD—(Out-of-Service and Management, Disabled) The port is out-of-service and unable to carry traffic.

OOS-MA,MT—(Out-of-Service and Management, Maintenance) The port is out-of-service for maintenance. Alarm reporting is suppressed, but traffic is carried and loopbacks are allowed.

AINS Soak

Sets the automatic in-service soak period.

Duration of valid input signal, in hh.mm format, after which the card becomes in service (IS) automatically

0 to 48 hours, in 15-minute increments


Table 18-4 describes the values on the Provisioning > Line Thresholds tabs.

Table 18-4 Line Thresholds Options for DS1-14 and DS1N-14 Cards 

Parameter
Description

Port

(Display only) Port number; 1 to 14

CV

Coding violations

ES

Errored seconds

SES

Severely errored seconds

LOSS

Number of one-second intervals containing one or more loss of signal (LOS) defects

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.


Table 18-5 describes the values on the Provisioning > Elect Path Thresholds tabs.

Table 18-5 Electrical Path Threshold Options for DS1-14 and DS1N-14 Cards 

Parameter
Description

Port

(Display only) Port number; 1 to 14

CV

Coding violations

ES

Errored seconds

SES

Severely errored seconds

SAS

Severely errored frame/alarm indication signal

AISS

Alarm indication signal seconds

UAS

Unavailable seconds

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.


Table 18-6 describes the values on the Provisioning > SONET Thresholds tabs for the DS-1 cards.

Table 18-6 SONET Threshold Options for DS1-14 and DS1N-14 Cards 

Parameter
Description

Port

(Display only) DS-1 ports partitioned for STS.

Line 1, STS 1, Line 2, STS 1

Line 3, STS 1, Line 4, STS 1

CV

Coding violations

ES

Errored seconds

FC

Failure count

SES

Severely errored seconds

UAS

Unavailable seconds

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.



Note The threshold value appears after the circuit is created.


Step 7 Return to your originating procedure (NTP).


DLP-A166 Change Line and Threshold Settings for a DS3-12 or DS3N-12 Card

Purpose

This task changes the line and threshold settings for a DS3-12 or DS3N-12 card.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Note For the default values and domains of user-provisionable card settings, refer to the "Network Element Defaults" appendix in the Cisco ONS 15454 Reference Manual.



Step 1 Double-click the DS3-12 or DS3N-12 card where you want to change the line or threshold settings.

Step 2 Click the Provisioning tab.

Step 3 Depending on the setting you need to modify, click the Line, Line Thresholds, Elect Path Thresholds, or SONET Thresholds tab.


Note See Chapter 8 "Manage Alarms" for information about the Alarm Profiles tab.



Note If you want to modify a threshold setting, it might be necessary to click on the available directional, type, and interval (15 Min, 1 Day) radio buttons and then click Refresh. This will display the desired threshold setting.


Step 4 Modify the settings found under these subtabs by clicking in the field you want to modify. In some fields you can choose an option from a drop-down list; in others you can type a value.

Step 5 Click Apply.

Step 6 Repeat Steps 3 through 5 for each subtab that has parameters you want to provision.

For definitions of the line settings, see Table 18-7. For definitions of the line threshold settings, see Table 18-8. For definitions of the Elect Path Threshold settings, see Table 18-9. For definitions of the SONET threshold settings, see Table 18-10.

Table 18-7 describes the values on the Provisioning > Line tabs.

Table 18-7 Line Options for DS3-12 or DS3N-12 Cards 

Parameter
Description
Options

Port

(Display only) Port number.

1 to 12

Port Name

Sets the port name.

User-defined, up to 32 alphanumeric/special characters. Blank by default.

See the "DLP-A314 Assign a Name to a Port" task.

SF BER

Sets the signal fail bit error rate.

1E-3

1E-4

1E-5

SD BER

Sets the signal degrade bit error rate.

1E-5

1E-6

1E-7

1E-8

1E-9

Line Length

Defines the distance (in feet) from backplane connection to the next termination point.

0 - 225 (default)

226 - 450

Admin State

Sets the port administrative service state unless network conditions prevent the change.

IS—Puts the port in-service. The port service state changes to IS-NR.

IS,AINS—Puts the port in automatic in-service. The port service state changes to OOS-AU,AINS.

OOS,DSBLD—Removes the port from service and disables it. The port service state changes to OOS-MA,DSBLD.

OOS,MT—Removes the port from service for maintenance. The port service state changes to OOS-MA,MT.

Service State

(Display only) Identifies the autonomously generated state that gives the overall condition of the port. Service states appear in the format: Primary State-Primary State Qualifier, Secondary State.

IS-NR—(In-Service and Normal) The port is fully operational and performing as provisioned.

OOS-AU,AINS—(Out-Of-Service and Autonomous, Automatic In-Service) The port is out-of-service, but traffic is carried. Alarm reporting is suppressed. The ONS node monitors the ports for an error-free signal. After an error-free signal is detected, the port stays in OOS-AU,AINS state for the duration of the soak period. After the soak period ends, the port service state changes to IS-NR.

OOS-MA,DSBLD—(Out-of-Service and Management, Disabled) The port is out-of-service and unable to carry traffic.

OOS-MA,MT—(Out-of-Service and Management, Maintenance) The port is out-of-service for maintenance. Alarm reporting is suppressed, but traffic is carried and loopbacks are allowed.

AINS Soak

Sets the automatic in-service soak period.

Duration of the valid input signal, in hh.mm format, after which the card becomes in service (IS) automatically 0 to 48 hours, 15-minute increments.


Table 18-8 describes the values on the Provisioning > Line Thresholds tabs.

Table 18-8 Line Threshold Options for DS3-12 or DS3N-12 Cards 

Parameter
Description

Port

(Display only) Port number; 1 to 12

CV

Coding violations

ES

Errored seconds

SES

Severely errored seconds

LOSS

Loss of signal seconds; number of one-second intervals containing one or more LOS defects

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.


Table 18-9 describes the values on the Provisioning > Elect Path Thresholds tabs.

Table 18-9 Electrical Path Threshold Options for DS3-12 or DS3N-12 Cards 

Parameter
Description

Port

(Display only) Port number; 1 to 12

EB

Errored blocks

BBE

Background block errors

ES

Errored seconds

SES

Severely errored seconds

UAS

Unavailable seconds

AISS

Alarm indication signal seconds

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.


Table 18-10 describes the values on the Provisioning > SONET Thresholds tabs.

Table 18-10 SONET Threshold Options for DS3-12 or DS3N-12 Cards 

Parameter
Description

Port

(Display only) DS-3 ports partitioned for STS.

Line 1, STS 1, Line 2, STS 1

Line 3, STS 1, Line 4 STS 1

CV

(Near and Far End, STS termination only) Coding violations

ES

(Near and Far End, STS termination only) Errored seconds

FC

(Near and Far End, STS termination only) Failure count

SES

(Near and Far End, STS termination only) Severely errored seconds

UAS

(Near and Far End, STS termination only) Unavailable seconds

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.



Note The threshold value appears after the circuit is created.


Step 7 Return to your originating procedure (NTP).


DLP-A167 Change Line and Threshold Settings for a DS3E-12 or DS3N-12E Card

Purpose

This task changes the line and threshold settings for a DS3E-12 or DS3N-12E (DS3E) card.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Note For the default values and domains of user-provisionable card settings, refer to the "Network Element Defaults" appendix in the Cisco ONS 15454 Reference Manual.



Note If the DS3E is installed in an ONS 15454 slot that is provisioned for a DS-3 card, the DS3E enhanced performance monitoring parameters are unavailable. If this occurs, remove the DS3E from the ONS 15454, delete the DS-3 card in CTC using the "DLP-A191 Delete a Card" task, and provision the slot for the DS3E using the "DLP-A330 Preprovision a Card Slot" task.



Step 1 Double-click the DS3E-12 or DS3N-12E card where you want to change the line or threshold settings.

Step 2 Click the Provisioning tab.

Step 3 Depending on the setting you need to modify, click the Line, Line Thresholds, Elect Path Thresholds, or SONET Thresholds tab.


Note See Chapter 8 "Manage Alarms" for information about the Alarm Profiles tab.



Note If you want to modify a threshold setting, it might be necessary to click on the available directional, type, and interval (15 Min, 1 Day) radio buttons and then click Refresh. This will display the desired threshold setting.


Step 4 Modify the settings found under these subtabs by clicking in the field you want to modify. In some fields you can choose an option from a drop-down list; in others you can type a value.

Step 5 Click Apply.

Step 6 Repeat Steps 3 through 5 for each subtab that has a parameter you want to provision.

For definitions of the line settings, see Table 18-11. For definitions of the line threshold settings, see Table 18-12. For definitions of the electrical path threshold settings, see Table 18-13. For definitions of the SONET threshold settings, see Table 18-14.

Table 18-11 describes the values on the Provisioning > Line tabs.

Table 18-11 Line Options for the DS3-12E and DS3N-12E Cards 

Parameter
Description
Options

Port #

(Display only) Port number.

1 to 12

Port Name

Sets the port name.

User-defined, up to 32 alphanumeric/special characters. Blank by default.

See the "DLP-A314 Assign a Name to a Port" task.

SF BER

Sets the signal fail bit error rate.

1E-3

1E-4

1E-5

SD BER

Sets the signal degrade bit error rate.

1E-5

1E-6

1E-7

1E-8

1E-9

Line Type

Defines the line framing type.

M13

C Bit

Auto Provisioned

Detected Line Type

(Display only) Displays the detected line type.

M13

C Bit

Unframed

Unknown

Line Coding

Defines the DS3E transmission coding type.

B3ZS

Line Length

Defines the distance (in feet) from backplane connection to the next termination point.

0 - 225 (default)

226 - 450

Admin State

Sets the port administrative service state unless network conditions prevent the change.

IS—Puts the port in-service. The port service state changes to IS-NR.

IS,AINS—Puts the port in automatic in-service. The port service state changes to OOS-AU,AINS.

OOS,DSBLD—Removes the port from service and disables it. The port service state changes to OOS-MA,DSBLD.

OOS,MT—Removes the port from service for maintenance. The port service state changes to OOS-MA,MT.

Service State

(Display only) Identifies the autonomously generated state that gives the overall condition of the port. Service states appear in the format: Primary State-Primary State Qualifier, Secondary State.

IS-NR—(In-Service and Normal) The port is fully operational and performing as provisioned.

OOS-AU,AINS—(Out-Of-Service and Autonomous, Automatic In-Service) The port is out-of-service, but traffic is carried. Alarm reporting is suppressed. The ONS node monitors the ports for an error-free signal. After an error-free signal is detected, the port stays in OOS-AU,AINS state for the duration of the soak period. After the soak period ends, the port service state changes to IS-NR.

OOS-MA,DSBLD—(Out-of-Service and Management, Disabled) The port is out-of-service and unable to carry traffic.

OOS-MA,MT—(Out-of-Service and Management, Maintenance) The port is out-of-service for maintenance. Alarm reporting is suppressed, but traffic is carried and loopbacks are allowed.

AINS Soak

Sets the automatic in-service soak period.

Duration of valid input signal, in hh.mm format, after which the card becomes in service (IS) automatically

0 to 48 hours, 15-minute increments


Table 18-12 describes the values on the Provisioning > Line Thresholds tabs.

Table 18-12 Line Threshold Options for the DS3-12E and DS3N-12E Cards 

Parameter
Description

Port

(Display only) Port number; 1 to 12

CV

Coding violations

ES

Errored seconds

SES

Severely errored seconds

LOSS

Loss of signal seconds; number of one-second intervals containing one or more LOS defects

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.


Table 18-13 describes the values on the Provisioning > Elect Path Thresholds tabs.

Table 18-13 Electrical Path Options for the DS3-12E and DS3N-12E Cards 

Parameter
Description

Port

(Display only) Port number; 1 to 12

CV

Coding violations. Available for DS3 Pbit, Near End only; and DS3 CPbit, Near End and Far End.

ES

Errored seconds. Available for DS3 Pbit, Near End only; and DS3 CPbit: Near end and Far End.

SES

Severely errored seconds. Available for DS3 Pbit, Near End only; and DS3 CPbit, Near End and Far End.

SAS

Severely errored frame/alarm indication signal. Available for DS3 Pbit, Near End only; and DS3 CPbit, Near End and Far End.

AIS

Alarm indication signal. Available for DS3 Pbit, Near End only; and DS3 CPbit, Near End and Far End.

UAS

Unavailable seconds. Available for DS3 Pbit, Near End only; and DS3 CPbit, Near End and Far End.

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.


Table 18-14 describes the values on the Provisioning > SONET Thresholds tabs.

Table 18-14 SONET Threshold Options for DS3-12E and DS3N-12E Cards 

Parameter
Description

Port

(Display only) DS-3 ports partitioned for STS.

Line 1, STS 1, Line 2, STS 1

Line 3, STS 1, Line 4 STS 1

CV

Coding violations. Available for Near and Far End, STS termination only.

ES

Errored seconds. Available for Near and Far End, STS termination only.

FC

Failure count. Available for Near and Far End, STS termination only.

SES

Severely errored seconds. Available for Near and Far End, STS termination only.

UAS

Unavailable seconds. Available for Near and Far End, STS termination only.

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.



Note The threshold value appears after the circuit is created.


Step 7 Return to your originating procedure (NTP).


DLP-A168 Change Line and Threshold Settings for the DS3XM-6 Card

Purpose

This task changes the line and threshold settings for the DS3XM-6 card.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Note The DS3XM-6 (transmux) card can accept up to six channelized DS-3 signals and convert each signal to 28 VT1.5 signals. Conversely, the card can take 28 T-1s and multiplex them into a channeled C-bit or M13 framed DS-3.



Note For the default values and domains of user-provisionable card settings, refer to the "Network Element Defaults" appendix in the Cisco ONS 15454 Reference Manual.



Step 1 In node view, double-click the DS3XM-6 card where you want to change the line or threshold settings.

Step 2 Click the Provisioning tab.

Step 3 Depending on the setting you need to modify, click the Line, Line Thresholds, Elect Path Thresholds, or SONET Thresholds tab.


Note See Chapter 8 "Manage Alarms" for information about the Alarm Profiles tab.



Note If you want to modify a threshold setting, it might be necessary to click on the available directional, type, and interval (15 Min, 1 Day) radio buttons and then click Refresh. This will display the desired threshold setting.


Step 4 Modify the settings found under these subtabs by clicking in the field you want to modify. In some fields you can choose an option from a drop-down list; in others you can type a value.

Step 5 Click Apply.

Step 6 Repeat Steps 3 through 5 for each subtab that has parameters you want to provision.

For definitions of the line settings, see Table 18-15. For definitions of the line threshold settings, see Table 18-16. For definitions of the electrical path threshold settings, see Table 18-17. For definitions of the SONET threshold settings, see Table 18-18.

Table 18-15 describes the values on the Provisioning > Line tabs for the DS3XM-6 cards.

Table 18-15 Line Options for the DS3XM-6 Parameters 

Parameter
Description
Options

Port

(Display only) Sets the port number

1 to 6

Port Name

Sets the port name.

User-defined, up to 32 alphanumeric/ special characters. Blank by default.

See the "DLP-A314 Assign a Name to a Port" task.

SF BER

Sets the signal fail bit error rate.

1E-3

1E-4

1E-5

SD BER

Sets the signal degrade bit error rate.

1E-5

1E-6

1E-7

1E-8

1E-9

Line Type

Defines the line framing type.

M13 - default

C BIT

Line Coding

Defines the DS-1 transmission coding type that is used.

B3ZS

Line Length

Defines the distance (in feet) from backplane connection to the next termination point.

0 - 225 (default)

226 - 450

Admin State

Sets the port administrative service state unless network conditions prevent the change.

IS—Puts the port in-service. The port service state changes to IS-NR.

IS,AINS—Puts the port in automatic in-service. The port service state changes to OOS-AU,AINS.

OOS,DSBLD—Removes the port from service and disables it. The port service state changes to OOS-MA,DSBLD.

OOS,MT—Removes the port from service for maintenance. The port service state changes to OOS-MA,MT.

Service State

(Display only) Identifies the autonomously generated state that gives the overall condition of the port. Service states appear in the format: Primary State-Primary State Qualifier, Secondary State.

IS-NR—(In-Service and Normal) The port is fully operational and performing as provisioned.

OOS-AU,AINS—(Out-Of-Service and Autonomous, Automatic In-Service) The port is out-of-service, but traffic is carried. Alarm reporting is suppressed. The ONS node monitors the ports for an error-free signal. After an error-free signal is detected, the port stays in OOS-AU,AINS state for the duration of the soak period. After the soak period ends, the port service state changes to IS-NR.

OOS-MA,DSBLD—(Out-of-Service and Management, Disabled) The port is out-of-service and unable to carry traffic.

OOS-MA,MT—(Out-of-Service and Management, Maintenance) The port is out-of-service for maintenance. Alarm reporting is suppressed, but traffic is carried and loopbacks are allowed.

AINS Soak

Sets the automatic in-service soak period.

Duration of valid input signal, in hh.mm format, after which the card becomes in service (IS) automatically

0 to 48 hours, 15-minute increments


Table 18-16 describes the values on the Provisioning > Line Thresholds tabs for DS3XM-6 cards.

Table 18-16 Line Threshold Options for the DS3XM-6 Card 

Parameter
Description

Port

(Display only) Port number; 1 to 6

CV

Coding violations

ES

Errored seconds

SES

Severely errored seconds

LOSS

Loss of signal seconds

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.


Table 18-17 describes the values on the Provisioning > Elect Path Thresholds tabs for the DS3XM-6 cards.

Table 18-17 Electrical Path Threshold Options for the DS3XM-6 Card 

Parameter
Description

Port

(Display only) Port number. 1 to 6.

CV

Coding violations. Available for DS3, Pbit Near End only; DS3 CPbit, Near End and Far End; and DS1, only if a VT circuit is dropped on the port.

ES

Errored seconds. Available for DS3, Pbit Near End only; DS3 CPbit, Near End and Far End; and DS1, only if a VT circuit is dropped on the port.

SES

Severely errored seconds. Available for DS3, Pbit Near End only; DS3 CPbit, Near End and Far End; and DS1, only if a VT circuit is dropped on the port.

SAS

Severely errored frame/alarm indication signal. Available for DS3, Pbit Near End only; DS3 CPbit, Near End and Far End; and DS1, only if a VT circuit is dropped on the port.

AISS

Alarm indication signal seconds. Available for DS3, Pbit Near End only; DS3 CPbit, Near End and Far End; and DS1, only if a VT circuit is dropped on the port.

UAS

Unavailable seconds. Available for DS3, Pbit Near End only; DS3 CPbit, Near End and Far End; and DS1, only if a VT circuit is dropped on the port.

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.


Table 18-18 describes the values on the Provisioning > SONET Thresholds tabs for the DS3XM-6 cards.

Table 18-18 SONET Threshold Options for the DS3XM-6 Card 

Parameter
Description

CV

Coding violations

ES

Errored seconds

FC

Failure count

SES

Severely errored seconds

UAS

Unavailable seconds

15 Min radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15-minute intervals.

1 Day radio button

Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1-day intervals.



Note The threshold value appears after the circuit is created.


Step 7 Return to your originating procedure (NTP).


DLP-A169 Change Line and Threshold Settings for the EC1-12 Card

Purpose

This task changes the line and threshold settings for the EC1-12 (EC-1) card.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Note For the default values and domains of user-provisionable card settings, refer to the "Network Element Defaults" appendix in the Cisco ONS 15454 Reference Manual.



Step 1 In node view, double-click the EC-1 card where you want to change the line or threshold settings.

Step 2 Click the Provisioning tab.

Step 3 Depending on the setting you need to modify, click the Line or SONET Thresholds tabs.


Note See Chapter 8 "Manage Alarms" for information about the Alarm Profiles tab.



Note The STS subtab is used to provision intermediate path performance monitoring (IPPM). To provision IPPM, circuits must be provisioned on the EC1-12 card. For circuit creation procedures, go to Chapter 6 "Create Circuits and VT Tunnels." To provision IPPM, go to the "DLP-A121 Enable/Disable Pointer Justification Count Performance Monitoring" task.



Note If you want to modify a threshold setting, it might be necessary to click on the available directional, type, and interval (15 Min, 1 Day) radio buttons and then click Refresh. This will display the desired threshold setting.


Step 4 Modify the settings found under these subtabs by clicking in the field you want to modify. In some fields you can choose an option from a drop-down list; in others you can type a value.

Step 5 Click Apply.

Step 6 Repeat Steps 3 through 5 for each subtab that has parameters you want to provision.

Table 18-19 describes the values on the Line tab for the EC1-12 card. For definitions of the SONET threshold settings, see Table 18-20.

Table 18-19 Line Options for the EC1-12 Card 

Parameter
Description
Options

Port

(Display only) Port number.

1 to 12

Port Name

(Optional) Sets a name for the port.

User-defined, up to 32 alphanumeric/ special characters. Blank by default.

See the "DLP-A314 Assign a Name to a Port" task.

SF BER

Sets the signal fail bit error rate.

1E-3

1E-4

1E-5

SD BER

Sets the signal degrade bit error rate.

1E-5

1E-6

1E-7

1E-8

1E-9

PJStsMon#

Sets the STS that will be used for pointer justification; if set to zero, no STS is used.

0 (default)

1

Line Buildout

Defines the distance (in feet) from backplane to next termination point.

0 - 225 (default)

226 - 450

Rx Equalization

For early EC1-12 card versions, equalization can be turned off if the line length is short or the environment is extremely cold; Rx Equalization should normally be set to On.

On (checked, default)

Off (unchecked)

Admin State

Sets the port administrative service state unless network conditions prevent the change.

IS—Puts the port in-service. The port service state changes to IS-NR.

IS,AINS—Puts the port in automatic in-service. The port service state changes to OOS-AU,AINS.

OOS,DSBLD—Removes the port from service and disables it. The port service state changes to OOS-MA,DSBLD.

OOS,MT—Removes the port from service for maintenance. The port service state changes to OOS-MA,MT.

Service State

(Display only) Identifies the autonomously generated state that gives the overall condition of the port. Service states appear in the format: Primary State-Primary State Qualifier, Secondary State.

IS-NR—(In-Service and Normal) The port is fully operational and performing as provisioned.

OOS-AU,AINS—(Out-Of-Service and Autonomous, Automatic In-Service) The port is out-of-service, but traffic is carried. Alarm reporting is suppressed. The ONS node monitors the ports for an error-free signal. After an error-free signal is detected, the port stays in OOS-AU,AINS state for the duration of the soak period. After the soak period ends, the port service state changes to IS-NR.

OOS-MA,DSBLD—(Out-of-Service and Management, Disabled) The port is out-of-service and unable to carry traffic.

OOS-MA,MT—(Out-of-Service and Management, Maintenance) The port is out-of-service for maintenance. Alarm reporting is suppressed, but traffic is carried and loopbacks are allowed.

AINS Soak

Sets the automatic in-service soak period.

Duration of valid input signal, in hh.mm format, after which the card becomes in service (IS) automatically

0 to 48 hours, 15-minute increments


Table 18-20 lists the values on the SONET Thresholds tab for EC1-12 cards.

Table 18-20 SONET Threshold Options for the EC1-12 Card 

SONET Layer
Parameter
Description

All

Port #

(Display only) EC-1 card port number; 1 to 12

Line (L)

CV

Coding violations

 

ES

Errored seconds

Line (L)

SES

Severely errored seconds

FC

Failure count

UAS

Unavailable seconds

Section (S)

CV

Coding violations (Near End only)

ES

Errored seconds

SES

Severely errored seconds

SEFS

Severely errored framing seconds

Path (P)

CV

Coding violations (Near End and Far End)

ES

Errored seconds

FC

Failure count

SES

Severely errored seconds

UAS

Unavailable seconds


Step 7 Return to your originating procedure (NTP).


DLP-A171 Change Threshold Settings for OC-N Cards

Purpose

This task changes threshold settings for OC-N cards.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Note For the default values and domains of user-provisionable card settings, refer to the "Network Element Defaults" appendix in the Cisco ONS 15454 Reference Manual.



Step 1 In node view, double-click the OC-N card where you want to change the threshold settings.

Step 2 Click the Provisioning > SONET Thresholds tabs.


Note If you want to modify a threshold setting, it might be necessary to click on the available directional, type, and interval (15 Min, 1 Day) radio buttons and then click Refresh. This will display the desired threshold setting.


Step 3 Modify the settings described in Table 18-21 by clicking in the field you want to modify and typing in the desired value.

Step 4 Click Apply.

Table 18-21 OC-N Threshold Options 

Parameter
Description

Port

Port number

1 (OC-3, OC-12, OC-48, OC-192)

1-4 (OC12-4)

1-12: PPM 1 (MRC_12)

CV

Coding violations

ES

Errored seconds

SES

Severely errored seconds

SEFS

Severely errored framing seconds

FC

Failure count

UAS

Unavailable seconds

PSC

Protection Switching Count (Line)

PSD

Protection Switch Duration (Line)

PSC-W

Protection Switching Count - Working line

Note Bidirectional line switch rings (BLSRs) are not supported on the OC-3 card; therefore, the PSC-W, PSC-S, and PSC-R performance monitoring parameters (PMs) do not increment.

PSD-W

Protection Switching Duration - Working line

Note BLSR is not supported on the OC-3 card; therefore, the PSD-W, PSD-S, and PSD-R PMs do not increment.

PSC-S

Protection Switching Duration - Span

Note BLSR is not supported on the OC-3 card; therefore, the PSC-W, PSC-S, and PSC-R PMs do not increment.

PSD-S

Protection Switching Duration - Span

Note BLSR is not supported on the OC-3 card; therefore, the PSD-W, PSD-S, and PSD-R PMs do not increment.

PSC-R

Protection Switching Count - Ring

Note BLSR is not supported on the OC-3 card; therefore, the PSC-W, PSC-S, and PSC-R PMs do not increment.

PSD-R

Protection Switching Duration - Ring

Note BLSR is not supported on the OC-3 card; therefore, the PSD-W, PSD-S, and PSD-R PMs do not increment.


Step 5 Return to your originating procedure (NTP).


DLP-A172 Change an Optical Port to SDH

Purpose

This task provisions a port on an OC-N card for SDH. You must put the port in the OOS,MT administrative service state before changing the port to SDH.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

A214 Change the Service State for a Port

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 In node view, double-click the OC-N card where you want to provision a port for SDH.

Step 2 Click the Provisioning > Line tabs.

Step 3 In the Type field for the desired port, choose SDH.


Note Before you change the port type to SDH, ensure the following: the EnableSyncMsg and SendDoNotUse fields are unchecked, the card is not part of a BLSR or 1+1 protection group, the card is not part of an orderwire channel, and the card is not a SONET data communications channel/generic communications channel (DCC/GCC) termination point.


Step 4 Click Apply.

Step 5 If the card is a multiport OC-N card, for example a four-port OC-3, eight-port OC-3, four-port OC-12, or MRC-12, you can repeat Steps 3 and 4 for any other ports on that card.

Step 6 Return to your originating procedure (NTP).


DLP-A176 Convert DS1-14 Cards From 1:1 to 1:N Protection

Purpose

This task converts DS1-14 cards in a 1:1 protection scheme to 1:N protection. A 1:N protection group can protect a maximum of five working cards.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite

Security Level

Provisioning or higher



Note This procedure assumes DS1-14 cards are installed in Slots 1 through 6 and/or Slots 12 through 17. The DS1-14 cards in Slots 3 and 15, which are the protection slots, will be replaced with DS1N-14 cards.



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

Step 2 Click the protection group that contains Slot 3 or Slot 15 (where you will install the DS1N-14 card).

Step 3 Make sure the slot you are upgrading is not carrying working traffic. In the Selected Group list, the protect slot must say Protect/Standby, not Protect/Active. If the protect slot status is Protect/Active, switch traffic to the working card:

a. Under Selected Group, click the protect card.

b. Next to Switch Commands, click Switch.

The working slot should change to Working/Active and the protect slot should change to Protect/Standby. If they do not change, do not continue. Troubleshoot the working card and slot to determine why the card cannot carry working traffic.

Step 4 Repeat Steps 1 through 3 for each protection group that you need to convert.

Step 5 Click the Alarms tab to verify that no standing alarms exist for any of the DS1-14 cards that you are converting. If alarms exist and you have difficulty clearing them, contact your next level of support.

Step 6 Click the Provisioning > Protection tabs.

Step 7 Click the 1:1 protection group that contains the cards that you will move into the new protection group.

Step 8 Click Delete.

Step 9 When the confirmation dialog box appears, click Yes.


Note Deleting the 1:1 protection group does not disrupt service. However, no protection bandwidth exists for the working circuits until you complete the 1:N protection procedure. Therefore, complete this procedure as quickly as possible.


Step 10 If needed, repeat Steps 7 to 9 for other DS-1 1:1 protection groups that you want to include in a 1:N group.

Step 11 Physically remove the DS1-14 card from Slot 3 or Slot 15. This raises an improper removal alarm (IMPROPRMVL).

Step 12 In node view, right-click the slot that held the removed card and select Delete from the shortcut menu. Wait for the card to disappear from node view.

Step 13 Physically insert a DS1N-14 card into the same slot.

Step 14 Verify that the card boots up properly.

Step 15 Click the Inventory tab and verify that the new card appears as a DS1N-14.

Step 16 Click the Provisioning > Protection tabs.

Step 17 Click Create.

Step 18 Type a name for the protection group in the Name field (optional).

Step 19 From the Type drop-down list, choose 1:N (card).

Step 20 From the Protect Card drop-down list, choose the DS1N-14 card. Verify that the correct DS1N-14 card appears in the Protect Card field.

Step 21 In the Available Cards list, highlight the cards that you want in the protection group. Click the arrow (>>) tab to move the cards to the Working Cards list.

Step 22 If necessary, set a new reversion time in the Reversion time drop-down list.


Note 1:N protection groups are always revertive.


Step 23 Click OK. The protection group appears in the Protection Groups list on the Protection subtab.

Step 24 Return to your originating procedure (NTP).


DLP-A177 Convert DS3-12 Cards From 1:1 to 1:N Protection

Purpose

This task converts DS3-12 cards in 1:1 protection to 1:N protection. A 1:N protection group can protect a maximum of five working cards.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite

Security Level

Provisioning or higher



Note This procedure assumes that DS3-12 cards are installed in Slots 1 to 6 and/or Slots 12 to 17. The DS3-12 cards in Slots 3 or 15, which are the protection slots, will be replaced with DS3N-12 cards. The ONS 15454 must run CTC Release 2.0 or later. The procedure also requires at least one DS3N-12 card and a protection group with DS3-12 cards.



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

Step 2 Click the protection group containing Slot 3 or Slot 15 (where you will install the DS3N-12 card).

Step 3 Make sure the slot that you are upgrading is not carrying working traffic. In the Selected Group list, the protect slot must say Protect/Standby, and not Protect/Active. If the protect slot status is Protect/Active, switch traffic to the working card:

a. Under Selected Group, click the protect card.

b. Next to Switch Commands, click Switch.

The working slot should change to Working/Active and the protect slot should change to Protect/Standby. If they fail to change, do not continue. Troubleshoot the working card and slot to determine why the card cannot carry working traffic.

Step 4 Repeat Steps 2 and 3 for each protection group that you need to convert.

Step 5 Click the Alarms tab to verify that no standing alarms exist for any of the DS3-12 cards you are converting. If alarms exist and you have difficulty clearing them, contact your next level of support.

Step 6 Click the Provisioning > Protection tabs.

Step 7 Click the 1:1 protection group that contains the cards that you will move into the new protection group.

Step 8 Click Delete.

Step 9 When the confirmation dialog box appears, click Yes.


Note Deleting the 1:1 protection groups will not disrupt service. However, no protection bandwidth exists for the working circuits until the 1:N protection procedure is completed. Therefore, complete this procedure as soon as possible.


Step 10 If you are deleting more than one DS-3 1:1 protection group, repeat Steps 7 through 9 for each group that you want to include in a 1:N group.

Step 11 Physically remove the protect DS3-12 card from Slot 3 or Slot 15. This raises an improper removal alarm (IMPROPRMVL).

Step 12 In node view, right-click the slot that held the removed card and choose Delete from the shortcut menu. Wait for the card to disappear from the node view.

Step 13 Physically insert a DS3N-12 card into the same slot.

Step 14 Verify that the card boots up properly.

Step 15 Click the Inventory tab and verify that the new card appears as a DS3N-12 card.

Step 16 Click the Provisioning > Protection tabs.

Step 17 Click Create.

Step 18 Type a name for the protection group in the Name field (optional).

Step 19 Click Type and choose 1:N (card) from the drop-down list.

Step 20 Verify that the DS3N-12 card appears in the Protect Card field.

Step 21 In the Available Cards list, highlight the cards that you want in the protection group. Click the arrow (>>) tab to move the cards to the Working Cards list.

Step 22 Click OK.

The protection group should appear in the Protection Groups list on the Protection subtab.

Step 23 Return to your originating procedure (NTP).


DLP-A178 Convert DS3-12E Cards From 1:1 to 1:N Protection

Purpose

This task converts DS3-12E cards in 1:1 protection to 1:N protection. A 1:N protection group can protect a maximum of five working cards.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite

Security Level

Provisioning or higher



Note This task assumes that DS3-12E cards are installed in Slots 1 to 6 and/or Slots 12 to 17. The DS3-12E cards in Slots 3 or 15, which are the protection slots, will be replaced with DS3N-12E cards. The procedure requires at least one DS3N-12E card and a protection group with DS3-12E cards.



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

Step 2 Click the protection group containing Slot 3 or Slot 15 (where you will install the DS3N-12E card).

Step 3 Make sure the slot you are upgrading is not carrying working traffic. In the Selected Group list, the protect slot must say Protect/Standby, and not Protect/Active. If the protect slot status is Protect/Active, switch traffic to the working card:

a. Under Selected Group, click the protect card.

b. Next to Switch Commands, click Switch.

The working slot should change to Working/Active and the protect slot should change to Protect/Standby. If they fail to change, do not continue. Troubleshoot the working card and slot to determine why the card cannot carry working traffic.

Step 4 Repeat Steps 2 and 3 for each protection group that you need to convert.

Step 5 Click the Alarms tab to verify that no standing alarms exist for any of the DS3-12E cards you are converting. If alarms exist and you have difficulty clearing them, contact your next level of support.

Step 6 Click the Provisioning > Protection tab.

Step 7 Click the 1:1 protection group that contains the cards that you will move into the new protection group.

Step 8 Click Delete.

Step 9 When the confirmation dialog box appears, click Yes.


Note Deleting the 1:1 protection groups will not disrupt service. However, no protection bandwidth exists for the working circuits until the 1:N protection procedure is completed. Do not delay when completing this procedure.


Step 10 If you are deleting more than one DS-3 1:1 protection group, repeat Steps 7 through 9 for each group that you want to include in a 1:N group.

Step 11 Physically remove the protect DS3-12E card from Slot 3 or Slot 15. This raises an improper removal alarm (IMPROPRMVL).

Step 12 In node view, right-click the slot that held the removed card and choose Delete from the shortcut menu. Wait for the card to disappear from the node view.

Step 13 Physically insert a DS3N-12E card into the same slot.

Step 14 Verify that the card boots up properly.

Step 15 Click the Inventory tab and verify that the new card appears as a DS3N-12E.

Step 16 Click the Provisioning > Protection tabs.

Step 17 Click Create.

Step 18 Type a name for the protection group in the Name field (optional).

Step 19 Click Type and choose 1:N (card) from the drop-down list.

Step 20 Verify that the DS3N-12E card appears in the Protect Card field.

Step 21 In the Available Cards list, highlight the cards that you want in the protection group. Click the arrow (>>) tab to move the cards to the Working Cards list.

Step 22 Click OK.

The protection group should appear in the Protection Groups list on the Protection subtab.

Step 23 Return to your originating procedure (NTP).


DLP-A189 Verify that a 1+1 Working Slot is Active

Purpose

This task verifies that a working slot in a 1+1 protection scheme is active (and that the protect slot is in standby).

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Maintenance or higher



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

Step 2 In the Selected Group area, verify that the working slot/port is shown as Working/Active. If so, this task is complete.

Step 3 If the working slot says Working/Standby, perform a Manual switch on the working slot:

a. In the Selected Group area, choose the Protect/Active slot.

b. In the Switch Commands field, choose Manual.

c. Click Yes in the confirmation dialog box.

Step 4 Verify that the working slot is carrying traffic (Working/Active).


Note If the slot is not active, look for conditions or alarms that might be preventing the card from carrying working traffic. Refer to the Cisco ONS 15454 Troubleshooting Guide for alarm descriptions and instructions.


Step 5 When the working slot is carrying traffic, clear the Manual switch:

a. In the Switch Commands field, choose Clear.

b. Click Yes in the confirmation dialog box.

Step 6 Verify that the working slot does not revert to Standby, which might indicate a problem on the working span.

Step 7 Return to your originating procedure (NTP).


DLP-A190 Install a UBIC-V EIA

Purpose

This task installs a Universal Backplane Interface Connector—Vertical (UBIC-V) EIA.

Tools/Equipment

#2 Phillips screwdriver

Small slot-head screwdriver

6 perimeter screws, 6-32 x 0.375-inch Phillips head (P/N 48-0422-01)

UBIC-V, A side (15454-EIA-UBICV-A) EIA panel and/or UBIC-V, B side (15454-EIA-UBICV-B) EIA panel

Prerequisite Procedures

None

Required/As Needed

As needed

Onsite/Remote

Onsite

Security Level

None



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


Note UBIC-V EIAs can only be installed on shelf assembly 15454-SA-HD. 15454-SA-HD shelf assemblies are differentiated from other shelf assemblies by the blue hexagon symbol, which indicates the available high-density slots, found under Slots 1 through 3 and 15 through 17.



Note UBIC-V or UBIC-H EIAs are required when using high-density (48-port DS-3 and 12-port DS3XM) electrical cards.



Step 1 Locate the correct UBIC-V EIA for the side you want to install and remove the UBIC EIA-V from the packaging.

Step 2 Verify that none of the pins on the UBIC EIA are bent.

Step 3 If present, remove the yellow connector protectors.

Step 4 If screws are present in the alignment standoff holes, use a Phillips screwdriver to remove them.

Step 5 Use a flathead screwdriver or 5/16-inch deep socket wrench to tighten the standoffs at 8 to 10 inch pound-force (lb-in) (9.2 to 11.5 centimeter kilogram-force[kgf-cm]). Figure 18-6 shows the alignment standoffs installed on the shelf.

Figure 18-6 Installed Alignment Standoffs

Step 6 Line up the alignment pins on the UBIC EIA with the alignment standoffs on the shelf and push the UBIC EIA with consistent pressure until the pins and standoffs fit together firmly (Figure 18-7).

Figure 18-7 UBIC-V Alignment Pins


Caution Do not force the UBIC-V EIA onto the shelf if you feel strong resistance.

Step 7 Locate the three jack screws on the UBIC-V (Figure 18-8). Starting with any jack screw, tighten the thumb screw a few turns and move to the next one, turning each thumb screw a few turns at a time until all three screws are hand tight (Figure 18-9).


Caution Tightening the jack screws unevenly could cause damage to the UBIC-V connectors.

Figure 18-8 UBIC-V EIA Screw Locations

Figure 18-9 UBIC-V EIA Jack Screw

Step 8 Use a Phillips screwdriver to install the six perimeter screws and bracket screws (P/N 48-0422-01) at 8 to 10 lb-inch (9.2 to 11.5kgf-cm) to secure the cover panel to the backplane (Figure 18-8). Install the alarm and timing panel cover and insert and tighten the last perimeter screw.

Figure 18-10 shows a UBIC-V EIA installation.

Figure 18-10 Installing the UBIC-V EIA

Step 9 Return to your originating procedure (NTP).


DLP-A191 Delete a Card

Purpose

This task deletes a card from CTC.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 On the shelf graphic in CTC, right-click the card that you want to remove and choose Delete Card.

You cannot delete a card if any of the following conditions apply:

The card is a TCC2/TCC2P card. To replace a TCC2/TCC2P card, refer to the Cisco ONS 15454 Troubleshooting Guide.

The card is part of a protection group; see the "DLP-A155 Delete a Protection Group" task.

The card has circuits; see the "NTP-A278 Modify and Delete Overhead Circuits and Server Trails" procedure and the "DLP-A333 Delete Circuits" task.

The card is part of a BLSR; see the "NTP-A240 Remove a BLSR Node" procedure.

The card is being used for timing; see the "DLP-A157 Change the Node Timing Source" task.

The card has a DCC/GCC termination; see the "NTP-A292 Modify or Delete Communications Channel Terminations and Provisionable Patchcords" procedure.


Note If you delete a card in CTC but do not remove it from the shelf, it will reboot and reappear in CTC.


Step 2 Return to your originating procedure (NTP).


DLP-A194 Clear a BLSR Force Ring Switch

Purpose

This task removes a Force switch from a BLSR port.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite

Security Level

Maintenance or higher



Step 1 From the View menu, choose Go to Network View.

Step 2 Click the Provisioning > BLSR tabs.

Step 3 Click Edit.

Step 4 To clear a Force switch on the west line:

a. Right-click the BLSR west port where you want to clear the protection switch and choose Set West Protection Operation. Ports with a Force switch applied are marked with an F.

b. In the Set West Protection Operation dialog box, choose CLEAR from the pull-down menu. Click OK.

c. In the Confirm BLSR Operation dialog box, click Yes.

Step 5 To clear a Force switch on the east line:

a. Right-click the BLSR east port where you want to clear the protection switch and choose Set East Protection Operation. Ports with a Force switch applied are marked with an F.

b. In the Set East Protection Operation dialog box, choose CLEAR from the pull-down menu. Click OK.

c. In the Confirm BLSR Operation dialog box, click Yes.

On the BLSR network graphic, a green and a purple span line connects each node. This is the normal display for BLSRs when protection operations are not invoked.

Step 6 From the File menu, choose Close.

Step 7 Return to your originating procedure (NTP).


DLP-A195 Verify Timing in a Reduced Ring

Purpose

This task verifies timing in the ring where you removed a node.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite/remote

Security Level

Provisioning or higher



Step 1 In node view, click the Provisioning > Timing tabs.

Step 2 Observe the Timing Mode field to see the type of timing (Line, External, Mixed) that has been set for that node.

Step 3 Scroll down to the Reference Lists and observe the NE Reference fields to see the timing references provisioned for that node.

Step 4 If the removed node was the only BITS timing source, perform the following:

a. Contact your synchronization coordinator or appropriate personnel before continuing with this procedure.

b. Look for another node on the ring that can be used as a BITS source and set that node's Timing Mode to External. Choose that node as the primary timing source for all other nodes in the ring. See the "DLP-A157 Change the Node Timing Source" task.

c. If no node in the reduced ring can be used as a BITS source, choose one node to be your internal timing source. Set that node's Timing Mode to External, set BITS-1 and BITS-2 BITS In State to OOS, and set the NE Reference to Internal. Then, choose line timing for all other nodes in the ring. This forces the first node to be their primary timing source. (See the "DLP-A157 Change the Node Timing Source" task.)


Note This type of timing conforms to Stratum 3 requirements and is not considered optimal.


Step 5 If the removed node was not the only BITS timing source, provision the adjacent nodes to line timing using SONET links (east and west) as timing sources, traceable to the node with external BITS timing. See the "NTP-A28 Set Up Timing" procedure.

Step 6 Return to your originating procedure (NTP).


DLP-A196 Delete a BLSR from a Single Node

Purpose

This task deletes a BLSR from a node after you remove the node from the BLSR.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 In node view, display the node that was removed from the BLSR:

If the node that was removed is connected to the same LAN as your computer, from the File menu, choose Add Node, then enter the node name or IP address.

If the node that was removed is not connected to the same LAN as your computer, you must connect to the node using a direct connection. See Chapter 3 "Connect the PC and Log into the GUI" for procedures.

Step 2 Click the Provisioning > BLSR tabs.

Step 3 Highlight the ring and click Delete.

Step 4 In the Suggestion dialog box, click OK.

Step 5 In the confirmation message, confirm that this is the ring you want to delete. If so, click Yes.

Step 6 Return to your originating procedure (NTP).


DLP-A197 Initiate a Path Protection Force Switch

Purpose

This task switches all circuits on a path protection span to another span.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Maintenance or higher



Caution The Force Switch Away command overrides normal protective switching mechanisms. Applying this command incorrectly can cause traffic outages.


Caution Traffic is not protected during a Force protection switch.


Step 1 From the View menu, choose Go to Network View.

Step 2 Right-click the span where you want to switch path protection traffic away. Choose Circuits from the shortcut menu.

Step 3 In the Circuits on Span dialog box, choose FORCE SWITCH AWAY. Click Apply.

Step 4 In the Confirm UPSR Switch dialog box, click Yes.

Step 5 In the Protection Switch Result dialog box, click OK.

In the Circuits on Span window, the Switch State for all circuits is FORCE. Figure 18-11 shows an example.

Figure 18-11 Circuits on Span Dialog Box with a Force Switch


Note A Force switch request on a span or card causes CTC to raise a FORCED-REQ condition. The condition clears when you clear the Force switch.


Step 6 Return to your originating procedure (NTP).


DLP-A198 Clear a Path Protection Force Switch

Purpose

This task clears a path protection Force switch.

Tools/Equipment

None

Prerequisite Procedures

A60 Log into CTC

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Maintenance or higher



Step 1 From the View menu at the node view, choose Go to Network View.

Step 2 Right-click the span where you want to clear the switch. Choose Circuits from the shortcut menu.

Step 3 In the Circuits on Span dialog box, choose CLEAR to remove the Force switch. Click Apply.

Step 4 In the Confirm UPSR Switch dialog box, click Yes.

Step 5 In the Protection Switch Result dialog box, click OK.

In the Circuits on Span window, the Switch State for all path protection circuits is CLEAR.

Step 6 Return to your originating procedure (NTP).