Upgrade non-VLF OC-48 BLSR to VLF OC-192 BLSR

Procedure 12-22: Upgrade non-VLF OC-48 BLSR to VLF OC-192 BLSR

Overview

Important!

The BLSR must be equipped with Alcatel-Lucent 1665 DMX nodes only. This upgrade procedure does not support upgrading BLSRs equipped with nodes other than Alcatel-Lucent 1665 DMX.

Use this procedure to upgrade an in-service non-Very Large Fabric (VLF) OC-48 BLSR to a VLF OC-192 BLSR. To upgrade an in-service non-VLF OC-48 BLSR to a non-VLF OC-192 BLSR, refer to Procedure 12-11: Upgrade OC-48 BLSR to OC-192 BLSR.

This procedure supports upgrading BLSR nodes equipped with non-VLF LNW27, LNW29, LNW32, LNW56, LNW57, LNW58, LNW76, LNW202, and/or LNW221–259 OC-48 OLIU circuit packs to VLF LNW59 or LNW504 OC-192 OLIU circuit packs.

Any BLSR nodes equipped with LNW26B, LNW28, LNW77, or LNW121B–159B OC-48 OLIU circuit pack must be upgraded to LNW27, LNW29, LNW32, LNW76, LNW202, and/or LNW221–259 OC-48 OLIU circuit pack before performing this procedure, refer to Procedure 12-1: Upgrade cross-connect capacity/port density upgrade of high-speed OLIU circuit packs at a node.

The non-VLF OLIU circuit packs in the Main slots are upgraded at each node. Low-speed OC-48 BLSR upgrades are not supported in this release.

This procedure assumes that in the BLSR, the circuit pack in Main slot M1 is always connected to the circuit pack in Main slot M2 of the adjacent node. (Refer to the BLSR example at the end of the procedure.)

Important!

The Very Large Fabric circuit packs are only compatible with the Alcatel-Lucent 1665 DMX High Capacity Shelf (DMX-HC-20A, DMX-HC-30A, or DMX-HC-30A-CE Shelf Type). The Standard Alcatel-Lucent 1665 DMX Shelf does not support upgrades to Very Large Fabric circuit packs.

To determine the shelf type, select View → Equipment, highlight Shelf, and click Select to obtain the shelf details.

Important!

Systems equipped with VLF mains (LNW82, LNW59, LNW504) support extra traffic on all OC-192 BLSRs (Main and Function). Systems equipped with non-VLF OC-48 mains support extra traffic on the main OC-48 BLSRs only. Regardless of equipage combinations, extra traffic is not supported on any other BLSR.

Ring Upgrade Mode

During the upgrade, each node in the ring must be provisioned in the Ring Upgrade Mode. The Ring Upgrade Mode allows cross-connections and provisioning data to be mapped to the replacement circuit pack and prohibits the following operations:

Software upgrades to the node (APPLY, INS-PRGM)
Cross-connection provisioning (ENT-CRS, DLT-CRS)
Manual equipment protection switching of the Function/Growth slots (SW-TOPROTN, SW-TOWKG)

While the node is in the Ring Upgrade Mode, the BLSR protection group Wait to Restore timer is automatically provisioned 0. The Wait to Restore timer returns to the original provisioned value when the node leaves the Ring Upgrade Mode.

The node remains in the Ring Upgrade Mode until it is manually provisioned back to the Normal mode. While in the Ring Upgrade Mode, the upgrade may be temporarily suspended or backed out. To prevent errors in the upgraded ring, keep all nodes in Ring Upgrade Mode until all nodes have been upgraded.

The Ring Upgrade Mode is an abnormal condition. Therefore, the ABN LED is lighted on the SYSCTL circuit pack faceplate and the WaveStar^® CIT Alarm List shows the Ring Upgrade Mode as Not Alarmed.

Upgrades to multiport circuit packs

When upgrading to a circuit pack with more ports, the cross-connections on the original port are mapped to the same port number on the upgrade circuit pack. The upgrade circuit pack must also be configured with compatible pluggable transmission modules. For example, do not replace a circuit pack that has long reach optics with a circuit pack that has intermediate reach optics.

The additional ports on the upgrade circuit pack cannot be used until after the upgrade is completed.

Reported alarm severity levels

The alarm severity levels are reported using the Alarm List and the SYSCTL circuit pack faceplate LED indicators (CR, MJ, MN, or ABN).

Alarm List

The Alarm List is obtained by clicking the Alarm List button. The Alarm List reports detailed information about the current alarms on the local network element. This includes the assigned ASAP alarm severity levels.

For more information about provisioning and assigning ASAPs, refer to Chapter 6, System configuration procedures.

SYSCTL circuit pack faceplate LEDs

The SYSCTL circuit pack faceplate LEDs report the highest active alarm severity level at the local network element or within the alarm group based on the provisioned value of the Remote NE Status parameter.

If the Remote NE Status parameter is...	Then...
Enabled,	the SYSCTL circuit pack faceplate LEDs at the local network element display the highest active alarm severity level (if any) within the Alarm Group and the FE LED is lighted.
Disabled,	the SYSCTL circuit pack faceplate LEDs at the local network element display the highest active alarm severity level (if any) at the local network element only.
Enable Far End,	the SYSCTL circuit pack faceplate FE LED is lighted to indicate an alarm within the alarm group. However, the SYSCTL circuit pack faceplate LEDs at the local network element display the highest active alarm severity level (if any) at the local network element only.

For more information about provisioning the Remote NE Status feature, refer to Procedure 7-9: Set NE defaults — alarm gateway, alarm group, remote NE status, FTP/FTTD, security and history log thresholds.

Privilege level

You must log in as a Privileged user to complete this procedure.

Required equipment

The following equipment is required to perform this procedure:

Optical power meter
Wrist strap
The following lightguide buildouts (LBOs) should be available:
- 5-dB loss LBO (code ABLCS-05.0: comcode 108279381)
- 10-dB loss LBO (code ABLCS-10.0: comcode 108279431)
- 15-dB loss LBO (code ABLCS-15.0: comcode 108279480)
Lightguide jumper (MS1A40LC-A40LC-2, Comcode 108918269)
As optical spans are upgraded around the BLSR, ensure that technicians are available at each end of an optical span as it is upgraded.
If Main slot M1 at the first node to be upgraded is equipped with an LNW27 (pre Series 1:6), LNW29 (pre Series 1:6), LNW76 (pre Series 1:6), and/or LNW221–259 (pre Series 1:6) OC-48 OLIU circuit pack, one Series 1:6 or later version of the same OC-48 OLIU circuit pack type, is temporarily required. You must upgrade Main-1 in the Starting Node and all Main-2 circuit packs in the remaining nodes to compatible Mains before upgrading the ring to OC-192. For example if the first node to be upgraded is equipped with pre Series 1:6 LNW27 OC-48 OLIU circuit packs, then a Series 1:6 or later LNW27 OC-48 OLIU circuit pack is temporarily required.
One temporary replacement non-VLF LNW56 OC-192 OLIU circuit pack is required for Main slot M2 at the first node to be upgraded. The temporary replacement non-VLF LNW56 OC-192 OLIU circuit pack is intended for use only as the temporary transition circuit pack during ring upgrades.

A non-VLF LNW57, LNW58, LNW502, or LNW555 OC-192 OLIU circuit pack may also be used as the temporary replacement non-VLF OC-192 OLIU circuit pack. However, the temporary replacement circuit pack must have compatible optics. For example, do not replace a circuit pack that has long reach optics with a circuit pack that has intermediate reach optics. Refer to the Alcatel-Lucent 1665 Data Multiplexer (DMX) Applications and Planning Guide, 365-372-300 for the SONET optical specifications of the OC-192 OLIU circuit packs.
Two replacement VLF LNW59 OC-192 OLIU circuit packs for each node.

The replacement circuit packs must have compatible optics. For example, do not replace a circuit pack that has long reach optics with a circuit pack that has intermediate reach optics. Refer to the Alcatel-Lucent 1665 Data Multiplexer (DMX) Applications and Planning Guide, 365-372-300 for the SONET optical specifications of the OC-192 OLIU circuit packs.
Two replacement VLF LNW504 OC-192 OLIU circuit packs for each node.

The replacement circuit packs must have compatible optics. For example, do not replace a circuit pack that has long reach optics with a circuit pack that has intermediate reach optics. Refer to the Alcatel-Lucent 1665 Data Multiplexer (DMX) Applications and Planning Guide, 365-372-300 for the SONET optical specifications of the OC-192 OLIU circuit packs.

Important!

Release 7.1.1 or later software is required to support upgrades to VLF LNW59 OC-192 OLIU circuit packs.

Release 9.1 or later software is required to support upgrades to VLF LNW504 OC-192 OLIU circuit packs.

Important!

All nodes in the existing network must have the same software release before upgrading the network.

NOTICE

Equipment damage hazard

Rocking circuit packs back and forth when removing or installing them can damage circuit pack and/or shelf connectors.

Do not rock circuit packs back and forth when removing or installing them. Carefully slide circuit packs into or out of the shelf slot.

NOTICE

Service-disruption hazard

Removing or installing circuit packs during a System Reset can cause system errors.

Do not remove or install a circuit pack during a System Reset. If a System Reset occurs, wait until the System Reset is complete, then remove or install the circuit pack.

NOTICE

Service-disruption hazard

Transmission hits (up to 130 ms) will occur as BLSR traffic is switched.

Transmission hits (up to 3 seconds) will occur as traffic on LNW20 TMUX circuit packs is switched.

If the OLIU circuit packs being upgraded carry Ethernet traffic with LCAS enabled, transmission hits (up to 6 seconds) may occur as Ethernet traffic is switched.

The length of the service hits varies based on shelf equipage and TDM/Ethernet service provisioning.

Before you begin

Prior to performing this procedure:

Refer to Laser safety and Electrostatic discharge information in Chapter 1, Safety.
Obtain the work instructions for this procedure.
Review the applicable office records for each fiber span in the BLSR and the Alcatel-Lucent 1665 Data Multiplexer (DMX) Applications and Planning Guide, 365-372-300 for detailed SONET optical specifications of the OC-192 OLIU circuit packs. Ensure that the OC-192 OLIU circuit packs are compatible with each fiber span in the BLSR. Attenuation and Dispersion may be limiting factors at longer span lengths.
Review the applicable Alcatel-Lucent 1665 Data Multiplexer (DMX) Software Release Description for any detailed procedures or cautions that may apply to this upgrade procedure.
Determine the local operating procedures for removing a circuit pack. Local operating procedures for removing a circuit pack may vary. One method is to disconnect the optical fibers and remove the circuit pack. Another method is to verify the circuit pack active/standby status, perform manual switches if the circuit pack is active, and then disconnect the optical fibers and remove the circuit pack.

Steps

Important!

When optical fibers are disconnected during this procedure, inc. LOS, section DCC channel failed, and neighbor SYSCTL CP unavailable alarms are reported. The holdover mode active condition may also be reported depending on the provisioned system timing mode.

When optical fibers are connected during this procedure, Default K-bytes alarms are reported temporarily.

Complete the following steps to upgrade an in-service non-VLF OC-48 BLSR to a VLF OC-192 BLSR.

From office records and work instructions, determine the current network configuration.

Reference:

Procedure 14-2: Connect Personal Computer (PC) and establish WaveStar^® CIT session

Select View → Rings → Ring Map. Click on required Ring ID and Select. Click View Graphic and observe the ring map diagram. Note how the nodes are connected in the ring and make a drawing of the ring map diagram to reference during this upgrade procedure.

Click the Alarm List button in the top right corner of the System View to view the NE Alarm List and verify that no alarms are present.

Refer to the appropriate trouble clearing procedures to clear all existing alarms before continuing with this procedure.

Reference:

Alcatel-Lucent 1665 Data Multiplexer (DMX) Alarm Messages and Trouble Clearing Guide, 365-372-302

To verify that no loopbacks, protection switch lockouts, or protection switches are present, select View → Rolling Events. Under the line reading RTRV-COND-ALL determine if any loopbacks, protection switch lockouts, or protection switches are displayed.

Remove all existing loopbacks, protection switch lockouts, or protection switches before continuing with this procedure.

Reference:

Alcatel-Lucent 1665 Data Multiplexer (DMX) Alarm Messages and Trouble Clearing Guide, 365-372-302

Select Fault → Analysis → Test Access to access the Test Access Wizard and verify that no test access sessions exist.

If required, select Fault → Analysis → Test Access to access the Test Access Wizard and delete all existing test access sessions.

Reference:

Important!

The system does not support upgrades from a non-VLF OC-48 BLSR main with extra traffic to a VLF OC-192 BLSR. If OC-48 BLSR extra traffic cross-connections exist at a node, attempts to upgrade the pack will be denied.

Important!

Select View → Cross-Connections to access the required circuit packs and obtain a current list of cross-connections. If required, select Configuration → Cross-Connectionsto access the Cross-Connection Wizard and delete/change the existing OC-48 BLSR extra traffic cross-connections.

Important!

Nodes must be equipped with LNW27, LNW29, LNW32, LNW76, LNW202, or LNW221–259 OC-48 OLIU circuit packs in the Main slots. Upgrades from LNW26B, LNW28, LNW77, or LNW121B–159B OC-48 OLIU circuit packs directly to VLF OC-192 OLIU circuit packs are not supported.

Select Reports → Equipment Lists→ Pack. Click Shelf and Select to access the Circuit Pack List and verify that the shelf is not equipped with LNW26B, LNW28, LNW77, or LNW121B–159B OC-48 OLIUs.

If required, upgrade the node with LNW27, LNW29, LNW32, LNW76, LNW202, or LNW221–259 OC-48 OLIU circuit packs.

Reference:

Procedure 12-1: Upgrade cross-connect capacity/port density upgrade of high-speed OLIU circuit packs at a node

Important!

If the node is equipped with LNW6 or LNW7 28DS1 circuit packs, attempts to upgrade from non-VLF OLIU circuit packs to VLF OLIU circuit packs are denied.

Select Reports → Equipment Lists→ Pack. Click Shelf and Select to access the Circuit Pack List and verify that the shelf is not equipped with LNW6 or LNW7 28DS1 circuit packs.

If required, replace the LNW6 or LNW7 28DS1 circuit packs.

Reference:

Procedure 12-15: Upgrade low-speed electrical circuit packs

Important!

Before upgrading the BLSR, Automatic Ring Discovery must be disabled.

Select View → Protection to access the 2F BLSR main-1-1 protection group and click Select. Click on the Provisionable Parameters tab and observe the Automatic Ring Discovery parameter.

If required, select Configuration → Equipment to access the 2F BLSR main-1-1 protection group and Disable Automatic Ring Discovery.

Important!

If necessary, record the original parameter value to be reprovisioned after the upgrade is completed.

At each of the remaining nodes in the BLSR, log in to the node and repeat Step 3 through Step 10. Then continue with the next step.

Reference:

Procedure 14-2: Connect Personal Computer (PC) and establish WaveStar^® CIT session

NOTICE

Service-disruption hazard

If spanning tree is used for protection on the network being upgraded, this upgrade could cause Ethernet traffic loss when the spanning tree switches to a new topology.

Ensure that the spanning tree is configured correctly.

Important!

Alcatel-Lucent 1665 DMX and Alcatel-Lucent 1665 DMXtend support Ethernet service with spanning tree protection.

If Ethernet service is provisioned with spanning tree protection, verify that the existing spanning tree configuration is correct.

Reference:

Procedure 12-22.4: Verify spanning tree configuration

Identify and log in to the starting node. (Refer to the BLSR example at the end of the procedure.)

Reference:

Procedure 14-2: Connect Personal Computer (PC) and establish WaveStar^® CIT session

Determine the OC-48 OLIU circuit pack types installed in the Main slots of the starting node using Reports → Equipment Lists → Packs. Click Shelf and Select. Observe the Apparatus Code and Series Number of the main-1 and main-2 circuit packs. Click Close.

Important!

If Main slot M1 of the starting node is equipped with a pre series 1:6 LNW27, LNW29, LNW76, or LNW221–259 OC-48 OLIU circuit pack, the circuit pack must be replaced with a Series 1:6 or later version of the same OC-48 OLIU circuit pack type. The Series 1:6 or later OC-48 OLIU circuit pack maintains traffic while Main slot M2 and the other nodes in the ring are upgraded. As a final step, the Series 1:6 or later OC-48 OLIU circuit pack is upgraded.

If required, replace the pre series 1:6 LNW27, LNW29, LNW76, or LNW221–259 OC-48 OLIU circuit pack in Main slot M1 of the starting node with a Series 1:6 or later version of the same OC-48 OLIU circuit pack type.

Reference:

Procedure 12-22.1: Replace pre Series 1:6 LNW27, 29, 76, 221–259 OC-48 OLIU in Main slot M1 of starting node

If required, verify the active/standby status of the non-VLF OC-48 OLIU circuit pack in Main slot M2 and perform manual switches to switch traffic away from an active circuit pack.

Reference:

Procedure 12-22.2: Verify active/standby status of circuit pack to be replaced

Important!

The Ring Upgrade Mode is required for cross-connections and provisioning data to be mapped to the replacement circuit pack.

At the WaveStar^® CIT System View at the starting node, select Configuration → Ring Upgrade Mode.

Result:

A dialog box appears asking you to confirm changing the NE Mode to Ring Upgrade Mode. Click Yes.

The ABN LED is lighted on the SYSCTL circuit pack faceplate and the WaveStar^® CIT Alarm List shows the Ring Upgrade Mode as Not Alarmed.

For more information about the Ring Upgrade Mode, refer to Ring Upgrade Mode.

NOTICE

Equipment damage hazard

If an OC-192 OLIU circuit pack is connected to an OC-48 OLIU circuit pack equipment damage may occur.

Do not reconnect the optical fibers until instructed to do so. The optical fibers are reconnected after the OC-48 OLIU circuit pack is upgraded at each end of the optical span.

Important!

The non-VLF OC-48 OLIU circuit pack in Main slot M2 must be replaced with a temporary replacement non-VLF OC-192 OLIU circuit pack. (Refer to Required equipment for a list of acceptable temporary replacement non-VLF OC-192 OLIU circuit packs.) The temporary replacement non-VLF OC-192 OLIU circuit pack maintains traffic while Main slot M1 and the other nodes in the ring are upgraded. As a final step, this temporary replacement non-VLF OC-192 OLIU circuit pack is upgraded

If the circuit pack is active for timing and/or transmission, opening the latch causes timing and/or transmission switches. Transmission hits (less than 60 ms) will occur for each separate protection switch.

Open the lower faceplate latch on the non-VLF OC-48 OLIU circuit pack in Main slot M2. Disconnect the optical fibers from the non-VLF OC-48 OLIU circuit pack in Main slot M2. Then replace the non-VLF OC-48 OLIU circuit pack in Main slot M2 with the temporary replacement non-VLF OC-192 OLIU circuit pack.

Result:

A transmission hit will occur after the OC-192 OLIU circuit pack is inserted. The transmission hit is a result of an internal system timing adjustment to accommodate different line rates in the two Main slots.

The temporary replacement non-VLF OC-192 OLIU circuit pack in Main slot M2 is tested and autoprovisioned.

The system reports an unexpected circuit pack type condition and an OC48 LOS alarm for Main slot M2. The system also reports a Line Automatic Switch condition for Main slot M2. Alarms may also be reported at other nodes in the ring.

If the provisioned system timing mode is External, the system may also report an inc. DS1 sync. ref. OOL alarm.

Reference:

Procedure 4-2: Install OLIU circuit packs in Main slots

This completes the first phase of the BLSR upgrade at the starting node. The starting node upgrade will be completed after all the other nodes in the ring are upgraded.

The following figure shows the state of the starting node and the adjacent optical spans.

Reference:

Procedure 14-2: Connect Personal Computer (PC) and establish WaveStar^® CIT session

Upgrade the high-speed non-VLF OC-48 BLSR connections at the node to VLF OC-192 UPSR connections.

Reference:

Procedure 12-22.3: Upgrade high-speed BLSR connections at node using VLF OC-192 OLIU circuit packs

Except for the starting node, have all nodes in the BLSR been upgraded?

If...	Then...
No	Repeat Step 19 through Step 20 as required at the next node. (Refer to the BLSR example at the end of the procedure.)
Yes	Continue with Step 22.

Reference:

Procedure 14-2: Connect Personal Computer (PC) and establish WaveStar^® CIT session

Important!

The UPD/INIT button does not work during this upgrade.

At the System View, select Configuration → Update System → Upgrade. Select main-2 as the Directed Slot Choice and click OK.

Result:

A dialog box appears asking you to confirm executing this command. Click Yes.

The unexpected circuit pack type condition for Main slot M2 clears, and the system reports an unexpected circuit pack type condition for Main slot M1.

If required, verify the active/standby status of the non-VLF OC-48 OLIU circuit pack in Main slot M1 and perform manual switches to switch traffic away from an active circuit pack.

Reference:

Procedure 12-22.2: Verify active/standby status of circuit pack to be replaced

Important!

Open the lower faceplate latch on the non-VLF OC-48 OLIU circuit pack in Main slot M1. Disconnect the optical fibers from the non-VLF OC-48 OLIU circuit pack in Main slot M1. Then replace the non-VLF OC-48 OLIU circuit pack in Main slot M1 with the replacement VLF OC-192 OLIU circuit pack.

Result:

The system reports the Waiting for Download and Install Program IP conditions when the replacement VLF OC-192 OLIU circuit pack is inserted in the slot. After the circuit pack firmware update is complete, the system reports an unexpected circuit pack type alarm for Main slot M1.

The FAULT LED may light on the circuit packs in the Main slots, and the opposite end of the optical spans may report inc. OCN sig. degrade (BER), section DCC channel failed, and Default K-bytes alarms.

If the provisioned system timing mode is External, the system may also report an inc. DS1 sync. ref. OOL alarm.

Reference:

Procedure 4-2: Install OLIU circuit packs in Main slots

At both ends of the optical span to be upgraded, perform the following to connect the replacement VLF OC-192 OLIU circuit pack in Main slot M1 and the required VLF OC-192 circuit pack/port at the opposite end of the upgraded OC-192 optical span:

Clean and connect the transmit optical fibers.
Measure the optical receive power of the receive fibers using an optical power meter. Select the appropriate LBO to attenuate the receive signal to the middle of the allowable optical receive power range. (Refer to the Alcatel-Lucent 1665 Data Multiplexer (DMX) Applications and Planning Guide, 365-372-300 for the SONET optical specifications of the OC-192 circuit packs.)
Clean and connect the receive fibers.

Result:

At the opposite end of the upgraded OC-192 optical span, the inc. OC192 LOS alarm clears and the system reports a Default K-bytes alarm.

Reference:

Procedure 14-4: Perform connection and verification of optical facility

NOTICE

Service-disruption hazard

Transmission hits (up to 130 ms) will occur as BLSR traffic is switched.

Transmission hits (up to 3 seconds) will occur as traffic on LNW20 TMUX circuit packs is switched.

If the OLIU circuit packs being upgraded carry Ethernet traffic with LCAS enabled, transmission hits (up to 6 seconds) may occur as Ethernet traffic is switched.

The length of the service hits varies based on shelf equipage and TDM/Ethernet service provisioning.

Important!

The UPD/INIT button does not work during this upgrade.

At the System View, select Configuration → Update System → Upgrade. Select main-1 (default) as the Directed Slot Choice and click OK.

Result:

A dialog box appears asking you to confirm executing this command. Click Yes.

The system performs an automatic protection switch, and all traffic is now active on Main slot M1. Transmission hits (less than 130 ms) occur as traffic switches from the circuit pack in Main slot M2 to the circuit pack in Main slot M1.

The unexpected CP type alarm and Line Automatic Switch condition for Main slot M1 clear. The system reports an unexpected CP type alarm and Line Automatic Switch condition for Main slot M2. Alarms may also be reported at other nodes in the ring.

At the opposite end of the upgraded OC-192 optical span, the Default K-bytes alarm clears. Transmission is now supported on the upgraded optical span between Main slot M1 and the required VLF OC-192 circuit pack/port at the opposite end of the upgraded OC-192 optical span.

Open the lower faceplate latch on the temporary replacement non-VLF OC-192 OLIU circuit pack in Main slot M2. Disconnect the optical fibers from the temporary replacement non-VLF OC-192 OLIU circuit pack circuit pack in Main slot M2. Then replace the temporary replacement non-VLF OC-192 OLIU circuit pack in Main slot M2 with the replacement VLF OC-192 OLIU circuit pack.

Result:

The system reports the Waiting for Download and Install Program IP conditions when the replacement VLF OC-192 OLIU circuit pack is inserted in the slot. After the circuit pack firmware update is complete, the unexpected CP type alarm for Main slot M2 clears, and the system reports an inc. OC192 LOS alarm for Main slot M2.

Reference:

Procedure 4-2: Install OLIU circuit packs in Main slots

At both ends of the optical span to be upgraded, perform the following to connect the replacement VLF OC-192 OLIU circuit pack in Main slot M2 and the required VLF OC-192 circuit pack/port at the opposite end of the upgraded OC-192 optical span:

Clean and connect the transmit optical fibers.
Measure the optical receive power of the receive fibers using an optical power meter. Select the appropriate LBO to attenuate the receive signal to the middle of the allowable optical receive power range. (Refer to the Alcatel-Lucent 1665 Data Multiplexer (DMX) Applications and Planning Guide, 365-372-300 for the SONET optical specifications of the OC-192 circuit packs.)
Clean and connect the receive fibers.

Result:

The inc. OC192 LOS alarms clear. Transmission is now supported on the upgraded optical span.

Reference:

Procedure 14-4: Perform connection and verification of optical facility

Important!

At each node in the BLSR, the system reports the ring upgrade mode standing condition (not alarmed) in the NE Alarm List until the node is manually provisioned back to the Normal mode.

At each node in the BLSR, click the Alarm List button in the top right corner of the System View to view the NE Alarm List and verify that no alarms or standing conditions are present (except ring upgrade mode and ABN condition).

Refer to the appropriate trouble clearing procedures to clear all existing alarms and standing conditions (except ring upgrade mode and ABN condition) before continuing with this procedure.

Reference:

Alcatel-Lucent 1665 Data Multiplexer (DMX) Alarm Messages and Trouble Clearing Guide, 365-372-302

Important!

The network must be alarm free with normal transmission before manually provisioning the nodes back to the Normal mode. After a node is manually provisioned back to the Normal mode, the node cannot be returned to the pre-upgrade state using the backout procedure.

At each node in the BLSR, select Configuration → Normal Mode.

Result:

A dialog box appears asking you to confirm changing the NE Mode to Normal mode. Click Yes.

The ABN LED is turned off on the SYSCTL circuit pack faceplate and the Ring Upgrade Mode will be removed from the WaveStar^® CIT alarm list.

At each node in the BLSR, select View → Protection to access the 2F BLSR main-1-1 protection group and click Select. Click on the Provisionable Parameters tab and observe the Automatic Ring Discovery parameter.

If required, select Configuration → Equipment to access the 2F BLSR main-1-1 protection group and Enable Automatic Ring Discovery.

Important!

It is recommended that the network element database be backed up to a remote OS (for example, OMS) after an upgrade. This creates a current backup copy that includes the replacement circuit packs. The remote OS could use this backup copy to restore the network element database in the event of a catastrophic failure. Attempts to restore the network element database using a backup copy created prior to the upgrade may result in circuit pack failures.

At each node in the BLSR, back up the network element database using the Configuration → Software → Remote Backup command.

Reference:

End of steps

BLSR example

Starting Node: Alcatel-Lucent 1665 DMX Node N

Starting Circuit Pack: Main-2 at the Starting Node

Direction of Upgrade: Clockwise around BLSR from Main-2 at the Starting Node to Main-1 at the adjacent node.