Configure the NCS4K-2H-W Card

This chapter explains the NCS4K-2H-W card and its key features. This chapter also provides the CTC procedures to configure the card.

NCS4K-2H-W Card

The DWDM cards is a tunable DWDM trunk card, which simplifies the integration and transport of two 100 Gigabit Ethernet or OTU-4 signals into enterprises or service provider networks. The card is ITU-T G.709 compliant and supports 96 wavelengths, spaced at 50-GHz over the entire C band. The card is supported on Cisco NCS 4000 series.

The card has two pluggable client interfaces that can be used to provide transponder capabilities. The client port supports pluggable interface that is compliant with 100G-BASESR10 LAN PHY or OTU4 and 100G-BaseLR-4 or OTU4 interfaces. The trunk port supports only the OTU4 interface. The trunk ports support Baud rate between 27.952 Gbaud and 31.241 Gbaud, depending on FEC selection and G.709v3 OTU4 digital wrapper. The card can be installed in any line card slot in the Cisco NCS 4000 chassis.

Key Features of NCS4K-2H-W Card

The NCS4K-2H-W card supports the following key features:

  • Operating Modes—The card can be configured in different operating modes: The cards can be equipped with pluggables for client and trunk options, and offer a large variety of configurations.
    • Transponder—This mode is enabled by default. The card acts as a transponder in this mode. Each client is mapped to one of the two 100 Gigabit Ethernet NCS4k-2H-W interfaces providing up to thirty-two 100 Gigabit NCS4k-2H-W transponders. In transponder mode, the allowed port pairs are 0-2 and 1-3.

    • Regeneration—The two 100 Gigabit NCS4k-2H-W interfaces are connected back-to-back in the card to provide 3R regeneration of 100 Gigabit NCS4k-2H-W signals. In regeneration mode, an IP-over-NCS4k-2H-W configuration can be enabled to support proactive protection messaging between IP-over-NCS4k-2H-W router interfaces. If failure occurs on one side of the regenerator, ODUk Alarm Indication Signal (ODUk-AIS) is generated and propagated on the other side, while an OTUk Backwards Defect Indicator (OTUk-BDI) is sent back on the same side as defined by the ITU G.709 standard. In Regeneration mode, the allowed port pair is 2-3.

    When you configure the card in different operating modes, ensure NCS4k-2H-W that the following tasks are completed:

    • Depending on the card mode selected, the supported payload for that particular card mode must be provisioned on the PPMs.

    • The payloads can be provisioned after configuring the operating mode on the card.

    The following table describes how each mode can be configured, the supported payloads, and the valid port pair for a specific operating mode.

    Operating Mode Port Number Peer Card (connected through backplane) Port Mode Mapping Framing Type Supported Client Payloads
    Transponder 0 and 1 OTN OPU4 OTU4
    Transponder 0 and 1 Ethernet GMP OPU4 100GE over ODU4
    Transponder and Regeneration 2 and 3 NCS4K-20T-O-S, NCS4K-2H-O-K OTN OPU4 OTU4

    See the Provision an Operating Mode Using CTC procedure to provision the operating mode.

  • Forward Error Correction (FEC)—The trunk ports support three different FEC coding options:

    • GFEC: Standard G.975 Reed-Solomon algorithm with 7-percent overhead.

    • Ultra FEC (UFEC): Standard G.975.1 (Sub-clause I.7) with 20-percent overhead.

    • High-gain FEC (HG-FEC): HG-EFEC with 7-percent and 20-percent overhead provides better performance than standard G.975.1 7-percent overhead enhanced FEC. This EFEC is suitable for applications where 100 Gigabit wavelengths pass through a large number of ROADM nodes with limited performance.

  • Generalized Multiprotocol Label Switching—The Generalized Multiprotocol Label Switching (GMPLS) OCH Trail circuit can be created on the NCS4K-2H-W card. The OCH Trail circuit can created between source and destination NCS 4000 series nodes that are connected to the ONS 15454 nodes. The OCH Trail circuit creates an optical connection from the source trunk port to the destination trunk port. The interface on the NCS 4000 node is the UNI-C interface and the interface on the ONS 15454 node is the UNI-N interface.

  • Performance Monitoring—The 100-Gbps NCS4k-2H-W trunk provides support for both transparent and non-transparent signal transport performance monitoring. The Digital Wrapper channel is monitored according to G.709 (OTN) and G.8021 standards. Performance Monitoring of optical parameters on the client and NCS4k-2H-W line interface include Loss Of Signal (LOS), Laser Bias Current, Transmit Optical Power, and Receive Optical Power. The calculation and accumulation of the performance monitoring data are supported in 15-minute and 24-hour intervals as per G.7710. The system parameters measured at the wavelength level like Mean PMD, accumulated Chromatic Dispersion, or Received OSNR are also included in the set of performance monitoring parameters. These can greatly simplify troubleshooting operations and enhance the set of data which can be collected directly from the equipment.

For more information on the NCS4K-2H-W card, see the data sheet.

Automatic Power Consumption

CTC dynamically displays the power consumption of each card inserted in the chassis. CTC also dynamically displays the power budget for the entire system and for each slot. The maximum power is always allocated for each route processor, fabric card, and fan tray. A minimum power budget is allocated for each line card. The minimum power budget for each line card is the maximum of the minimum power allocated to any type of line card. For example, if the NCS4K-2H-O-K card has 35 W and NCS4K-2H-W card has 50 W, then minimum power budget allocated for each line card slot is 50 W. When a line card is inserted or removed, the minimum power budget for each line card is dynamically re-calculated and displayed in CTC.

When a line card is inserted, the maximum power budget is allocated if enough power is available; otherwise, the card is shut down and a major alarm is raised in the Alarms tab. A minor alarm is raised when the power allocation is more than the available power.

Monitor Environmental Parameters Using CTC

Purpose

This procedure monitors the environmental parameters of the NCS4K-2H-W card such as temperature, voltage, and power.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to monitor the environmental parameters. The card view appears.

Step 2

Click the Provisioning > General tabs.

Step 3

Click Temperature sub-tab to display the input temperature of the card.

  • Module Sensor—Displays the module sensor name of the card.
  • Value (Celsius)—Displays the module sensor values (in Celsius) of the card.

Step 4

Click Voltage sub-tab to display the input voltage of the card.

  • Module Sensor—Displays the module sensor name of the card.
  • Value (MilliVolts)—Displays the module sensor values (in MilliVolts) of the card.

Step 5

Click Power Monitor sub-tab to dynamically display the power consumption of the card.

  • Module Sensor—Displays the module sensor name of the card.
  • Value (MilliAmperes)—Displays the module sensor values (in MilliAmperes) of the card.

Stop. You have completed this procedure.


Provision an Operating Mode Using CTC

Purpose

This procedure enables you to provision an operating mode on the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision an operating mode. The card view appears.

Step 2

Click the Provisioning > Card tabs.

Step 3

In the Card Mode area, choose the required operating mode: TXP or Regeneration.

The Backplane mode is not supported.

Step 4

Choose TXP to provision the card in Transponder (TXP) mode and click Apply.

Step 5

If you want to provision the card in Regeneration mode, follow these steps.

  1. Choose Regeneration.

    The regeneration is applicable only for NCS4K-2H-W.

  2. Choose the port number from the Port1 drop-down list. The available option is 2 or 3.

  3. Click Apply.

Stop. You have completed this procedure.


Administrative and Service States

Administrative State Definition
IS

Puts the entity in service.

OOS,DSBLD

Removes the entity from service and disables it.

OOS,MT

Removes the entity from service for maintenance.

Service State Definition
OOS-MA,DSBLD

The entity was manually removed from service and does not provide its provisioned functions. All the services are disrupted and unable to carry traffic.

OOS-MA,MT

The entity has been manually removed from service for a maintenance activity but still performs its provisioned functions.

OOS-AUMA,FLT&MT

The entity is not operational because of an autonomous event and has also been manually removed from service for a maintenance activity.

OOS-MA,LPBK&MT

The entity has been manually removed from service for a maintenance activity but still performs its provisioned functions. A loopback is present on the resource.

OOS-AUMA, FLT & LPBK & amp; MT

The entity is unlocked with loopback configured. However, the service is not operational due to some failure. All the defects are raised and cleared but the end user is not notified.

OOS-AU,AINS

The entity is not operational because of an autonomous event. The entity is delayed before moving to the IS-NR state.

OOS-AU,AINS&FLT

The entity is unlocked. However, the service is not operational due to some failure. All the defects are raised and cleared but the end user is not notified. When all the defects are cleared and the resource returns operational, the AINS window is restarted.

IS-NR

The entity is fully operational and will perform as provisioned.

OOS-AU,FLT

The entity is unlocked and not operational due to a failure. This happens when the secondary state is normal and there are defects.

Provision the NCS-4K-2H-W Ports Using CTC

Purpose

This procedure provisions the ports on the NCS-4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Perform any of the following tasks as needed:

Stop. You have completed this procedure.


Provision NCS4K-2H-W Optics Controllers Using CTC

Purpose

This procedure enables you to provision the optics controllers on the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the optics controllers. The card view appears.

Step 2

Click the Provisioning > Controllers > Optics tabs.

Step 3

Modify any of the settings described in the following table as needed.

Parameter Description
Controller Displays type and address of the controllers in the Rack/Slot/Instance/Port format.
Admin State

Sets the administrative state of the port. Choose an administrative state from the drop-down list to change the administrative state unless network conditions prevent the change. For more information, see Administrative and Service States.

Service State Displays the autonomously generated state that provides the overall condition of the port. Service states appear in the format: Primary State-Primary State Qualifier, Secondary State.
Optics Type Displays the type of optics connected to this port. It can be Grey optics or NCS4k-2H-W optics.
Wavelength If the optics type is Grey, the wavelength is 0.0 nm. If the optics type is NCS4k-2H-W, the wavelength can be one of the wavelengths chosen in the grid.
Laser Bias Current (%) Displays the laser bias current in % between 0.0 and 100.0
Rx Power (dBm) Displays the received power for the corresponding ports in dBm.
Tx Power (dBm) Displays the transmitted power for the corresponding ports in dBm.
Laser State Displays the state of the associated laser. The state can be On or Off.

VOATX Power

Sets the value for the desired TX power in the of range +0.2 / -19.0 dBm. The card sets the transmit VOA to match the required power. Applicable on trunk ports 2 and 3, in the OOS mode.

Optical Signal to Node

Displays the current value of received OSNR (Optical Signal to Noise Ratio) at the receiver port (only on trunk 2 and 3).

Polarization Dependency

Displays the loss that depends on the wave polarization in the fiber transmission.

Polarization Changes

Displays the rate of optical wave polarization changes in the fiber transmission.

Phase Noise

Displays the noise on the phase of the optical signal received on the fiber.

CD

Displays the Chromatic Dispersion of the received signal.

Different

Displays the variation of propagation delay in the fiber transmission.

Enable PM

Select the check-box to enable performance monitoring.

Step 4

Click Apply.

Step 5

Return to your originating procedure.


Provision NCS4K-2H-W 100GE Payload Using CTC

Purpose

This procedure enables you to provision the client ports with 100GE payload on the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the 100GE Payload. The card view appears.

Step 2

Click the Provisioning > Controllers > Optics tabs to provision 100GE payload on a client port (port 0 or port 1).

Step 3

Select a client port and choose OOS,DSBLD from the Admin State drop-down list and click Apply.

Step 4

Click the Provisioning > Port Modules tabs.

Step 5

Change Port Mode to Ethernet, Framing Type to OPU4, and Mapping to Gmp.

Step 6

Click the Provisioning > Controllers > Ethernet tabs to modify any of the settings as described in the following table.

Parameter Description
Client Port Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.
Admin State Sets the administrative state of the port. Choose an administrative state from the drop-down list to change the administrative state unless network conditions prevent the change. For more information, see Administrative and Service States.
Service State Displays the autonomously generated state that provides the overall condition of the port.

Operational State

Displays the state of link. The values are Up or Down.

LED State

Displays the state of LED. The values are On or Off.

Autonegotiation

Enable or disable autonegotiation by selecting the check-box. Autonegotiation negotiates flow control, duplex mode and remote fault information. Enable or disable link negotiation on both the ends of the link.

Speed Displays the speed at which Ethernet port is operating. The available value is HundredGbps and cannot be modified.

Duplex

Enable or disable duplex mode by selecting the check-box. Enabling duplex means , both the ends of the communication channel can send and receive signals at the same time.

Flow Control Displays the negotiated flow control mode. The available value is ingress when configured.

Step 7

Click Apply.

Step 8

Return to your originating procedure.


Provision NCS4K-2H-W OTU4 Payload Using CTC

Purpose

This procedure enables you to provision the client and trunk ports with OTU4 payload on the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the OTU4 payload. The card view appears.

Step 2

Click the Provisioning > Controllers > Optics tabs to provision the OTU4 payload on a client or trunk port (ports 0, 1, 2, or 3).

Step 3

Select a client or trunk port and choose OOS,DSBLD from the Admin State drop-down list and click Apply.

Step 4

Click the Provisioning > Port Modules tabs.

Step 5

Change Port Mode to OTN and Framing Type to OPU4.

Step 6

Click the Provisioning > Controllers > OTU tabs to modify any of the settings as described in the following table.

Parameter Description
Controller Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.
Admin State

Sets the administrative state of the port. Choose an administrative state from the drop-down list to change the administrative state unless network conditions prevent the change. For more information, see Administrative and Service States.

FEC Sets the mode of forward error correction. The available values are Standard, EnhancedHG7, and EnhancedHG20 for trunk ports (ports 2 and 3); the values are Standard and None for client ports (ports 0 and 1).
GCC0 Enables the general communication channel.
Service State Displays the autonomously generated state that provides the overall condition of the port. For more information, see Administrative and Service States.

Enable PM

Enables performance monitoring.

Step 7

Click Apply.

Step 8

Return to your originating procedure.


Provision NCS4K-2H-W ODU4 Using CTC

Purpose

This procedure enables you to provision ODU4 on the NCS4K-2H-W card. This procedure applies only to the 0, 1, 2, or 3 ports where OTU4 payload has been provisioned.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision or retrieve the ODU4 parameters. The card view appears.

Step 2

Click the Provisioning > Controllers > ODU tabs.

Step 3

Modify any of the settings described in the following table as needed.

Parameter Description
Controller Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.
Admin State

Sets the administrative state of the port. Choose an administrative state from the drop-down list to change the administrative state unless network conditions prevent the change. For more information, see Administrative and Service States.

Service State Displays the autonomously generated state that provides the overall condition of the port.
Resource State Displays the state of resources that are connected.
GCC1 Enables the general communication channel.
Payload Type Sets the payload type of the selected port.
Flex Type Displays the flex type.
Flex BW Displays the flex bandwidth.
Flex Tolerance Displays the flex tolerance.
TPN Sets the tributary port number (TPN) for the ODU4 port. The valid range of TPN is from 1 to 80.
TSG Sets the tributary slot granularity (TSG) level on the ODU4 port. The valid values are 1.25G and 2.5G.
OWNER Displays the number of owners.
No of TS Sets the number of tributary slots (TS) for the ODU4 port.
Allocated TS Displays the number of tributary slots that are assigned.
Enable PM Enables performance monitoring for the corresponding port.

Step 4

Click Apply.

Step 5

Return to your originating procedure.


Provision NCS4K-2H-W TCM Using CTC

Purpose

This procedure enables you to perform lockout.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the TCM. The card view appears.

Step 2

Click the Provisioning > Controllers > TCM tabs.

Step 3

Select the Controller Name, for which you want to configure TCM, from the drop-down list.

Step 4

Modify any of the settings described in the TCM Threshold Table as needed.

Parameter Description
TCM Displays the TCMs ID from 1 to 6.
Enable TCM State Enables the selected TCM.
Enable PM Enables performance monitoring for the selected TCM.

TCM mode

Select the mode from the drop down menu. The available options are:
  • Transparent - TCM data is passed through without any change, fault management and performance monitoring parameters are not enabled.

  • Operational - fault management and performance monitoring parameters can be enabled.

  • NIM (Non-Intrusive Monitoring) - fault management and performance monitoring parameters are enabled but are read-only

LTC

Check the LTC box to enable this alarm. This check-box can be selected only when the TCM mode is Operational.

TIM

Check the TIM box to enable this alarm. This check-box can be selected only when the TCM mode is Operational.

Step 5

Click Apply.

Step 6

Return to your originating procedure.


Provision the NCS-4K-2H-W Alarm Thresholds

Purpose

This procedure provisions the alarm thresholds of the NCS-4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Perform any of the following tasks as needed:

Stop. You have completed this procedure.


Provision NCS4K-2H-W Optics Alarm Thresholds Using CTC

Purpose

This procedure enables you to provision the optics alarm thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the optics alarm thresholds. The card view appears.

Step 2

Click the Provisioning > Alarm Thresholds > Optics tabs.

Step 3

Modify any of the settings described in the following table as needed.

Parameter Description
Controller Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.
Rx Power High (dBm) Sets the threshold for minimum receive power for the corresponding ports.
Rx Power Low (dBm) Sets the threshold for maximum receive power for the corresponding ports.
LBC High (%) Sets the LBC High. The high laser bias current (LBC-HIGH) threshold is the percentage of the normal laser bias current when the corresponding alarm is raised.
Tx Power High (dBm) Sets the threshold for maximum transmit power for the corresponding ports.
Tx Power Low (dBm) Sets the threshold for minimum transmit power for the corresponding ports.
CD Max (ps/nm) Sets the threshold for maximum chromatic dispersion.
CD Min (ps/nm) Sets the threshold for minimum chromatic dispersion.

Step 4

Click Apply.

Step 5

Return to your originating procedure.


Provision NCS4K-2H-W OTU Alarm Thresholds Using CTC

Purpose

This procedure enables you to provision the OTU alarm thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the OTU alarm thresholds. The card view appears.

Step 2

Click the Provisioning > Alarm Thresholds > OTU tabs.

Step 3

Modify any of the settings described in the following table as needed.

Parameter Description
Controller Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.
SF BER Sets the signal fail bit error rate. The allowed values are 1E-5,1E-6,1E-7,1E-8, and 1E-9.
SD BER Sets the signal degrade bit error rate. The allowed values are 1E-5,1E-6,1E-7,1E-8, and 1E-9.

Step 4

Click Apply.

Step 5

Return to your originating procedure.


Provision NCS4K-2H-W ODU Alarm Thresholds Using CTC

Purpose

This procedure enables you to provision the ODU alarm thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the ODU alarm thresholds. The card view appears.

Step 2

Click the Provisioning > Alarm Thresholds > ODU tabs.

Step 3

Modify any of the settings described in the following table as needed.

Parameter Description
Controller Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.
SF BER Sets the signal fail bit error rate. The allowed values are 1E-5,1E-6,1E-7,1E-8, and 1E-9.
SD BER Sets the signal degrade bit error rate. The allowed values are 1E-5,1E-6,1E-7,1E-8, and 1E-9.

Step 4

Click Apply.

Step 5

Return to your originating procedure.


Provision NCS4K-2H-W TCM Alarm Thresholds Using CTC

Purpose

This procedure enables you to set SFSD values for TCM (Tandem Connection Monitoring) corresponding to an ODU alarm thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to set SFSD values for TCM. The card view appears.

Step 2

Click the Provisioning > Alarm Thresholds > TCM tabs.

Step 3

Select the Controller Name from the drop-down list.

Step 4

Modify any of the settings described in the TCM Threshold table as needed.

Parameter Description
TCM Displays the TCMs (1-6) for the selected port.
SF BER Sets the signal fail bit error rate. The allowed values are 1E-5,1E-6,1E-7,1E-8, and 1E-9.
SD BER Sets the signal degrade bit error rate. The allowed values are 1E-5,1E-6,1E-7,1E-8, and 1E-9.

Note

 
SF BER value can should not be greater than SD BER.

Step 5

Click Apply.

Step 6

Return to your originating procedure.


Provision the NCS-4K-2H-W Card PM Parameter Thresholds

Purpose

This procedure provisions the PM parameter thresholds of the NCS-4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Perform any of the following tasks as needed:

Stop. You have completed this procedure.


Provision NCS4K-2H-W Optics PM Thresholds

Purpose

This procedure enables you to provision the optics PM thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the optics PM thresholds. The card view appears.

Step 2

Click the Provisioning > PM Thresholds > Optics tabs.

Step 3

Select the TCA (Threshold Crossing Alert ) option from the drop-down menu.

The available options are -
  • Customize - This option is not supported.

  • Disable All - Select this option to disable TCA for all the parameters of a controller. The row colour is (turns) white to indicate that TCA is disabled.

  • Enable All - Select this option to enable TCA for all the parameters of a controller. The row colour turns green to indicate that TCA is enabled.

Step 4

The displayed Warning Thresholds value is defined in the Intervals area.

Step 5

Select the or 1 Day radio-button to set the TCA interval. ClickModify the TCA settings for a controller port described in the following table as needed.

Parameter Description
Controller (Display only) Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.

Laser Bias (high)

Sets the maximum laser bias.

Laser Bias (low)

Sets the minimum laser bias.

Input Power High (dBm) Sets the high threshold for the input power TCA.
Input Power Low (dBm) Sets the low threshold for the input power TCA .
Output Power High (dBm) Sets the high threshold for the output power TCA.
Output Power Low (dBm) Sets the low threshold for the output power TCA.

Chromatic Dispersion High (cd)

Sets the lchromatic dispersion (CD) value for the received signal.

Chromatic Dispersion Low (cd)

Sets the chromatic dispersion (CD) value for the received signal.

Second Order Polarization Mode Dispersion High (sopmd)

Displays the variation of the wave polarization in fiber transmission.

Second Order Polarization Mode Dispersion Low (sopmd)

Displays the variation of the wave polarization in fiber transmission.

Differential Group Delay Low

Displays the lower threshold value of the variation of propagation delay in the fiber transmission.

Differential Group Delay High

Displays the higher threshold value of the variation of propagation delay in the fiber transmission.

Optical Signal to Noise Ratio High

Sets the higher threshold value for the Optical Signal to Noise Ratio (OSNR). It is the ratio between the signal power level and the noise power level.

Polarization Dependent Loss High

Displays the loss that depends on the wave polarization in the fiber transmission .

Polarization Change Rate High

Displays the rate of optical wave polarization changes in the fiber transmission.

Phase Noise High

Displays the noise on the phase of the optical signal received on the fiber.

Step 6

Click Apply.

Step 7

In the Intervals area, select 15 Min or 1 Day, then click Refresh to view the updated threshold values.

Step 8

Return to your originating procedure.


Provision NCS4K-2H-W Ethernet PM Thresholds

Purpose

This procedure enables you to provision the Ethernet PM thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the optics Ethernet thresholds. The card view appears.

Step 2

Click the Provisioning > PM Thresholds > Ethernet tabs.

Step 3

Select the TCA (Threshold Crossing Alert ) option from the drop-down menu.

The available options are -
  • Customize - This option is not supported.

  • Disable All - Select this option to disable TCA for all the parameters of a controller. The row colour is (turns) white to indicate that TCA is disabled.

  • Enable All - Select this option to enable TCA for all the parameters of a controller. The row colour turns green to indicate that TCA is enabled.

Step 4

The displayed Warning Thresholds value is defined in the Intervals area.

Step 5

Modify any of the settings described in the following table as needed.

Parameter Description
Controller

(Display only) Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.

rxTotalpkts The number of received packets.
etherStatsOctets The total number of octets of data received in the network.
etherStatsOversizePkts The total number of packets received that were longer than 1518 octets (excluding framing bits, but including Frame Check Sequence (FCS) octets) and were otherwise well formed.
dot3StatsFcsErrors The number of frames with frame check errors.
dot3StatsFrameTooLong The number of packets that are at least 64 octets long, without a bad FCS, where the 802.3 length/type field did not match the computed DATA field length.
etherStatsjabbers The total number of packets received that were longer than 1518 octets (excluding framing bits, but including FCS octets), and had either a bad FCS with an integral number of octets (FCS Error) or a bad FCS with a non-integral number of octets (Alignment Error)
etherStatsPkt64Octets The total number of packets (including bad packets) received that were 64 octets in length (excluding framing bits but including FCS octets).
etherStatsPkt65to127Octets The total number of packets (including bad packets) received that were between 65 and 127 octets in length inclusive (excluding framing bits but including FCS octets).
etherStatsPkt128to255Octets The total number of packets (including bad packets) received that were between 128 and 255 octets in length inclusive (excluding framing bits but including FCS octets).
etherStatsPkt256to511Octets The total number of packets (including bad packets) received that were between 256 and 511 octets in length inclusive (excluding framing bits but including FCS octets).
etherStatsPkt512to1023Octets The total number of packets (including bad packets) received that were between 512 and 1023 octets in length inclusive (excluding framing bits but including FCS octets).
etherStatsPkt1024to1518Octets The total number of packets (including bad packets) received that were between 1024 and 1518 octets in length inclusive (excluding framing bits but including FCS octets).
ifInUcastPkts The number of packets, delivered by this sub-layer to a higher sub-layer, which were not addressed to a multicast or broadcast address at this sub-layer.
ifInMulticastPkts The total number of multicast frames received error-free.
ifInBroadcastPkts The number of packets delivered to a higher sub-layer and addressed to a broadcast address at this sub-layer.
ifOutUcastPkts The total number of packets that higher-level protocols requested be transmitted, and which were not addressed to a multicast or broadcast address at this sub-layer, including those that were discarded or not sent.
ifOutMulticastPkts The number of multicast frames transmitted error-free.
ifOutBroadcastPkts The number of packets requested by higher-level protocols and addressed to a broadcast address at this sub-layer, including those not transmitted.
TxTotalPkts The number of transmitted packets.
ifOutOctets The total number of octets transmitted out of the interface, including framing characters.

etherStatsPkts

The total number of received packets.

ifInOctets

Total number of octets received on the interface, including framing characters.

ifInErrors

Number of inbound packets that contained errors preventing them from being delivered to a higher-layer protocol.

etherstats (Broadcast / Multicast / Undersize packets)

Total number of packets received.
  • Broadcast - Total number of good packets received that were directed to the broadcast address.

  • Multicast - Total number of good packets received that were directed to the multicast address.

  • Undersize - Total number of good packets received that were less than 64 octets long.

Step 6

Click Apply.

Step 7

In the Intervals area, select 15 Min or 1 Day, then click Refresh to view the updated threshold values.

Step 8

Return to your originating procedure.


Provision NCS4K-2H-W HD FEC PM Thresholds

Purpose

This procedure enables you to provision the Hard Decision (HD) FEC PM thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the FEC PM thresholds. The card view appears.

Step 2

Click the Provisioning > PM Thresholds > FEC tabs.

Step 3

Select the TCA (Threshold Crossing Alert ) option from the drop-down menu.

The available options are -
  • Customize - This option is not supported.

  • Disable All - Select this option to disable TCA for all the parameters of a controller. The row colour is (turns) white to indicate that TCA is disabled.

  • Enable All - Select this option to enable TCA for all the parameters of a controller. The row colour turns green to indicate that TCA is enabled.

Step 4

The displayed Warning Thresholds value is defined in the Intervals area.

Step 5

Modify any of the settings described in the following table as needed.

Parameter Description Options
Controller

(Display only) Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.

EC-bits The number of bit errors that are corrected by the system.

The valid range for the 15 min interval is from 0 to 9033621811200 (Default value is 903330).

The valid range for the 1 day interval is from 0 to 867227693875200 (Default value is 8671968).

UC Words The number of words that are not corrected by the system. The valid range for the 15 min interval is from 0 to 4724697600 and 0 to 453570969600 for the 1 day interval.

Step 6

Click Apply.

Step 7

In the Intervals area, select 15 Min or 1 Day, then click Refresh to view the updated threshold values.

Step 8

Return to your originating procedure.


Provision NCS4K-2H-W SD FEC PM Thresholds

Purpose

This procedure enables you to provision the Soft Decision (SD) FEC PM thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the FEC PM thresholds. The card view appears.

Step 2

Click the Provisioning > PM Thresholds > FEC tabs.

Step 3

Select the TCA (Threshold Crossing Alert ) option from the drop-down menu.

The available options are:

  • Customize - This option is not supported.

  • Disable All - Select this option to disable TCA for all the parameters of a controller. The row colour is (turns) white to indicate that TCA is disabled.

  • Enable All - Select this option to enable TCA for all the parameters of a controller. The row colour turns green to indicate that TCA is enabled.

Step 4

The displayed Warning Thresholds value is defined in the Intervals area.

Step 5

Modify any of the settings described in the following table as needed.

Parameter Description Options
Controller

(Display only) Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.

EC-bits The number of bit errors that are corrected by the system.

The valid range for the 15 min interval is from 0 to 9033621811200 (Default value is 903330).

The valid range for the 1 day interval is from 0 to 867227693875200 (Default value is 8671968).

UC Words The number of words that are not corrected by the system. The valid range for the 15 min interval is from 0 to 4724697600 and 0 to 453570969600 for the 1 day interval.

Step 6

Click Apply.

Step 7

In the Intervals area, select 15 Min or 1 Day, then click Refresh to view the updated threshold values.

Step 8

Return to your originating procedure.


Provision NCS4K-2H-W OTU PM Thresholds

Purpose

This procedure enables you to provision the OTU PM thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the OTU PM thresholds. The card view appears.

Step 2

Click the Provisioning > PM Thresholds > OTU tabs.

Step 3

Select the TCA (Threshold Crossing Alert ) option from the drop-down menu.

The available options are:

  • Customize - This option is not supported.

  • Disable All - Select this option to disable TCA for all the parameters of a controller. The row colour is (turns) white to indicate that TCA is disabled.

  • Enable All - Select this option to enable TCA for all the parameters of a controller. The row colour turns green to indicate that TCA is enabled.

Step 4

The displayed Warning Thresholds value is defined in the Intervals area.

Step 5

Modify any of the settings described in the following table as needed.

Parameter Description Options
Port

(Display only) Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.

BBE-S-NE The number of section monitor background block errors on the near-end node.

The valid range for the 15 minute interval is from 0 to 8850600 (Default value is 10000).

The valid range for the 1 day interval is from 0 to 8850600 (Default value is 10000).

BBE-S-FE The number of section monitor background block errors on the far-end node.

The valid range for the 15 minute interval is from 0 to 8850600 (Default value is 10000).

The valid range for the 1 day interval is from 0 to 8850600 (Default value is 10000).

BBER-S-NE The number of section monitor background block error ratio on the near-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

The user needs to enter the value in integer and the value is displayed in decimal till five positions. For example, if the user enters 999, then .00999 is displayed.

BBER-S-FE The number of section monitor background block error ratio on the far-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

The user needs to enter the value in integer and the value is displayed in decimal till five positions. For example, if the user enters 999, then .00999 is displayed.

ES-S-NE The number of section monitor errored seconds on the near-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 500).

The valid range for the 1day interval is from 0 to 86400 (Default value is 5000).

ES-S-FE The number of section monitor errored seconds on the far-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 500).

The valid range for the 1day interval is from 0 to 86400 (Default value is 5000).

ESR-S-NE The number of section monitor errored seconds ratio on the near-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

The user needs to enter the value in integer and the value is displayed in decimal till five positions. For example, if the user enters 999, then .00999 is displayed.

ESR-S-FE The number of section monitor errored seconds ratio on the far-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

The user needs to enter the value in integer and the value is displayed in decimal till five positions. For example, if the user enters 999, then .00999 is displayed.

FC-S-NE The number of section monitor failure count on the near-end node.

The valid range for the 15 minute interval is from 0 to 72 (Default value is 10).

The valid range for the 1day interval is from 0 to 6912 (Default value is 40).

FC-S-FE The number of section monitor failure count on the far-end node.

The valid range for the 15 minute interval is from 0 to 72 (Default value is 10).

The valid range for the 1day interval is from 0 to 6912 (Default value is 40).

SES-S-NE The number of section monitor severely errored seconds on the near-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 500).

The valid range for the 1day interval is from 0 to 86400 (Default value is 5000).

SES-S-FE The number of section monitor severely errored seconds on the far-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 500).

The valid range for the 1day interval is from 0 to 86400 (Default value is 5000).

SESR-S-NE The number of section monitor severely errored seconds ratio on the near-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

The user needs to enter the value in integer and the value is displayed in decimal till five positions. For example, if the user enters 999, then .00999 is displayed.

SESR-S-FE The number of section monitor severely errored seconds ratio on the far-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

The user needs to enter the value in integer and the value is displayed in decimal till five positions. For example, if the user enters 999, then .00999 is displayed.

UAS-S-NE The number of section monitor unavailable seconds on the near-end node.

The valid range for the 15 minute interval is from 0 to 900 ( Default value is 500).

The valid range for the 1day interval is from 0 to 86400 ( Default value is 5000).

UAS-S-FE The number of section monitor unavailable seconds on the far-end node.

The valid range for the 15 minute interval is from 0 to 900 ( Default value is 500).

The valid range for the 1day interval is from 0 to 86400 ( Default value is 5000).

Step 6

Click Apply.

Step 7

In the Intervals area, select 15 Min or 1 Day, then click Refresh to view the updated threshold values.

Step 8

Return to your originating procedure.


Provision NCS4K-2H-W ODU PM Thresholds

Purpose

This procedure enables you to provision the ODU PM thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the ODU PM thresholds. The card view appears.

Step 2

Click the Provisioning > PM Thresholds > ODU tabs.

Step 3

Select the TCA (Threshold Crossing Alert ) option from the drop-down menu.

The available options are:

  • Customize - This option is not supported.

  • Disable All - Select this option to disable TCA for all the parameters of a controller. The row colour is (turns) white to indicate that TCA is disabled.

  • Enable All - Select this option to enable TCA for all the parameters of a controller. The row colour turns green to indicate that TCA is enabled.

Step 4

The displayed Warning Thresholds value is defined in the Intervals area.

Step 5

Modify any of the settings described in the following table as needed.

Parameter Description Options
Layer Name Select a layer name based on which ports and their PM thresholds are displayed.
  • path

  • GFP

Port

(Display only) Displays the ODUk port name for which PM thresholds are displayed in the adjacent columns.

Note

 

ODU ports are displayed for which PM is enabled using Provisioning > Thresholds > ODU tabs.

BBE-P-NE The number of path monitor background block errors on the near-end node.

The valid range for the 15 minute interval is from 0 to 8850600 ( Default value is 85040).

The valid range for the 1day interval is from 0 to 849657600 (Default value is 850400).

BBE-P-FE The number of path monitor background block errors on the far-end node.

The valid range for the 15 minute interval is from 0 to 8850600 (Default value is 85040).

The valid range for the 1day interval is from 0 to 849657600 (Default value is 850400).

BBER-P-NE The number of path monitor background block errors ratio on the near-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

BBER-P-FE The number of path monitor background block errors ratio on the far-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

ES-P-NE The number of path monitor errored seconds on the near-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 87).

The valid range for the 1day interval is from 0 to 86400 (Default value is 864).

ES-P-FE The number of path monitor errored seconds on the far-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 87).

The valid range for the 1day interval is from 0 to 86400 (Default value is 864).

ESR-P-NE The number of path monitor errored seconds ratio on the near-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

ESR-P-FE The number of path monitor errored seconds ratio on the far-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

FC-P-NE The number of path monitor failure count on the near-end node.

The valid range for the 15 minute interval is from 0 to 72 (Default value is 10).

The valid range for the 1day interval is from 0 to 6912 (Default value is 40).

FC-P-FE The number of path monitor failure count on the far-end node.

The valid range for the 15 minute interval is from 0 to 72 (Default value is 10).

The valid range for the 1day interval is from 0 to 6912 (Default value is 40).

SES-P-NE The number of path monitor severely errored seconds on the near-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 1).

The valid range for the 1day interval is from 0 to 86400 (Default value is 4).

SES-P-FE The number of path monitor severely errored seconds on the far-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 1).

The valid range for the 1day interval is from 0 to 86400 (Default value is 4).

SESR-P-NE The number of path monitor severely errored seconds ratio on the near-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

SESR-P-FE The number of path monitor severely errored seconds ratio on the far-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

UAS-P-NE The number of path monitor unavailable seconds on the near-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 3).

The valid range for the 1day interval is from 0 to 86400 (Default value is 10).

UAS-P-FE The number of path monitor unavailable seconds on the far-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 3).

The valid range for the 1day interval is from 0 to 86400 (Default value is 10).

Step 6

Click Apply.

Step 7

In the Intervals area, select 15 Min or 1 Day, then click Refresh to view the updated threshold values.

Step 8

Return to your originating procedure.


Provision NCS4K-2H-W TCM PM Thresholds

Purpose

This procedure enables you to provision the TCM PM thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the TCM PM thresholds. The card view appears.

Step 2

Click the Provisioning > PM Thresholds > TCM tabs.

You must modify 15 Min and 1 Day independently. To do so, choose the appropriate radio button and click Refresh.

Step 3

Modify any of the settings described in the following table as needed.

Parameter Description Options
TCM Displays the TCMs configured for the selected ODUk port.

Note

 

TCMs are displayed for which PM is enabled using Provisioning > Alarm Thresholds > TCM tabs.

User can Enable or Disable the TCA Alerts.

User can change the Threshold value.

BBE-P-NE The number of path monitor background block errors on the near-end node.

The valid range for the 15 minute interval is from 0 to 8850600 ( Default value is 85040).

The valid range for the 1 day interval is from 0 to 849657600 (Default value is 850400).

BBE-P-FE The number of path monitor background block errors on the far-end node.

The valid range for the 15 minute interval is from 0 to 8850600 ( Default value is 85040).

The valid range for the 1 day interval is from 0 to 849657600 (Default value is 850400).

BBER-P-NE The number of path monitor background block errors ratio on the near-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

BBER-P-FE The number of path monitor background block errors ratio on the far-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

ES-P-NE The number of path monitor errored seconds on the near-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 87).

The valid range for the 1 day interval is from 0 to 86400 (Default value is 864).

ES-P-FE The number of path monitor errored seconds on the far-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 87).

The valid range for the 1 day interval is from 0 to 86400 (Default value is 864).

ESR-P-NE The number of path monitor errored seconds ratio on the near-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

ESR-P-FE The number of path monitor errored seconds ratio on the far-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

FC-P-NE The number of path monitor failure count on the near-end node.

The valid range for the 15 minute interval is from 0 to 72 (Default value is 10).

The valid range for the 1 day interval is from 0 to 6912 (Default value is 40).

FC-P-FE The number of path monitor failure count on the far-end node.

The valid range for the 15 minute interval is from 0 to 72 (Default value is 10).

The valid range for the 1 day interval is from 0 to 6912 (Default value is 40).

SES-P-NE The number of path monitor severely errored seconds on the near-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 1).

The valid range for the 1 day interval is from 0 to 86400 (Default value is 4).

SES-P-FE The number of path monitor severely errored seconds on the far-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 1).

The valid range for the 1 day interval is from 0 to 86400 (Default value is 4).

SESR-P-NE The number of path monitor severely errored seconds ratio on the near-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

SESR-P-FE The number of path monitor severely errored seconds ratio on the far-end node.

The valid range for the 15 minute and 1 day interval is from 0 to 100000 (Default value is 0).

UAS-P-NE The number of path monitor unavailable seconds on the near-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 3).

The valid range for the 1 day interval is from 0 to 86400 (Default value is 10).

UAS-P-FE The number of path monitor unavailable seconds on the far-end node.

The valid range for the 15 minute interval is from 0 to 900 (Default value is 3).

The valid range for the 1 day interval is from 0 to 86400 (Default value is 10).

Step 4

Click Apply.

Step 5

In the Intervals area, select 15 Min or 1 Day, then click Refresh to view the updated threshold values.

Step 6

Return to your originating procedure.


Provision NCS4K-2H-W TCA PM Thresholds

Purpose

This procedure enables you to provision the Threshold Crossing Alert (TCA) PM thresholds of the NCS4K-2H-W card.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision the TCA PM thresholds. The card view appears.

Step 2

Click the Provisioning > PM Thresholds > TCA tabs.

Step 3

Modify any of the settings described in the following table as needed.

Parameter Description Options
Port Number

(Display only) Displays the type and address of the controllers in the Rack/Slot/Instance/Port format.

15 mins

Choose the option from the drop-down menu to set the TCA interval.

The available options are:

  • Enable All - All the interfaces are set to a TCA interval of 15 minutes.

  • Disable All - All the set TCA intervals are disabled.

1 Day

Choose the option from the drop-down menu to set the TCA interval.

The available options are:

  • Enable All - All the interfaces are set to a TCA interval of one day.

  • Disable All - All the set TCA intervals are disabled.

Step 4

Click Apply.

Step 5

Return to your originating procedure.


Provision SRLG on the Ports

Purpose

This procedure provisions Shared Risk Link Groups (SRLGs) on the optics or OTU ports.

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision SRLG. The card view appears.

Step 2

Click the Provisioning > Network SRLG tabs.

Step 3

Provision SRLG on the Optics or OTU ports as needed.

  1. Click the Optics or OTU sub-tab as needed.

  2. Select the Controller Name from the drop-down list for which you want to provision SRLG.

  3. Double-click the Set field and enter a numeric value to create the number of set(s) under which SRLGs are created. The range is from 1 to 17.

  4. Double-click the SRLG fields to enter a numeric value to create SRLGs for the selected port. The SRLG range is from 0 to 4294967294.

    The number of available SRLG fields are from 1 to 6.

  5. Click Apply.

Stop. You have completed this procedure.


Provision Pluggable Port Modules

Purpose

This procedure provisions pluggable port modules (PPMs).

Tools/Equipment

None

Prerequisite Procedures

"Login to CTC" in System Setup and Software Installation Guide for Cisco NCS 4000 Series

Required/As Needed

As needed

Onsite/Remote

Onsite

Security Level

Provisioning or higher

Procedure


Step 1

In the node view, double-click the NCS4K-2H-W card where you want to provision port modules. The card view appears.

Step 2

Click the Provisioning > Port Modules tabs.

Step 3

In the Port Modules area, modify any of the settings described in the following table as needed. See Key Features of NCS4K-2H-W Card for information on port mode, mapping, and framing type.

Parameter Description
Port Displays the PPM port number.
Service State Displays the service state of the PPM.
Actual Equipment Type Displays the actual equipment type of the PPM.
Port Mode Choose the port mode from the Port Mode drop-down list.
Framing Type Choose the framing type from the Framing Type drop-down list.
Mapping Choose the mapping from the Mapping drop-down list.
Rate Choose the rate from the Rate drop-down list. The available rates are: 10GE, 40GE and 100GE.

Step 4

Click Apply.

Stop. You have completed this procedure.