Cisco ASR 9000 Series Aggregation Services Router Interface and Hardware Component Configuration Guide, Release 5.1.x
Configuring Dense Wavelength Division Multiplexing Controllers
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Table of Contents

Configuring Dense Wavelength Division Multiplexing Controllers on the Cisco ASR 9000 Series Router

Contents

Prerequisites for Configuring DWDM Controller Interfaces

Information About the DWDM Controllers

Information about IPoDWDM

How to Configure DWDM Controllers

Configuring the Optical Parameters

Prerequisites

Restrictions

Troubleshooting Tips

Configuring G.709 Parameters

Prerequisites

What to Do Next

How to Perform Performance Monitoring on DWDM Controllers

Configuring DWDM Controller Performance Monitoring

Configuring IPoDWDM

Configuring the Optical Layer DWDM Ports

Configuring the Administrative State of DWDM Optical Ports

Configuring Proactive FEC-FRR Triggering

Configuration Examples

Turning On the Laser: Example

Turning Off the Laser: Example

DWDM Controller Configuration: Examples

DWDM Performance Monitoring: Examples

IPoDWDM Configuration: Examples

Optical Layer DWDM Port Configuration: Examples

Administrative State of DWDM Optical Ports Configuration: Examples

Proactive FEC-FRR Triggering Configuration: Examples

Additional References

Related Documents

Standards

MIBs

RFCs

Technical Assistance

Configuring Dense Wavelength Division Multiplexing Controllers on the Cisco ASR 9000 Series Router

This module describes the configuration of dense wavelength division multiplexing (DWDM) controllers on the Cisco ASR 9000 Series Aggregation Services Routers.

DWDM is an optical technology that is used to increase bandwidth over existing fiber-optic backbones. DWDM can be configured on supported 10-Gigabit Ethernet (GE) line cards. After you configure the DWDM controller, you can configure an associated 10-Gigabit Ethernet interface.

Feature History for Configuring DWDM Controller Interfaces

Release
Modification

Release 3.9.0

This feature was introduced on the Cisco ASR 9000 Series Router on the following cards:

  • Cisco 8-Port 10 Gigabit Ethernet Line Card (A9K-8T-L and -E)
  • Cisco 2-port 10 Gigabit Ethernet + 20-port Gigabit Ethernet Combination Line Card (A9K-2T20GE-L)

Release 3.9.1

Support for the following cards was added:

  • Cisco 8-Port 10 Gigabit Ethernet Line Card (A9K-8T-B)
  • Cisco 2-port 10 Gigabit Ethernet + 20-port Gigabit Ethernet Combination Line Card (A9K-2T20GE-B and -E)

Release 4.0.0

Support for IPoDWDM Proactive Protection was added on these cards:

  • Cisco 8-Port 10 Gigabit Ethernet Line Card (A9K-8T-L, -B, and -E)
  • Cisco 2-port 10 Gigabit Ethernet + 20-port Gigabit Ethernet Combination Line Card (A9K-2T20GE-L, -B, and -E)

Release 4.2.1

Support for IPoDWDM Proactive Protection was added on these Module Port Adaptors:

  • A9K-MPA-4x10GE
  • A9K-MPA-2X10GE

Release 4.2.3

Support for IPoDWDM Proactive Protection was added on these Module Port Adaptors:

  • A9K-MPA-2X40GE
  • A9K-MPA-1X40GE

Prerequisites for Configuring DWDM Controller Interfaces

You must be in a user group associated with a task group that includes the proper task IDs. The command reference guides include the task IDs required for each command. If you suspect user group assignment is preventing you from using a command, contact your AAA administrator for assistance.

Before configuring a DWDM controller, be sure that you have installed one of the following cards that support DWDM:

  • Cisco 8-Port 10 Gigabit Ethernet Line Card
  • Cisco 2-port 10 Gigabit Ethernet + 20-port Gigabit Ethernet Combination Line Card

Information About the DWDM Controllers

DWDM support in Cisco IOS XR software is based on the Optical Transport Network (OTN) protocol that is specified in ITU-T G.709. This standard combines the benefits of SONET/SDH technology with the multiwavelength networks of DWDM. It also provides for forward error correction (FEC) that can allow a reduction in network costs by reducing the number of regenerators used.

To enable multiservice transport, OTN uses the concept of a wrapped overhead (OH). To illustrate this structure:

  • Optical channel payload unit (OPU) OH information is added to the information payload to form the OPU. The OPU OH includes information to support the adaptation of client signals.
  • Optical channel data unit (ODU) OH is added to the OPU to create the ODU. The ODU OH includes information for maintenance and operational functions to support optical channels.
  • Optical channel transport unit (OTU) OH together with the FEC is added to form the OTU. The OTU OH includes information for operational functions to support the transport by way of one or more optical channel connections.
  • Optical channel (OCh) OH is added to form the OCh. The OCh provides the OTN management functionality and contains four subparts: the OPU, ODU, OTU, and frame alignment signal (FAS). See Figure 34.

Figure 34 OTN Optical Channel Structure

 

Information about IPoDWDM

Cisco IOS XR software includes the IP over Dense Wavelength Division Multiplexing (IPoDWDM) feature.

IPoDWDM is supported on the following hardware devices:

  • Cisco 8-Port 10 Gigabit Ethernet Line Card
  • Cisco 2-port 10 Gigabit Ethernet + 20-port Gigabit Ethernet Combination Line Card

IPoDWDM currently provides these software features:

  • Proactive Maintenance

Proactive Maintenance

Proactive maintenance automatically triggers Forward Error Correction-Fast Re-Route (FEC-FRR). Proactive maintenance requires coordinated maintenance between Layer 0 (L0) and Layer 3 (L3).
L0 is the DWDM optical layer. FEC-FRR is an L3 protection mechanism. FEC-FRR detects failures before they happen and corrects errors introduced during transmission or that are due to a degrading signal.

System administrators can configure the following IPoDWDM features:

FEC-FRR Triggering

FEC-FRR can be configure to be triggered by the following alarms:

  • ais – Alarm Indication Signal (AIS)
  • bdi – Backward Defect Indication (BDI)
  • *bdiO – Backward Defect Indication - Overhead (BDI-O)
  • *bdiP – Backward Defect Indication - Payload (BDI-P)
  • *deg – Degraded (DEG)
  • lck – Locked (LCK)
  • lof – Loss of Frame (LOF)
  • lom – Loss of Multi Frame
  • los – Loss of Signal (LOS)
  • *losO – Loss of Signal - Overhead (LOS-O)
  • *losP – Loss of Signal - Payload (LOS-P)
  • oci – Open Connection Indication (OCI)
  • plm – Payload Mismatch (PLM)
  • *ssf – Server Signal Failure (SSF)
  • *ssfO – Server Signal Failure - Overhead (SSF-O)
  • *ssfP – Server Signal Failure - Payload (SSF-P)
  • tim – Trace Identifier Mismatch (TIM)

Signal Logging

DWDM statistic data, such as EC, UC and alarms, are collected and stored in the log file on the DWDM line card.

How to Configure DWDM Controllers

The DWDM controllers are configured in the physical layer control element of the Cisco IOS XR software configuration space. This configuration is done using the controller dwdm command, and is described in the following task:


Note All interface configuration tasks for Gigabit Ethernet interfaces still must be performed in interface configuration mode.


Configuring the Optical Parameters

This task describes how to configure the receive power threshold and the wavelength parameters for the DWDM controller. You should verify that the optical parameters are configured correctly for your DWDM installation and if necessary, perform this task.

Prerequisites

The rx-los-threshold , wavelength and transmit-power commands can be used only when the controller is in the shutdown state. Use the shutdown command.

Restrictions

The transmit power level and receive LOS threshold are configurable only on the Cisco Cisco 1-Port OC-768c/STM-256c DWDM PLIM.

SUMMARY STEPS

1. configure

2. controller dwdm interface-path-id

3. admin-state { maintenance | out-of-service }

4. commit

5. rx-los-threshold power-level

6. wavelength channel-number

7. transmit-power power-level

8. end
or
commit

9. admin-state in-service

10. show controllers dwdm interface-path-id [ optics | wavelength-map ]

DETAILED STEPS

Troubleshooting Tips

Command or Action
Purpose

Step 1

configure

 

RP/0/RP0/CPU0:Router# configure

Enters global configuration mode.

Step 2

controller dwdm interface-path-id

 

RP/0/RP0/CPU0:Router(config)# controller dwdm 0/1/0/0

Specifies the DWDM controller name in the notation rack/slot/module/port and enters DWDM configuration mode.

Step 3

admin-state { maintenance | out-of-service }

 

RP/0/RP0/CPU0:Router(config-dwdm)# admin-state maintenance

Specifies the DWDM interface administrative state. You must put the controller in maintenance or out-of-service state before you can use the DWDM configuration commands.

Step 4

commit

 

RP/0/RP0/CPU0:Router(config-dwdm)# commit

Saves configuration changes. This performs the shutdown from the previous step. When the controller has been shut down, you can proceed with the configuration.

Step 5

rx-los-threshold power-level

 

RP/0/RP0/CPU0:Router(config-dwdm)# rx-los-threshold -10

Configures the transponder receive power threshold. Values are in units of 0.1 dBm and can range from -350 to 50. This corresponds to a range of -35 dBm to 5 dBm.

Step 6

wavelength channel-number

 

RP/0/RP0/CPU0:Router(config-dwdm)# wavelength 1

Configures the channel number corresponding to the first wavelength. Values can range from 1 to 185, but not all channels are supported on all PLIMs. Use the show controller dwdm command with the wavelength-map keyword to determine which channels and wavelengths are supported on a specific controller.

Note There is no cross-checking to determine if the chosen wavelength is being used on another port on the same PLIM or on another PLIM in the system.

Step 7

transmit-power power-level

 

RP/0/RP0/CPU0:Router(config-dwdm)# transmit-power 10

Configures the transponder transmit power. Values are in units of 0.1 dBm and can range from -190 to +10. This corresponds to a range of -19 dBm to +1 dBm.

Step 8

end

or

commit

 

RP/0/RP0/CPU0:Router(config-dwdm)# end

or

RP/0/RP0/CPU0:Router(config-dwdm)# commit

Saves configuration changes.

  • When you issue the end command, the system prompts you to commit changes:
Uncommitted changes found, commit them before exiting(yes/no/cancel)? [cancel]:
 

Entering yes saves configuration changes to the running configuration file, exits the configuration session, and returns the router to EXEC mode.

Entering no exits the configuration session and returns the router to EXEC mode without committing the configuration changes.

Entering cancel leaves the router in the current configuration session without exiting or committing the configuration changes.

  • Use the commit command to save the configuration changes to the running configuration file and remain within the configuration session.

Step 9

admin-state in-service

 

RP/0/RP0/CPU0:Router(config-dwdm)# admin-state in-service

Places the DWDM port in In Service (IS) state, to support all normal operation.

Step 10

show controllers dwdm interface-path-id [ optics | wavelength-map ]

 

RP/0/RP0/CPU0:Router# show controller dwdm 0/1/0/0 optics

Displays the output power level, input power level, wavelength, and laser bias current monitoring information.

You will get an error message if you try to commit configuration changes to the controller when it is in the up state. You must use the admin-states maintenance or admin-states out-of-service command before you can use the DWDM configuration commands.

Configuring G.709 Parameters

This task describes how to customize the alarm display and the thresholds for alerts and forward error correction (FEC). You need to use this task only if the default values are not correct for your installation.

Prerequisites

The loopback , and g709 fec commands can be used only when the controller is in the shutdown state. Use the admin-state command.

SUMMARY STEPS

1. configure

2. controller dwdm interface-path-id

3. admin-state maintenance
or
admin-state out-of-service

4. commit

5. loopback { internal | line }

6. g709 fec { disable | enhanced | standard }

7. g709 { odu | otu } report alarm disable

8. g709 otu overhead tti { expected | sent } { ascii | hex } tti-string

9. end
or
commit

10. admin-state in-service

11. show controllers dwdm interface-path-id g709

DETAILED STEPS

 

Command or Action
Purpose

Step 1

configure

 

RP/0/RSP0/CPU0:Router# configure

Enters global configuration mode.

Step 2

controller dwdm interface-path-id

 

RP/0/RSP0/CPU0:Router(config)# controller dwdm 0/1/0/0

Specifies the DWDM controller name in the notation rack/slot/module/port and enters DWDM configuration mode.

Step 3

admin-state maintenance

or

admin-state out-of-service

 

RP/0/RSP0/CPU0:Router(config-dwdm)# admin-state out-of-service

Disables the DWDM controller. You must disable the controller before you can use the DWDM configuration commands.

Step 4

commit

 

RP/0/RSP0/CPU0:Router(config-dwdm)# commit

Saves configuration changes. This performs the shutdown from the previous step. When the controller has been shut down, you can proceed with the configuration.

Step 5

loopback { internal | line }

 

RP/0/RSP0/CPU0:Router(config-dwdm)# loopback internal

(Optional) Configures the DWDM controller for loopback mode.

Step 6

g709 fec { disable | standard }

 

RP/0/RSP0/CPU0:Router(config-dwdm)# g709 fec disable

(Optional) Configures the forward error correction mode (FEC) for the DWDM controller. By default, enhanced FEC is enabled.

Step 7

g709 { odu | otu } report alarm disable

 

RP/0/RSP0/CPU0:Router(config-dwdm)# g709 odu bdi disable

(Optional) Disables the logging of selected optical channel data unit (ODU) alarms or optical channel transport unit (OTU) alarms to the console for a DWDM controller. By default, all alarms are logged to the console.

Step 8

g709 otu overhead tti { expected | sent } { ascii | hex } tti-string

 

RP/0/RSP0/CPU0:Router(config-dwdm)# g709 otu overhead tti expected ascii test OTU 5678

Configures a transmit or expected Trail Trace Identifier (TTI) that is displayed in the show controller dwdm command.

Step 9

end

or

commit

 

RP/0/RSP0/CPU0:Router(config-dwdm)# end

or

RP/0/RSP0/CPU0:Router(config-dwdm)# commit

Saves configuration changes.

  • When you issue the end command, the system prompts you to commit changes:
Uncommitted changes found, commit them before exiting(yes/no/cancel)? [cancel]:
 

Entering yes saves configuration changes to the running configuration file, exits the configuration session, and returns the router to EXEC mode.

Entering no exits the configuration session and returns the router to EXEC mode without committing the configuration changes.

Entering cancel leaves the router in the current configuration session without exiting or committing the configuration changes.

  • Use the commit command to save the configuration changes to the running configuration file and remain within the configuration session.

Step 10

admin-state in-service

 

RP/0/RSP0/CPU0:Router(config-dwdm)# admin-state in-service

Places the DWDM port in In Service (IS) state, to support all normal operation.

Step 11

show controllers dwdm interface-path-id g709

 

RP/0/RSP0/CPU0:Router# show controller dwdm 0/1/0/0 optics

Displays the G.709 Optical Transport Network (OTN) protocol alarms and counters for Bit Errors, along with the FEC statistics and threshold-based alerts.

What to Do Next

All interface configuration tasks for the Gigabit Ethernet interfaces still must be performed in interface configuration mode. Refer to the corresponding modules in this book for more information.

How to Perform Performance Monitoring on DWDM Controllers

Performance monitoring parameters are used to gather, store, set thresholds for, and report performance data for early detection of problems. Thresholds are used to set error levels for each performance monitoring parameter. During the accumulation cycle, if the current value of a performance monitoring parameter reaches or exceeds its corresponding threshold value, a threshold crossing alert (TCA) can be generated. The TCAs provide early detection of performance degradation.

Performance monitoring statistics are accumulated on a 15-minute basis, synchronized to the start of each quarter-hour. They are also accumulated on a daily basis starting at midnight. Historical counts are maintained for thirty-three 15-minute intervals and two daily intervals.

Performance monitoring is described in the following task:

Configuring DWDM Controller Performance Monitoring

This task describes how to configure performance monitoring on DWDM controllers and how to display the performance parameters.

SUMMARY STEPS

1. configure

2. controller dwdm interface-path-id

3. pm { 15-min | 24-hour } fec threshold { ec-bits | uc-words } threshold

4. pm { 15-min | 24-hour } optics threshold { lbc | opr | opt } { max | min } threshold

5. pm { 15-min | 24-hour } otn threshold otn-parameter threshold

6. pm { 15-min | 24-hour } fec report { ec-bits | uc-words } enable

7. pm { 15-min | 24-hour } optics report { lbc | opr | opt } { max-tca | min-tca } enable

8. pm { 15-min | 24-hour } otn report otn-parameter enable

9. end
or
commit

10. show controllers dwdm interface-path-id pm history [ 15-min | 24-hour | fec | optics | otn ]

11. show controllers dwdm interface-path-id pm interval { 15-min | 24-hour } [ fec | optics | otn ] index

DETAILED STEPS

 

Command or Action
Purpose

Step 1

configure

 

RP/0/RSP0/CPU0:Router# configure

Enters global configuration mode.

Step 2

controller dwdm interface-path-id

 

RP/0/RSP0/CPU0:Router(config)# controller dwdm 0/1/0/0

Specifies the DWDM controller name in the notation rack/slot/module/port and enters DWDM configuration mode.

Step 3

pm { 15-min | 24-hour } fec threshold { ec-bits | uc-words } threshold

 

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min fec threshold ec-bits 49000000

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min fec threshold uc-words xxxxxx

Configures a performance monitoring threshold for specific parameters on the FEC layer.

Step 4

pm { 15-min | 24-hour } optics threshold { lbc | opr | opt } { max | min } threshold

 

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics threshold opt max xxx

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics threshold lbc min xxx

Configures a performance monitoring threshold for specific parameters on the optics layer.

Step 5

pm { 15-min | 24-hour } otn threshold otn-parameter threshold
 

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min otn threshold bbe-pm-ne xxx

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min otn threshold es-sm-fe xxx

Configures a performance monitoring threshold for specific parameters on the optical transport network (OTN) layer. OTN parameters can be as follows:

  • bbe-pm-fe —Far-end path monitoring background block errors (BBE-PM)
  • bbe-pm-ne —Near-end path monitoring background block errors (BBE-PM)
  • bbe-sm-fe —Far-end section monitoring background block errors (BBE-SM)
  • bbe-sm-ne —Near-end section monitoring background block errors (BBE-SM)
  • bber-pm-fe —Far-end path monitoring background block errors ratio (BBER-PM)
  • bber-pm-ne —Near-end path monitoring background block errors ratio (BBER-PM)
  • bber-sm-fe —Far-end section monitoring background block errors ratio (BBER-SM)
  • bber-sm-ne —Near-end section monitoring background block errors ratio (BBER-SM)
  • es-pm-fe —Far-end path monitoring errored seconds (ES-PM)
  • es-pm-ne —Near-end path monitoring errored seconds (ES-PM)
  • es-sm-fe —Far-end section monitoring errored seconds (ES-SM)
  • es-sm-ne —Near-end section monitoring errored seconds (ES-SM)
  • esr-pm-fe —Far-end path monitoring errored seconds ratio (ESR-PM)
  • esr-pm-ne —Near-end path monitoring errored seconds ratio (ESR-PM)
  • esr-sm-fe —Far-end section monitoring errored seconds ratio (ESR-SM)
  • esr-sm-ne —Near-end section monitoring errored seconds ratio (ESR-SM)
  • fc-pm-fe —Far-end path monitoring failure counts (FC-PM)
  • fc-pm-ne —Near-end path monitoring failure counts (FC-PM)
  • fc-sm-fe —Far-end section monitoring failure counts (FC-SM)
  • fc-sm-ne —Near-end section monitoring failure counts (FC-SM)
  • ses-pm-fe —Far-end path monitoring severely errored seconds (SES-PM)
  • ses-pm-ne —Near-end path monitoring severely errored seconds (SES-PM)
  • ses-sm-fe —Far-end section monitoring severely errored seconds (SES-SM)
  • ses-sm-ne —Near-end section monitoring severely errored seconds (SES-SM)
  • sesr-pm-fe —Far-end path monitoring severely errored seconds ratio (SESR-PM)
  • sesr-pm-ne —Near-end path monitoring severely errored seconds ratio (SESR-PM)
  • sesr-sm-fe —Far-end section monitoring severely errored seconds ratio (SESR-SM)
  • sesr-sm-ne —Near-end section monitoring severely errored seconds ratio (SESR-SM)
  • uas-pm-fe —Far-end path monitoring unavailable seconds (UAS-PM)
  • uas-pm-ne —Near-end path monitoring unavailable seconds (UAS-PM)
  • uas-sm-fe —Far-end section monitoring unavailable seconds (UAS-SM)
  • uas-sm-ne —Near-end section monitoring unavailable seconds (UAS-SM)

Step 6

pm { 15-min | 24-hour } fec report { ec-bits | uc-words } enable

 

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min fec report ec-bits enable

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min fec report uc-words enable

Configures threshold crossing alert (TCA) generation for specific parameters on the FEC layer.

Step 7

pm { 15-min | 24-hour } optics report { lbc | opr | opt } { max-tca | min-tca } enable

 

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics report opt enable

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics report lbc enable

Configures TCA generation for specific parameters on the optics layer.

Step 8

pm { 15-min | 24-hour } otn report otn-parameter enable
 

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min otn report bbe-pm-ne enable

RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min otn report es-sm-fe enable

Configures TCA generation for specific parameters on the optical transport network (OTN) layer. OTN parameters are shown in Step 5.

Step 9

end

or

commit

 

RP/0/RSP0/CPU0:Router(config-dwdm)# end

or

RP/0/RSP0/CPU0:Router(config-dwdm)# commit

Saves configuration changes.

  • When you issue the end command, the system prompts you to commit changes:
Uncommitted changes found, commit them before exiting(yes/no/cancel)? [cancel]:
 

Entering yes saves configuration changes to the running configuration file, exits the configuration session, and returns the router to EXEC mode.

Entering no exits the configuration session and returns the router to EXEC mode without committing the configuration changes.

Entering cancel leaves the router in the current configuration session without exiting or committing the configuration changes.

  • Use the commit command to save the configuration changes to the running configuration file and remain within the configuration session.

Configuring IPoDWDM

This section provides the following configuration procedures:

Configuring the Optical Layer DWDM Ports

Use the following procedure to configure the Optical Layer DWDM ports.

SUMMARY STEPS

1. configure

2. controller dwdm interface-path-id

3. network port id id-number

4. network connection id id-number

5. end
or
commit

DETAILED STEPS

 

Command or Action
Purpose

Step 1

configure

 

RP/0/RSP0/CPU0:Router# config

Enters global configuration mode.

Step 2

controller dwdm interface-path-id

 

RP/0/RSP0/CPU0:Router(config)# controller dwdm 0/1/0/1

Specifies the DWDM controller and enters DWDM controller mode.

Step 3

network port id id-number

 

RP/0/RSP0/CPU0:Router(config-dwdm)# network port id 1/0/1/1

Assigns an identifier number to a port for the Multi Service Transport Protocol (MSTP).

Step 4

network connection id id-number

 

RP/0/RSP0/CPU0:Router(config-dwdm)# network connection id 1/1/1/1

Configures a connection identifier for the Multi Service Transport Protocol (MSTP).

Step 5

end

or

commit

 

RP/0/RSP0/CPU0:Router(config-dwdm)# end

or

RP/0/RSP0/CPU0:Router(config-dwdm)# commit

Saves configuration changes.

  • When you issue the end command, the system prompts you to commit changes:
Uncommitted changes found, commit them before exiting(yes/no/cancel)? [cancel]:
 

Entering yes saves configuration changes to the running configuration file, exits the configuration session, and returns the router to EXEC mode.

Entering no exits the configuration session and returns the router to EXEC mode without committing the configuration changes.

Entering cancel leaves the router in the current configuration session without exiting or committing the configuration changes.

  • Use the commit command to save the configuration changes to the running configuration file and remain within the configuration session.

Configuring the Administrative State of DWDM Optical Ports

Use the following procedure to configure the administrative state and optionally set the maintenance embargo flag.

SUMMARY STEPS

1. configure

2. controller dwdm interface-path-id

3. admin-state { in-service | maintenance | out-of-service }

4. exit

5. interface tengige interface-path-id

6. maintenance disable

7. end
or
commit

DETAILED STEPS

 

Command or Action
Purpose

Step 1

configure

 

RP/0/RSP0/CPU0:Router# config

Enters global configuration mode.

Step 2

controller dwdm interface-path-id

 

RP/0/RSP0/CPU0:Routerconfig)# controller dwdm 0/1/0/1

Specifies the DWDM controller and enters DWDM controller mode.

Step 3

admin-state { in-service | maintenance | out-of-service }

 

RP/0/RSP0/CPU0:Router(config-dwdm)# admin-state maintenance

Specifies the transport administration state.

Step 4

exit

 

RP/0/RSP0/CPU0:Router(config-dwdm)# exit

Exits to the previous mode.

Step 5

interface pos interface-path-id

or

interface tengige interface-path-id

 

RP/0/RSP0/CPU0:Router(config)# interface pos 1/0/1/1

or

RP/0/RSP0/CPU0:Router(config)# interface tengige 1/0/1/1

Specifies the interface and enters interface configuration mode.

Step 6

maintenance disable

 

RP/0/RSP0/CPU0:Router(config-if)# maintenance disable

Provisions the maintenance embargo flag, which prevents maintenance activities from being performed on an interface.

Step 7

end

or

commit

 

RP/0/RSP0/CPU0:Router(config-dwdm)# end

or

RP/0/RSP0/CPU0:Router(config-dwdm)# commit

Saves configuration changes.

  • When you issue the end command, the system prompts you to commit changes:
Uncommitted changes found, commit them before exiting(yes/no/cancel)? [cancel]:
 

Entering yes saves configuration changes to the running configuration file, exits the configuration session, and returns the router to EXEC mode.

Entering no exits the configuration session and returns the router to EXEC mode without committing the configuration changes.

Entering cancel leaves the router in the current configuration session without exiting or committing the configuration changes.

  • Use the commit command to save the configuration changes to the running configuration file and remain within the configuration session.

Configuring Proactive FEC-FRR Triggering

Use the following procedure to configure automatic triggering of Forward Error Correction-Fast Re-Route (FEC-FRR).

SUMMARY STEPS

1. configure

2. controller dwdm interface-path-id

3. proactive

4. logging signal file-name

5. proactive trigger threshold x-coefficient y-power

6. proactive trigger window window

7. proactive revert threshold x-coefficient y-power

8. proactive revert window window

9. end
or
commit

DETAILED STEPS

 

Command or Action
Purpose

Step 1

configure

 

RP/0/RSP0/CPU0:Router# config

Enters global configuration mode.

Step 2

controller dwdm interface-path-id

 

RP/0/RSP0/CPU0:Router(config)# controller dwdm 0/1/0/1

Specifies the DWDM controller and enters DWDM controller mode.

Step 3

proactive

 

RP/0/RSP0/CPU0:Router(config-dwdm)# proactive enable

Enables automatic triggering of FEC-FRR.

Step 4

logging signal file-name

 

RP/0/RSP0/CPU0:Router(config-dwdm)# logging signal LogFile1

Enables10 millisecond proactive monitoring of FEC-FRR.

Step 5

proactive trigger threshold x-coefficient y-power

 

RP/0/RSP0/CPU0:Routerconfig-dwdm)# proactive trigger threshold 1 9

Configures the trigger threshold of FEC-FRR in the form of x E- y .

Step 6

proactive trigger window window

 

RP/0/RSP0/CPU0:Router(config-dwdm)# proactive trigger window 10000

Configures the trigger window (in milliseconds) in which FRR may be triggered.

Step 7

proactive revert threshold x-coefficient y-power

 
RP/0/RSP0/CPU0:Router(config-dwdm)# proactive revert threshold 1 9

Configures the revert threshold (in the form of x E- y ) to trigger reverting from the FEC-FRR route back to the original route.

Step 8

proactive revert window window

 

RP/0/RSP0/CPU0:Router(config-dwdm)# proactive revert window 600000

Configures the revert window in which reverting from the FEC-FRR route back to the original route is triggered.

Step 9

end

or

commit

 

RP/0/RSP0/CPU0:Router(config-dwdm)# end

or

RP/0/RSP0/CPU0:Router(config-dwdm)# commit

Saves configuration changes.

  • When you issue the end command, the system prompts you to commit changes:
Uncommitted changes found, commit them before exiting(yes/no/cancel)? [cancel]:
 

Entering yes saves configuration changes to the running configuration file, exits the configuration session, and returns the router to EXEC mode.

Entering no exits the configuration session and returns the router to EXEC mode without committing the configuration changes.

Entering cancel leaves the router in the current configuration session without exiting or committing the configuration changes.

  • Use the commit command to save the configuration changes to the running configuration file and remain within the configuration session.

Configuration Examples

This section includes the following examples:

Turning On the Laser: Example


Note This is a required configuration. The DWDM cards will not operate without this configuration.


The following example shows how to turn on the laser and place a DWDM port in In Service (IS) state:

RP/0/RP0/CPU0:router# configure
RP/0/RP0/CPU0:Router(config)# controller dwdm 0/1/0/1
RP/0/RP0/CPU0:Router(config-dwdm)# admin-state in-service
RP/0/RP0/CPU0:Router(config-dwdm)# commit

Turning Off the Laser: Example

The following example shows how to turn off the laser, stop all traffic and place a DWDM port in Out of Service (OOS) state:

RP/0/RP0/CPU0:router# configure
RP/0/RP0/CPU0:Router(config)# controller dwdm 0/1/0/1
RP/0/RP0/CPU0:Router(config-dwdm)# admin-state out-of-service
RP/0/RP0/CPU0:Router(config-dwdm)# commit

DWDM Controller Configuration: Examples

The following example shows how to customize the alarm display and the thresholds for alerts and forward error correction (FEC):

RP/0/RSP0/CPU0:Router# configure

RP/0/RSP0/CPU0:Router(config)# controller dwdm 0/1/0/0

RP/0/RSP0/CPU0:Router(config-dwdm)# maintenance out-of-service

RP/0/RSP0/CPU0:Router(config-dwdm)# commit

RP/0/RSP0/CPU0:Router(config-dwdm)# g709 disable

RP/0/RSP0/CPU0:Router(config-dwdm)# loopback internal

RP/0/RSP0/CPU0:Router(config-dwdm)# g709 fec standard

RP/0/RSP0/CPU0:Router(config-dwdm)# g709 odu bdi disable

RP/0/RSP0/CPU0:Router(config-dwdm)# maintenance in-service

RP/0/RSP0/CPU0:Router(config-dwdm)# commit

DWDM Performance Monitoring: Examples

The following example shows how to configure performance monitoring for the optics parameters and how to display the configuration and current statistics:

RP/0/RSP0/CPU0:Router# configure
RP/0/RSP0/CPU0:Router(config)# controller dwdm 0/2/0/0
 
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics threshold opt max 2000000
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics threshold opt min 200
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics threshold lbc max 3000000
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics threshold lbc min 300
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics threshold opr max 4000000
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics threshold opr min 400
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics report opt max-tca enable
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics report opt min-tca enable
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics report opr max-tca enable
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics report opr min-tca enable
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics report lbc max-tca enable
RP/0/RSP0/CPU0:Router(config-dwdm)# pm 15-min optics report lbc min-tca enable
RP/0/RSP0/CPU0:Router(config-dwdm)# exit
RP/0/RSP0/CPU0:Router(config)# exit
 
Uncommitted changes found, commit them before exiting(yes/no/cancel)? [cancel]:y
 
LC/0/2/CPU0:Jul 12 04:10:47.252 : plim_4p_10ge_dwdm[194]: %L1-PMENGINE-4-TCA : Port DWDM 0/2/0/0 reports OPTICS TX-PWR-MIN(NE) PM TCA with current value 0, threshold 200 in current 15-min interval window
LC/0/2/CPU0:Jul 12 04:10:47.255 : plim_4p_10ge_dwdm[194]: %L1-PMENGINE-4-TCA : Port DWDM 0/2/0/0 reports OPTICS RX-PWR-MIN(NE) PM TCA with current value 68, threshold 400 in current 15-min interval window
RP/0/RP1/CPU0:Jul 12 04:09:05.443 : config[65678]: %MGBL-CONFIG-6-DB_COMMIT : Configuration committed by user 'lab'. Use 'show configuration commit changes 1000000001' to view the changes.
RP/0/RP1/CPU0:Jul 12 04:09:05.604 : config[65678]: %MGBL-SYS-5-CONFIG_I : Configured from console by lab
 
RP/0/RSP0/CPU0:Router# show controllers dwdm 0/2/0/0 pm interval 15-min optics 0
 
Optics in the current interval [ 4:15:00 - 04:26:02 Wed Jul 12 2006]
MIN AVG MAX Threshold TCA Threshold TCA
(min) (enable) (max) (enable)
LBC[mA ] : 3605 4948 6453 300 YES 3000000 YES
OPT[uW] : 2593 2593 2593 200 YES 2000000 YES
OPR[uW] : 69 69 70 400 YES 4000000 YES

Optical Layer DWDM Port Configuration: Examples

The following example shows how to configure Optical Layer DWDM ports.

RP/0/RSP0/CPU0:Router# configure
RP/0/RSP0/CPU0:Router(config)# controller dwdm 0/1/0/1
RP/0/RSP0/CPU0:Router(config-dwdm)# network port id 1/0/1/1
RP/0/RSP0/CPU0:Router(config-dwdm)# network connection id 1/1/1/1

Administrative State of DWDM Optical Ports Configuration: Examples

The following examples show how to configure the administrative state and optionally set the maintenance embargo flag:

RP/0/RSP0/CPU0:Router# configure
RP/0/RSP0/CPU0:Router(config)# controller dwdm 0/1/0/1
RP/0/RSP0/CPU0:Router(config-dwdm)# admin-state in-service
RP/0/RSP0/CPU0:Router(config-dwdm)# exit
RP/0/RSP0/CPU0:Router(config)# interface tengige 1/0/1/1
RP/0/RSP0/CPU0:Router(config-if)# maintenance disable
RP/0/RSP0/CPU0:Router(config-if)# commit

Proactive FEC-FRR Triggering Configuration: Examples

The following example shows how to configure automatic triggering of Forward Error Correction-Fast Re-Route (FEC-FRR):

RP/0/RSP0/CPU0:Router# configure
RP/0/RSP0/CPU0:Router(config)# controller dwdm 0/1/0/1
RP/0/RSP0/CPU0:Router(config-dwdm)# proactive
RP/0/RSP0/CPU0:Router(config-dwdm)# logging signal LogFile1
RP/0/RSP0/CPU0:Router(config-dwdm)# proactive trigger threshold 1 9
RP/0/RSP0/CPU0:Router(config-dwdm)# proactive trigger window 10000
RP/0/RSP0/CPU0:Router(config-dwdm)# proactive revert threshold 1 9
RP/0/RSP0/CPU0:Router(config-dwdm)# proactive revert window 600000

Additional References

The following sections provide references related to DWDM controller configuration.

Related Documents

 

Related Topic
Document Title

Cisco IOS XR master command reference

Cisco IOS XR Master Commands List

Cisco IOS XR interface configuration commands

Cisco IOS XR Interface and Hardware Component Command Reference

Initial system bootup and configuration information for a router using Cisco IOS XR software

Cisco IOS XR Getting Started Guide

Cisco IOS XR AAA services configuration information

Cisco IOS XR System Security Configuration Guide and
Cisco IOS XR System Security Command Reference

Standards

 

Standards
Title

ITU-T G.709/Y.1331

Interfaces for the optical transport network (OTN)

MIBs

 

MIBs
MIBs Link

To locate and download MIBs for selected platforms using Cisco IOS XR software, use the Cisco MIB Locator found at the following URL:

http://cisco.com/public/sw-center/netmgmt/cmtk/mibs.shtml

OTN-MIB

IPoDWDM MIB

RFCs

 

RFCs
Title

No new or modified RFCs are supported by this feature, and support for existing RFCs has not been modified by this feature.

Technical Assistance

 

Description
Link

The Cisco Technical Support website contains thousands of pages of searchable technical content, including links to products, technologies, solutions, technical tips, and tools. Registered Cisco.com users can log in from this page to access even more content.

http://www.cisco.com/techsupport