Design and Analyze Networks

Design a Network Using Cisco ONP

You can design a network in one of the following ways:

  • Manual Design―Create a network design using a design palette.

  • Import Design―Import a network design from an Excel sheet, Live Network Import or from an existing network from CTP, or another instance of Cisco ONP.

Manually Design a Network Using Cisco ONP

Table 1. Feature History

Feature Name

Release Information

Feature Description

Database Operations Optimization

Cisco ONP Release 5.2

Cisco ONP now provides an option to run some operations in the background involving database interaction, such as Save As, Import CPZ, and Export CPZ. You can continue to use the Cisco ONP interface for other operations when these operations are running in the background.

Table 2. Feature History

Feature Name

Release Information

Feature Description

4K-2K SSON Network Creation Support

Cisco ONP Release 5.2

Now you can include the 4K-2K nodes in both SSON and non-SSON networks while designing the network. This helps you to validate 4K-2K nodes in the SSON design which has higher line rates.

Table 3. Feature History

Feature Name

Release Information

Feature Description

NCS 1010 C+L Network Design

Cisco ONP Release 5.1

Cisco ONP now supports the C+L-band networks that help you plan NCS 1010 networks using the OLT-L and ILA-L line cards to increase your network’s bandwidth capacity. Enhanced with L-band related properties, the UI enables you to design a C+L-band network for your ever-increasing channel demands. The following L-band types are introduced to suit your design needs:

  • C+L—This band type adds more channels to your network, increasing its traffic carrying capacity.

  • C+L Futuristic—This band type creates a network with C-band edges and future provisions for L-band edges that you can cost-effectively upgrade after exhausting the C-band capacity.

Table 4. Feature History

Feature Name

Release Information

Feature Description

Greenfield NCS 1010 Network Design

Cisco ONP Release 5.0

You can design and validate NCS1010 optical line system. This feature helps to create OLT-C, OLT-R-C, ILA-C, ILA-R-C, and ILA-2R-C based NCS 1010 networks using fixed grid add/drop MD-32-ODD, MD-32-EVEN and flex grid add/drop BRK-24, BRK-16, and BRK-8 passive modules.

Table 5. Feature History

Feature Name

Release Information

Feature Description
Multi-Layer Platform (MLP) Greenfield Design with NCS 4k-1k-2k

Cisco ONP Release 4.1

This feature allows you to perform the following:

  • Supports NCS 4K-1K-2K multi-platforms

  • Visualizes new layout for Txp and SVO for NCS 2000 node

  • Supports different OTN service types with protection

  • Edits layout for NCS 4000 and NCS 1004 nodes

You can create any of the following network designs:

  • Spectrum Switched Optical Network (SSON) that uses flexible spectrum allocation, where the required minimum spectral resources are allocated adaptively based on traffic demand and network conditions

  • Non-SSON network that allocates single spectrum (fixed spectrum) irrespective of the traffic demand and network conditions

  • NCS 1010 network

Perform the following steps to create a network in the Cisco ONP:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > New.

The Create New Network dialog box appears.

Step 2

From the L0 Network Platform drop-down list, choose one of the following:

  • NCS 2000—To create a non-SSON network that contains NCS 2000 and NCS 4000 nodes, or an SSON network including NCS 2000, NCS 1004, and NCS 4000 nodes

  • NCS1010—To create a network that contains only NCS 1010 nodes

Step 3

If you want to create an SSON network, check the SSON Network check box, else leave the SSON Network check box unchecked.

This option is not for the NCS 1010 network.

Step 4

Choose NCS (4K_1K_2K) or NCS (4K_2K) from the Traffic Type drop-down list.

If you had chosen to create an SSON Network in the previous step, you can view the Traffic Type drop-down list.

Note

 

Once the network is created you cannot change the Traffic type from 4K_1K_2K to 4K_2K or vice versa. Hence, we recommend you export the network into an Excel sheet, do the required modification and then import it as a new network.

Step 5

Choose the System Release for NCS 2K or NCS 1010 from the drop-down list.

You cannot change the system releases that are available for NCS 4K and NCS 1K.

The Band Type drop-down list appears for NCS 1010 R7.9.1 network.

Step 6

From the Band Type drop-down list for NCS 1010, choose one of the following:

  • C-Band—Only C-band edges are created and ANS is generated based on C-band. For L-band upgrade, ANS unlock is required.

  • C+L Futuristic—Only C-band edges are created and ANS is generated based on C-band and L-band. For L-band upgrade, ANS unlock is not required.

  • C+L—Both C-band and L-band edges are created and ANS is generated based on C-band and L-band.

Note

 

After the creation of a NCS 1010 R7.9.1 network, if required, you can change the network band type under the Network Application Configuration section in the Network Properties.

Step 7

Click Create.

You can view a map and the design palette. For more information, see Design Palette.

Step 8

Click the Drawing Tool icon (pencil and ruler crossed).

Step 9

Add sites to the map using the drawing tool.

  1. Zoom into the map to the desired level. Click any of the site icons (ROADM, OLA or Traffic(4K-1K-2K)), and drag it to the sites on the map. Drag or click the map where a site has to be placed, when the cursor changes to the site icon.

    SRLG is not supported in the SSON networks

    Traffic node is not supported on the NCS 1010 network.

  2. Click the Fiber icon and drag it to connect from one site to another site. Continue this for all sites.

    Note

     

    By default, the fiber length is updated as 1 km for all the fibers. If you want the length to be auto updated based on the x, y coordinates, then enable the Use Coordinates Distance property under the network properties.

Step 10

Create services between the sites (only for SSON and non-SSON networks).

Cisco ONP provides only OTN service.

  1. Click the Drawing Tool icon and select OTN Service (Green in color).

  2. Add the service between the existing Traffic sites on the map.

Step 11

Create circuits (for NCS 1010), media channels (for SSON), or waves (for non-SSON) between the sites.

  1. Click the Drawing Tool icon, and select Circuit (purple in color), Media channel (purple in color), or Waves (red in color).

  2. Add the circuit, media channel, or waves between the existing sites on the map.

    In the left pane, you can view a network tree panel with a default network name. The network elements added are displayed in the tree panel.

Step 12

Choose File > Save As.

Step 13

Enter a network name in the Give a Network Name dialog box.

Step 14

Click the Run in Background check box, if you want this operation to run in background.

A notification pops-up after the background operation is completed. Go to Job Monitor to view the progression of the operation running in the background.

Step 15

Click Save.

Create Shared Risk Link Group

You can use the Shared Risk Link Group (SRLG) feature for routing protected services. You can create SRLGs through the Excel import file SRLG tab or through the Cisco ONP GUI using the following procedure:


Note

SRLG is supported only for the non-SSON network including the traffic nodes.

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Click the network tree panel in the left.

Step 2

Expand Fibers.

Step 3

Check the check box next to each fiber in the same SRLG.

Step 4

After all fibers are checked, right-click, and select Create SRLG.

SRLG is created with a unique name. You can rename the SRLG.

Import Network Using Excel Sheet

Use this task to import a network into Cisco ONP, using an Excel sheet.
Table 6. Feature History

Feature Name

Release Information

Feature Description

CX Unified Planning Tool Network Import

Cisco ONP Release 5.0

The integration between CX Unified Planning Tool (UPT) and Cisco ONP enables you to import the networks created and analyzed in Cisco CX UPT into Cisco ONP. This helps you avoid recreating the networks that are already created in UPT. This feature allows you to import networks having NCS 1010 and NCS 2000 nodes into Cisco ONP.

Table 7. Feature History

Feature Name

Release Information

Feature Description

Export and Import of Network Topology in Excel Format

Cisco ONP Release 5.1

It is now possible to export the topology data of an existing network into an Excel file. You can easily modify the exported data in Excel and import it back into Cisco ONP to create a new network or modify an existing network.

The following are the supported Excel formats:

  • xlsx—Standard Excel with multiple sheets, each corresponding to a network element such as Network, Sites, Circuits, Spans, OTNdemands, and so on.

  • xlsm—Macros-enabled Excel file that can filter out and display only the applicable network element sheets based on the platform selected in the Network sheet.

Cisco ONP has the built-in intelligence to automatically calculate the shortest path between a source and a destination, even if only a partial fiber path is mentioned in the imported Excel file.


Note

By default, the system release of the Excel imported network is 11.0.

Note

From Release 5.0, Cisco ONP supports import of networks created using CX UPT via Cisco ONP Import Excel option. CX UPT does not populate the DWDMChannel Type and Add/Drop Type values in the Excel sheet. If the values are not found in the Excel sheet, then Cisco ONP picks the default options. By default, DWDMChannel Type is NCS1004_QPSK_SP_16QAM_200G_27%SDFEC_60GBd and Add/Drop Type is Colored. We recommend you to check the DWDMChannel Type and Add/Drop Type values before importing the Excel sheet into Cisco ONP to avoid any discrepancies.

From Release 5.1, in addition to exporting the template, you can also export the entire network design data of an existing network in the form of the Excel sheet, modify the network properties available in the Excel sheet and reimport. The network can be exported in all modes and reimported on Design mode, Upgrade mode, and Release Upgrade mode.


Note
Transponders are not supported as part of Export/Import Excel. When you export an existing network with transponder card forced, the exported Excel sheet will have the Traffic type set to Pluggable Card in DWDMChannels/MediaChannels tab. Make necessary changes in the exported Excel sheet before you import it into Cisco ONP.

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose Export > Excel.

  1. Choose the Network Type as Template or Current Network.

  2. Choose the File Type as xlsx or xlsm (Macro Enabled)

    The Macros Enabled Excel sheet automatically customizes the tabs on the Excel sheet based on the platform that you choose. It also provides additional functionalities such as selection of fibers in the path selection, wavelength count validation in case of regen selection.

  3. Click Download.

The template has the following mandatory tabs, and the respective fields to be filled in the Excel sheet.

Tabs Description
Network

Label (name of the network), Platform (NCS2000(NON SSON), NCS2000 (SSON), NCS1010), and System Release
Sites

Site Label, Type, X coordinates, Y coordinates, Pre Equip Degree, Grooming Site, CLLI code, and Site Address, Degree (Scalable upto degree), and State.
Spans

Span label, A (Source site name), Z (Destination site name), Kms (Distance), Loss, Type, A_Edge, Z_Edge, AZ_Loss, ZA_Loss, AZ_Kms, ZA_Kms and State.
OTNDemands

Primary Path and Secondary Path (Work and Protect Path for NCS4000 OTN Services), Demand Label, A (Source), Z (Destination), Y (Tertiary Source), B (Tertiary Destination), Type of Demand, Quantity, and Protection.

Note: Y and B can be used with Unprotected Disjoint Service.

OTNDemands-SSON

 Demand Name, Source, Destination, Service Group, Type, A/D Type, Protection, Primary Wavelength, Secondary Wavelength, Primary Path, Secondary Path, First Restoration path, Second Restoration Path, Primary ODU Timeslot, Secondary ODU Timeslot, Primary Regen, Secondary Regen, Trunk Mode, Baud Rate, and State.

MediaChannels

 Channel Label, Source, Destination, Primary Wavelength, Secondary Wavelength, Protection, Traffic Type, Card Type, A/D Type, Primary Path, Secondary Path, Primary Regen, Secondary Regen, and State.

ServiceGroup

 ServiceGroup Name, Demand Types, 4K Exclusive LC Usage, 4K Symmetric Aggregation, 1K Exclusive LC Usage, 1K Symmetric AggregationChannel Label, and State.
DWDMChannels Primary Wavelength and Secondary Wavelength (Work and Protect Wavelength for NCS2000 non-SSON waves), Primary Path and Secondary Path (Work and Protect Path for NCS2000 Wave/Media Channel and NCS1010 circuit), A/D Type (Colored/Colorless/Contentionless), Channel label, A, Z, Wavelength, Protection, and Type

Circuits

Circuit Label, Source, Destination, Primary Wavelength, Protection, Traffic Type, Card Type, A/D Type, Primary Path, Primary Regen, and State.

Flex Optical Source

Flex Optical Source Name.
SRLG SRLG Label, Spans, and State.

Step 2

Fill the network details in the template file or edit the current network file, and save the file.

Step 3

Choose Import > Excel, and select the Import Type.

  • New—Choose this option if you want to create a new network using the design data available in the Excel sheet.

  • Existing—Choose this option if you want to update an existing network with the data available in the Excel sheet. Open the network before you import the Excel sheet. The network must be on Design mode, Upgrade mode, or Release Upgrade mode.

You can view the data available in the Excel sheet before importing the network data. The View Data check box remains checked by default. Uncheck it of you do not want to view the imported data.

Step 4

Browse, select the saved file, and click Import.

During the import for the Existing network, if the state is Locked, Cisco ONP does not consider the data, if the state is Unlocked, Cisco ONP changes the existing parameter, provided the network is in upgrade mode, and if the state is New, the parameters in the Excel is added as a new entry into the network.

During new network import, new network design is created irrespective of the State.

Note

 

If there are errors in the imported data, a pop-up error message is shown in case of new import, and the errors are available under the Elements > Messages tabs in case of updating the existing network.

Cisco Transport Planner Network Import Support

You can import the networks that are created and analyzed from Cisco Transport Planner (CTP) to Cisco ONP, to avoid recreating the networks that are already created in CTP. The CTP network files are in .mpz format. You can, release upgrade, the imported networks.


Note

  • Network must be in design-analyzed or upgrade-analyzed mode.

  • You cannot import networks which are earlier than Release11.0.

Supported Hardware

  • Optical source files and transponders

    See Supported Optical Sources, and Supported Cards and Pluggables.

  • Contentionless, colorless, and colored point-to-point demands

  • Flex network

  • Gain Equalizer


    Note

    The Gain Equalizer node changes as a ROADM node when you unlock the site after the release upgrade.

  • ROADM-SMR-9 and SMR-20

  • All flex supported amplifiers, controller cards, and chassis types

Import MPZ Design File

Use this task to import .mpz file from CTP to Cisco ONP.


Note

Importing of mpz networks with P-Ring and A2A demands is not supported. Hence, we recommend you to delete these demands in CTP, reanalyze the networks in CTP and import the mpz into Cisco ONP.

Before you begin

Log in to Cisco ONP Web Interface as a user with network creation permission.

Import the required optical source files and layout template using Manage > Optical Source and Manage > Optical Source options. For more information, refer Manage Alien and Manage Layout .

Delete the parameters that are not supported by Cisco ONP from the .mpz file and then import the .mpz file to Cisco ONP.

Procedure

Step 1

Choose Import > MPZ.

The Import File (.mpz) dialog box appears.

Step 2

Browse to the .mpz file stored in your local system.

Step 3

Choose 4K_1K_2K or 4K_2K from the Traffic Type drop-down list.

If you had chosen an SSON MPZ file, you can view the Traffic Type drop-down list.

Step 4

Click Import.

The .mpz file gets imported to Cisco ONP.

Note

 

If you view a blank screen when you click waves in the network tree, refresh the browser.

Step 5

Choose Network > Upgrade or Network > Release Upgrade to make any changes on the imported network.

Note

 

  • You cannot go back to design mode on the imported mpz network.

  • The wave label of imported mpz network in Cisco ONP is the service name present in the CTP properties window.

Export the CPZ File

Cisco ONP stores the network design file as .cpz file in its database. You can export the design file into your local system.

  • The .cpz file of a network in the design mode includes design file, layout template, and optical source details.

  • The .cpz file of a network in the analyze mode includes a design file, analyze file, ANS file, per side ANS file, BOM, error messages, trace files, layout template, mpz, and report.

  • For the network in upgraded mode, you can export only the last child in the parent child hierarchy.

  • You can export only one network at a time.

Before you begin

Log in to Cisco ONP Web Interface

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click the network that you want to export, from the list of networks.

The network opens.

Note

 

If you view a blank screen when you open a network, refresh the browser, or log in to Cisco ONP again.

Step 3

Choose Export > CPZ.

The Export .cpz file dialog box appears.

Step 4

Rename the file if required.

Step 5

Click the Run in Background check box, if you want this operation to run in background.

A notification pops-up after the background operation is completed. Go to Job Monitor to view the progression of the operation running in the background.

Step 6

Click Export.

Step 7

Save the file in your local system.

Import CPZ File

You can import the cpz network design files that are exported from another Cisco ONP instance.


Note

You can import only the networks that are exported from the current release.

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose Import > CPZ.

The Import .cpz file dialog box appears.

Step 2

Click Choose file, and select a cpz network design file that you want to import into Cisco ONP, from your local system.

Step 3

Click the Run in Background check box, if you want this operation to run in background.

A notification pops-up after the background operation is completed. Go to Job Monitor to view the progression of the operation running in the background.

Step 4

Click Import.

If the names of the optical source and layout template files available in the Cisco ONP database and the imported network file are the same, you are prompted to confirm whether you want to overwrite the existing file.

Note

 

The error message "Network already exists in the system with another user. New network will be created" is just an information. You do not need to perform any action. Cisco ONP automatically imports as a new network specific to the user. There is no impact on the already existing network.

Step 5

Check the Overwrite Network check box, if you want to overwrite the existing file.

If you leave the check box unchecked, Cisco ONP saves the imported network as a new network.

Step 6

Choose the optical source files and layout template that you want to replace.

If you do not choose the optical source or the layout template file, the files will not be imported.

Step 7

Click Confirm.

The imported network is saved in the Cisco ONP database.

Live Network Import

Table 8. Feature History

Feature Name

Release Information

Feature Description

Live Network Import

Cisco ONP Release 4.1

This feature allows you to import a live deployed network having NCS 1004, NCS 2000, and NCS 4000 nodes into Cisco ONP, using the LNI (Live Network Import) import template. This feature also allows you to view network topology, BOM, and layout report.

The Live Network Import (LNI) feature allows you to perform a live import of network having NCS 1004, NCS 2000, and NCS 4000 nodes into Cisco ONP. You must have Network Management role to perform the LNI operation. After importing you can visualize the complete deployed network details in Cisco ONP. Map shows the network topology, and you can view the node, fiber, OTN service, and media channel properties in the Network Tree, and the Entity Editor.

Perform Live Network Import

Use this task to perform live import of a network:

Before you begin

  • Perform LNI only when the network is in a stable or running state. Do not perform LNI during the maintenance period for software upgrade.

  • Configure all the mandatory parameters on the circuit.

  • Make sure that the following Cisco IOS XR Software Maintenance Updates (SMUs) are loaded on the NCS 4000 devices on top of Cisco IOS XR Release 6.5.28:

    • ncs4k-6.5.28.CSCvu93045.tar

    • ncs4k-sysadmin-6.5.28.CSCvt67465.tar

    • ncs4k-6.5.28.CSCvv79518.tar

  • Make sure that there is a provision for opening three TL1 sessions per NCS 2000 device for Live data collection. NCS 2000 devices should not be overloaded with too many TL1 sessions.

  • Make sure that the fibers are configured with the same channel numbers (Spectral Density, ex: 91.0/82.0) on both source and destination ends.

  • Check the card label set for the following NCS 2000 cards and update it if they are not aligned.

    PID

    Card Label

    NCS2K-16-AD-CCOFS

    AD-16-FS

    NCS2K-20-SMRFS

    SMR20-FS-CV

    NCS2K-20-SMRFS-L

    SMR20-FS

    NCS2K-9-SMR17FS

    SMR9-17-FS

    NCS2K-9-SMR24FS

    SMR9-24-FS

    NCS2K-9-SMR34FS

    SMR9-34-FS

    NCS2K-9-SMR34FS-L

    SMR9-34-FS

    15454-M-RAMAN-COP=

    OPT-RAMP-COP

    15454-M-RAMAN-CTP=

    OPT-RAMP-CTP

    NCS2K-OPT-EDFA-35

    OPT-EDFA-35

  • You must install Microsoft Excel in the Client Machine from where the browser is launched to open Cisco ONP application.

  • Log in to Cisco ONP Web Interface

.
Procedure

Step 1

Choose Export > Download LNI Import Template, and download the template which is in the form of an Excel sheet.

Step 2

Fill the template with the details of all the nodes belonging to the network to be imported and save the file.

The following fields are mandatory:

  • Node IP

  • User Name

  • Password

  • Connectivity Type―TL1 for NCS 2000 nodes and NETCONF for NCS 1004 and NCS 4000 nodes

  • Connectivity port―830 for NCS 4000 and NCS 2000 nodes

Note

 

Enter a value in the range of 60–180 in the Connectivity Timeout field or leave the field empty.

Step 3

Choose Import > Live Import.

Step 4

Browse and choose the saved file.

Step 5

If you want to clean the existing LNI database of the nodes and perform a fresh import, check the Fresh Import (Cleanup LNI Database) check box.

Note

 

We recommend fresh import of the live network.

Leave this check box unchecked, if you want to import the details of only few of the nodes which had issues during the previous import.

Note

 

LNI import is not user-specific. When you perform a fresh import, Cisco ONP overwrites all the LNI data that are imported by the other users.

Step 6

Click Import.

Step 7

In the Device Onboarding dialog box, click OK.

Note

 

If you try to import a network of unsupported version, the device collection does not happen, and an error message "device collection failed" appears. See Supported Hardware and Software for LNI.

Step 8

Click Job Monitor, and click Check Progress for the IMPORT_LIVE_NETWORK task, to view the status of the LNI operation in the LNI Progress dialog box. Click Refresh to see the updated status.

After LNI is completed, the job is removed from the Job Monitor page.

Step 9

Click Logs to view the list of events that are related to the LNI operation, as logs.

Step 10

After the completion of the LNI operation, choose File > Open.

The format of the LNI imported network filename is LNI_<Date>_<Time>.

Step 11

Click the imported network name to view the network under the Map tab and its corresponding network tree in the left panel.

The aggregated node including NCS 1004, NCS 2000, and NCS 4000 is indicated in purple color, and the aggregated node including NCS1004 and NCS 2000 is indicated in orange color in the network tree. You can view the tag Imported from Network in the top-right corner.

Note

 

  • Even If some errors occur during the LNI operation, the LNI operation is not canceled. In such case, when you open the imported network, a warning message is displayed.

  • You can view the errors under the Elements > Messages tab.

    • Device collection failure is listed under critical messages.

    • The reason for failure is listed under noncritical messages.

  • If both NCS and Non-NCS PIDS are present in the inventory, Cisco ONP enables the Enable NCS option. You can edit this option during upgrade after unlocking the site, if necessary.

  • Service path for the restored circuits is displayed as follows in the Cisco ONP UI:

    • Primary Path: Working path before restoration

    • Secondary path: Protected path

    • Restoration path: Current work path after restoration

    Note

     

    If the circuit is not in the restored state, the restoration path is not shown.

  • SSON circuits carrying protected OTN services are merged as Client 1+1 protected Media Channel. Due to this, you may see difference in total number of SSON circuits between the imported network in Cisco ONP and the actual network.

  • If LNI is not installed properly, you may encounter the errors such as LNI failure or LNI not able to purge the data. In such cases, we recommend starting and stopping the LNI services in the server where Cisco ONP and LNI are installed using the following commands:

    • Stop the LNI services.

      root:~/$ONP_HOME# cd LNI
      root:~/$ONP_HOME/LNI# bash ciscolniinstaller.sh -o stop -t update -m offlinemode

    • Start the LNI services.

       root:~/$ONP_HOME/LNI# bash ciscolniinstaller.sh -o start -t update -m offlinemode

Note

 

Wait for a minimum of five minutes after starting the services, for the LNI services to resume before triggering a new live network import. You can

Step 12

Click the BOM tab to view the BOM details of the network.

Note

 

The PIDs of prototype cards are shown as "NA" in the BOM details of the LNI network.

You can export the CPZ, import the CPZ, and share the imported network. You can check the properties of the network using the Entity Editor.

Ports Used in LNI

LNI application uses the following ports. If any port is shut down due to any failure, then the service is restarted by the Docker system.

Port

Service

Usage

8761

Eureka Service

Registration and discovery service, which holds the information about all microservice applications

8080

API Gateway

Receives all the incoming requests, and then delegates the requests to internal microservices like LNI Broker

8080

Collector Service

Collects metrics and operation data from the devices

8080

Device Manager

Responsible for device onboarding process

8080

Inventory Service

Provides inventory data

9888

TL1 plug-in Service

South bound interface plug-ins for TL1 protocol-based NCS 2000 devices

8888

NCS 2K Inventory Adapter Service

Adapter module to transform NCS 2000 device response from collector to Cisco ONP NCMS schema-based POJO

8888

NCS 4K Inventory Adapter Service

Adapter module to transform NCS 4000 device response from collector to Cisco ONP NCMS schema-based POJO

8888

NCS 1K Inventory Adapter Service

Adapter module to transform NCS 1004 device response from collector to Cisco ONP NCMS schema-based POJO

9976

NETCONF plug-in Service

South bound interface plug-ins for NETCONF based 1K/4K devices

8888

LNI Broker Service

Provides interfaces for Cisco ONP BE service to trigger live network import

8085

Topology Service

 Provides network topology data

8090

Circuit Service

Provides network circuit data

8024

NETCONF Adapter Service

Common adapter for Topology and Circuit services

8888

Model Aggregator Service

Aggregates inventory, topology, and circuit details under NCMS schema-based networks

8092

TL1 Adapter Service

Common adapter for Topology and Circuit Service

5601

Kibana

Data visualization and exploration tool that is used for log and time-series analytics, application monitoring, and operational intelligence use cases

Note

 

The default Edge browser on Windows OS is not supported for viewing the Kibana logs. Cisco recommends using Firefox or Chrome browser for viewing the Kibana logs.

2181

Zookeeper

Keeps track of status of the Kafka cluster nodes, and also keeps track of Kafka topics, partitions publish-subscribe messaging system that enables inter service communication

9092

Kafka

Publish-subscribe messaging system that enables inter-service communication

5432

Postgres

Database to persist services data

Supported Hardware and Software for LNI

The following table describes the software versions and hardware requirements of the network imported through LNI.

Table 9.

Property

Values

Network

Network Type

SSON

Platform

ETSI

System Release

NCS 2000: R11.1, and R11.1.1.2

NCS 1004: XR 7.0.1

NCS 4000: XR 6.5.2.8

Site/Node

Site Type

4K-1K-2K: ADD/DROP, 1K-2K;Regen, 2K:ROADM/OLA

ROADM

SMR-20, SMR-9-17FS, SMR-9-34FS, SMR-9-24FS

Amplifier

RAMAN-CTP, RAMAN-COP, EDFA35-24, EDFA35-35

Degree Mesh Type

DEG-5/UPG-4

Chassis Type

4K: NCS4016, 2K:NCS2006, 1K:NCS1004

Power Supply

4K-DC, 1K-DC, 2K-DC40

ECU

ECU-S

Controller Card

TNCS-2, TNCS-2O

Channel Rule

82

Line Cards

NCS1K4-1.2T-K9=, NCS4K-4H-OPW-QC2

Evolved Mesh

ON and OFF

Node Protection

2K: Separated shelves, 4K: Single shelf

Mpo16Lc

MPO-16LC Unit

Mpo16ToMpo08

MPO16TO2MPO8Cable

Cascaded SMR

Yes

Enable NCS

Yes

Use Payg

No

Connection Verification

Yes, No

MF Unit

MF-6RU, MF6-10RU, or MF-1RU

Structure

Line, Multidegree, Terminal

Scalable upto degree

4, 8, 12

Power redundancy

Yes

IP Address

IPv4

Fiber

OSC Frame Type

Auto

DCN Extension

Yes

ENE/GNE

Yes

Length

Yes

Loss

Yes

Measurement Unit

KM

Length based Loss

No

Raman Amplified

Yes

Fiber Type

G652-SMF-28E

Connector Loss A

Yes

Connector Loss B

Yes

Cross OSC and Parallel OSC

Yes

Media Channel

Traffic Type

NCS1004_SP_16QAM_16QAM_300G_27%SDFEC_60GBd

Protection

Unprotected, and 1+R

Path

Actual Path

Regen

Regen site

Multicarrier

No

Contentionless

Yes

Circuit State

Restored, Unrestored

Service

Service Type

100GE, 10GE, STM-64

Protection

1+1, Unprotected, 1+R, 1+1+R, 1+1+R+R

Path

Actual Path

Client Type (1K)

OTU4

Interface Type (1K)

BH

Trunk Mode (1K)

200G, 300G

Baud Rate (1K)

60 and 69 GBd

Client Pluggable

ONS-QSFP28-LR4=, QSFP-100G-SR4-S=,ONS-QSFP-4X10-MLR=

Limitations of LNI

The LNI feature has the following limitations:

  • You cannot perform multiple LNI at the same time.

  • Scheduled LNI is not supported.

  • LNI does not support the following:

    • Non-SSON Network import

    • Non-Contentionless configuration import

    • Circuit import with NCS 2000 Transponder or Muxponder cards

  • Chassis position in layout may not be accurate in the live imported network.

    Workaround: NCS 2000, NCS 1004, and NCS 4000 chassis are placed in separate racks for a better view of the layout. You can edit the same after network upgrade and analysis.

  • If X, Y coordinates are not configured in the devices, nodes are overlapped in the Cisco ONP map.

    Workaround: Configure X, Y coordinates before importing the network for a better view of the topology in Cisco ONP map; otherwise, you can drag and drop the nodes in the Cisco ONP map and adjust the node position after importing.

  • Scalable up to degree parameter is not imported from the real device. Cisco ONP chooses the maximum scalable up to degree based on the number of line sides and contentionless sides present on the node.

    Workaround: You can unlock node after upgrading and change the scalable up to degree. After unlocking the site, use layout template to rearrange the layout.

  • Cisco ONP imports the proto-PID, if any, present in inventory, and show as N/A PID in the Cisco ONP BOM.

  • Duplicate media channel label is not supported. If there are multiple media channels with same label present in the network, only one media channel is imported and the rest of them are discarded.

  • Fiber name, source, and destination names may not match between the first and the second import. Source and destination site names may interchange for bidirectional fibers.

  • If the regenerated demand is in restored state, the restored path is shown as working or protected path, and the service protection is shown as 1+R in Cisco ONP. The restoration details will not be available.

  • Service protection type is shown as 1+1+R or 1+1+R+R only if restoration path is available. Otherwise, service protection type will be shown as 1+1.

  • Preprovisioned cards are not listed in the Cisco ONP BOM, and they are populated after successful upgrade and analysis of the LNI network. Make sure that the cards are equipped to retrieve the PID details.

  • Fibers may not be associated with correct optical subnet if the fibers are not configured with the same channel number at both source and destination ends. Due to this amplifier output power may not be within valid range. Hence, you either correct channel number at both source and destination nodes and re-import the network, or associate the fiber with correct optical subnet after network upgrade in Cisco ONP.

Create Optical Subnet for Non-SSON Networks

An optical subnet is a collection of spans with certain associated properties. When you create a new network, Cisco ONP automatically creates an optical subnet that is associated to the network. At least one optical subnet must exist for each network.


Note

Check the Current Subnet check box in the properties window, to make the subnet you created as the current subnet. You cannot uncheck the Current Subnet check box.

The following procedure creates an optical subnet for Non-SSON networks:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Click Subnet in the network tree panel.

Step 2

Click the Ellipsis icon available in the right side of Optical Subnet.

Step 3

Click Create Optical Subnet.

The Create Optical Subnet dialog box appears.

Step 4

From the Cband Rules drop-down list, choose the C-band design rules for the new optical subnet that you want to create.

Step 5

Click Save.

A new optical subnet with the design properties you selected is created and placed in the network tree panel under OpticalSubnet.

Note

 

You can select new Cband rules from the Cband Rules drop-down list in the properties window.

Note

 

You can add a fiber to a subnet from the Fiber links drop-down list in the properties window.

You can also add a fiber to a subnet from the network tree panel. To add a fiber to a particular subnet in the network tree panel, perform the following steps:

  • Click the Ellipsis icon available in the right side of the required optical subnet and select Edit Fibers.

    An Info dialog box appears displaying "Do you want to continue?.

  • Click OK.

    The UI freezes. You can only select a fiber from the map.

  • Select the required fiber and click the Done button appearing near the zoom icon.

    The fiber now appears in the Fiber links field. When you select the optical subnet, its corresponding fiber is highlighted in the map.

When a fiber is added to one of the subnets, it will be automatically removed from the other subnets. Only one subnet rule will be associated with one fiber.

Create Optical Subnet for SSON Networks

The following procedure creates an optical subnet for SSON networks:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Click Subnet in the network tree panel.

Step 2

Click the Ellipsis icon available in the right side of Optical Subnet.

Step 3

Click Create Optical Subnet.

The Create Optical Subnet dialog box appears.

Step 4

From the Spectral Density drop-down list, choose the spectral density for the new optical subnet that you want to create.

The Name, CBand Rules, and Maximum Number of Channels the you seenin the Create Optical Subnet dialog box, are set based on the spectral density that you have selected.

Step 5

Click Save.

A new optical subnet with the design properties you selected is created and placed in the network tree panel under OpticalSubnet.

Note

 

You can select a new spectral density from the Spectral Density drop-down list in the properties window.

Note

 

You can add a fiber to a subnet from the Fiber links drop-down list in the properties window.

You can also add a fiber to a subnet from the network tree panel. To add a fiber to a particular subnet in the network tree panel, perform the following steps:

  • Click the Ellipsis icon available in the right side of the required optical subnet and select Edit Fibers.

    An Info dialog box appears displaying "Do you want to continue?.

  • Click OK.

    The UI freezes. You can only select a fiber from the map.

  • Select the required fiber and click the Done button appearing near the zoom icon.

    The fiber now appears in the Fiber links field. When you select the optical subnet, its corresponding fiber is highlighted in the map.

When a fiber is added to one of the subnets, it will be automatically removed from the other subnets. Only one subnet rule will be associated with one fiber.

Create Optical Subnet for NCS 1010 Networks


Note

From Release 7.9.1, both C-Band and L-Band optical subnets appear by default for the NCS 1010 networks.

For C-Band and C+L Futuristic networks, the L-Band optical subnet contains no fiber links. To add fiber links for the L-Band optical subnet, you must upgrade the existing network to a C+L-Band network or add an L-Band edge for each C-Band edge.

The following procedure creates an optical subnet for SSON networks:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Click Subnet in the network tree panel.

Step 2

Click the Ellipsis icon available in the right side of Optical Subnet.

Step 3

Click Create Optical Subnet.

The Create Optical Subnet dialog box appears.

Step 4

From the Band Type drop-down list, choose either C-Band or L-Band.

Note

 
From R7.9.1, Band Type drop-down list is available when creating optical subnet for NCS 1010.

Step 5

From the Spectral Density drop-down list, choose the spectral density for the new optical subnet that you want to create.

From Release 5.2, the range of spectral density has increased (ranges from 30 to 100).

The Name, CBand Rules or LBand Rules, and Maximum Number of Channels values that appear in the Create Optical Subnet dialog box are set based on the spectral density that you have selected.

Step 6

Click Save.

A new optical subnet with the design properties you selected is created and placed in the network tree panel under OpticalSubnet.

Note

 

You can select a new spectral density from the Spectral Density drop-down list in the properties window.

Note

 

You can add a fiber to a subnet from the Fiber links drop-down list in the properties window.

You can also add a fiber to a subnet from the network tree panel. To add a fiber to a particular subnet in the network tree panel, perform the following steps:

  • Click the Ellipsis icon available in the right side of the required optical subnet and select Edit Fibers.

    An Info dialog box appears displaying "Do you want to continue?.

  • Click OK.

    The UI freezes. You can only select a fiber from the map.

  • Select the required fiber and click the Done button appearing near the zoom icon.

    The fiber now appears in the Fiber links field. When you select the optical subnet, its corresponding fiber is highlighted in the map.

When a fiber is added to one of the subnets, it will be automatically removed from the other subnets. Only one subnet rule will be associated with one fiber.

Convert Non-SSON Network to SSON Network

The following procedure converts non-SSON networks to SSON networks:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click a non-SSON network that you want to convert to SSON.

The network opens. Ensure that the network is in Design Mode.

Step 3

Choose Network > SSON Convert.

Step 4

Click Ok.

The error message, "Network cannot be converted to SSON due to following errors : [Network contains waves with invalid traffic types: [100G-SD-FEC, 200G-SD-FEC]]" appears.

Step 5

Choose Network > Entity Editor > Services.

Step 6

Expand Waves and navigate to trail, and click a trail.

Step 7

Choose any CFP-2optical source from the Src Card Type drop-down list.

Step 8

Click Update.

Step 9

Choose File > Save.

Step 10

Choose Network > SSON Convert.

In the Warning pop-up window, choose 4K-2K or 4K-1K-2K from the Traffic Type drop-down list and click Ok. 4K-1K-2K is the defalut option. After the network is coverted, you cannot change the site type from 4K-2K to 4K-1K-2K or vice versa.

  • Select SSON optical source from the Traffic Type drop-down list in the properties window.

  • You cannot convert a non-SSON network with Traffic Sites to SSON.

  • To convert a non-SSON network to SSON network in Analyze mode, upgrade or release upgrade the analyzed network. In the Upgrade mode, or Release Upgrade mode network, unlock all the channels, and force CFP-2 optical source.

Convert NCS 2000 Network to NCS 1010 Network

Use the following task to convert an NCS 2000 network (both SSON and non-SSON) into to NCS 1010 network:

Table 10. Feature History

Feature Name

Release Information

Feature Description

Convert NCS 2000 Network to NCS 1010 Network

Cisco ONP Release 5.1

The newly introduced NCS 1010 Convert option under the Network menu enables you to directly convert an existing NCS 2000 network into an NCS 1010 network. This conversion eliminates the need to build an NCS 1010 network from scratch.

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click an NCS 2000 network (non-SSON or SSON) that you want to convert to NCS 1010 network.

The network opens. Ensure that the network is in Design Mode, Upgrade Mode or Release Upgrade Mode.

Step 3

Choose Network > NCS 1010 Convert.

Step 4

Click Ok.

The network does not get converted and shows an error message, when"

  • The network contains traffic sites.

  • The fiber type is LS or TWClassic.

  • The network contains OTN services.

  • The traffic Type property is set to anything other than Optical Source or Pluggable Card.

  • If the Traffic Type is 100G-SD-FEC or 200G-SD-FEC in non-SSON networks.

Step 5

Choose File > Save.

The following parameters get automatically updated after the conversion:

  • Contentionless sides are deleted and contentionless demands are automatically changed as colorless.

  • Protected channels are converted to two unprotected channels. The path, wavelength, regen sites and cards that are configured are retained.

Share a Network

Use these steps to share a network with one or more users or user groups:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Select a network from the list of networks.

The map of the selected network opens.

Step 3

Choose File > Share.

Step 4

Select one or more users or user groups from the Share Network dialog box.

Step 5

Click Share.

You can share the network with selected users or user groups in read-only mode.

Access a Shared Network

Use these steps to access a network shared by another user:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open Shared Network.

The Select Network To Open dialog box appears with a list of networks that are shared by other users.

Step 2

Click a network name from the list.

The shared network opens in read-only mode.

Step 3

Choose File > Save As.

Step 4

Enter the name in the Give a network name dialog box, and click Save.

A copy of the shared network is saved.

Note

 
You can work on this copy of network, depending on the privileges of your user role. For example, if your user role is Designer, you can change the design of the saved copy of the shared network, but you cannot analyze the shared network.

Step 5

(Optional) Share the updated network with other users.

Unshare a Network

Use these steps to unshare a network with one or more users or user groups:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click a network from the list of networks.

The network opens.

Step 3

Choose File > Share.

Step 4

In the Share Network dialog box, remove the name of one or more users or user groups from the list.

Step 5

Click Share.

The shared network is no longer available to the users or user groups that are removed.

Analyze the Network

Table 11. Feature History

Feature Name

Release Information

Description

Detailed Tooltip for Sites on the Map View

Cisco ONP Release 5.1

The See More Details option has been introduced in the tooltip displayed on hovering over Sites on the Map view of an analyzed network. This option shows the Amplifier data and PSD (Power Spectral Density) profile graph. The See More Details option avoids navigating to the Entity Editor to view these details.

The Analyze tool allows you to analyze the network after design completion.

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click a network that you want to analyze, from the list of networks.

The network opens.

Step 3

Choose Network > Analyze.

The Cisco ONP analysis progress indicator indicates the analysis status.

If there is any failure in the analysis stage, a dialog box appears with the message, “Analysis Failed.”

Step 4

Choose the Elements > Messages tab to see the list of error details in the analyzed network..

By default, it shows only the key messages when the Critical Only toggle button is enabled. If you want to view the entire network message, disable the Critical Only toggle button.

Note

 

Step 5

If you find an error message under the Messages tab, resolve the error and analyze the network again. Repeat this step until all errors are resolved.

Note

 

The error message "Unexpected Situation 999" may occur when the optical simulation becomes inconsistent due to incorrect values of properties entered or modified while designing the network. Call Cisco TAC to know the exact cause of the error and modify the suggested property value for the successful analysis of the network.

Step 6

(Optional) After the successful analysis of the network, to view the details such as Amplifier Data and PSD Profile graph for a site, hover the mouse over a site and click See More Details.

The amplifier data includes output power, EOL gain, attenuator in, attenuator out, and Raman gain. The attenuator details are not displayed for the NCS 1010 site. The PSD profile graph is displayed only for the NCS 1010 site.

Bottom-Up Flow

Bottom-up support enables step-by-step creation of a network. Adding all the services and waves on day 0 itself is not mandatory to analyze the network and view reports. Bottom-up flow enables you to build a network over a period.

Day 0: Create a network with only the topology added. Add all sites and add fibers between them. Analyze the network and view the reports without adding any services or waves.

Day 1: Add waves between the sites that are added on Day 0 and newly added sites and fibers. Analyze the network and view the reports.

Day 2: Add services and tag waves that are created on Day 1 and newly added sites and fibers. Analyze the network and view the reports.


Note

After you have created the topology with sites and fibers added, you can add either a service or a wave. You need not follow any specific order.

Bottom-up flow is applicable only for Non-SSON networks. In order to achieve this, you must set A2A mode as A2A_fast in network properties. You can also set the A2A channel type as contentionless, colorless, and colored.

Idle Timeout in the Analyze Mode

If you keep the browser idle for more than 15 minutes, you are logged out of Cisco ONP. The default timeout is set to 15 minutes. The System Admin can disable this feature by changing the enabled option in the configuration file on the server to false. You can change the default time of 15 minutes by editing the duration option in the configuration file.

During a long network analyze cycle, you get logged out due to idle timeout, and the network analysis runs in the background. When you log back, the same network opens in one of the following states:

  • If the analysis is still on, the analysis progress bar is shown, and you cannot perform any other action.

  • If the analysis is complete, the network opens in the Analyze mode.

  • If the analysis has failed, the network opens in the design mode, and you can view the reason for failure on the Elements > Messages page.

The session time out does not redirect you to the login page always; so, reload or enter the URL again.

Upgrade the Analyzed Network

Table 12. Feature History

Feature Name

Release Information

Description

NCS 1010 Network Upgrade Flexibility

Cisco ONP Release 5.0

After a network is analyzed, all the network elements get locked. With this feature, you can selectively unlock certain network elements to upgrade the network further. This helps in preventing accidental updates to the part of the network that does not need any modification.

Cisco ONP allows you to upgrade an existing network that is in analyzed mode. You can modify certain properties of a network element in the network while retaining the existing network layout and design in the locked state. Upgrade is supported for NCS2K, NCS4K-2K, NCS4K-1K-2K and NCS1010 networks.

Use these steps to upgrade your network:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click the analyzed network that you want to upgrade.

The network opens.

Step 3

Choose Network > Upgrade.

Step 4

Click Yes in the Warning dialog box.

The message “Network Upgraded Successfully” appears. The network goes into upgrade mode and network elements such as sites, fiber, waves (for non-SSON), media channel (for SSON), and circuits (for NCS 1010) are locked.

Step 5

Click the Ellipsis icon available in the right side of the network element that you plan to modify from the network tree panel, and choose Unlock. You can unlock individual element and one at a time for multiple elements until the lower level in the network tree hierarchy.

For example, you can hierarchically unlock at the node level, side level, side add/drop card level, and side amplifiers level.

If you want to change only the add/drop between MD-32-ODD/Even or BRK_24/16/8 in the NCS 1010 network, you can unlock the add/drop without unlocking the network elements that are higher in the hierarchy.

Step 6

You can make the following modifications according to your requirement:

  1. Edit the properties of network elements.

  2. Delete the network elements from the network.

  3. Add a new site, wave, services, demands, optical subnet, or fiber into the network map.

The newly added elements are automatically displayed in the network tree panel, and by default, remain unlocked.

Note

 

You can insert a node in the upgrade mode only for the unlocked fiber. Therefore unlock the fibers that are connected to the node and add nodes to the network.

Step 7

Choose File > Save.

Step 8

Choose Network > Analyze.

After the analysis is completed, the newly added elements are locked, and the optical reports and installation parameters of the upgraded network are updated.

When you add services or fibers while upgrading a network that has where layout template is applied, the template gets updated with the newly added service or fiber. You can export this template, make changes and reapply it to another network.

Step 9

Choose Network > Design to further upgrade the newly upgraded network design.

When you upgrade a network every time, Cisco ONP saves the new version of the network as a child network, and maintains the parent and child relationship.

Upgrade LNI Network

Table 13. Feature History

Feature Name

Release Information

Feature Description

Upgrade LNI Network

Cisco ONP Release 4.1

This feature allows you to upgrade and modify the imported LNI (Live Network Import) network as required. You can also correct LNI errors, reanalyze the network, and view the updated parameters such as BOM, layout, connections, and optical results.

The Upgrade feature can be used to correct LNI errors, modify the network, reanalyze the network and view updated BOM, Layout, Connections, and Optical Results.

Use these steps to upgrade the LNI network:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click a network imported through LNI that you want to upgrade.

The network opens.

Step 3

Choose Network > Upgrade.

Step 4

Click Yes .

The message “Network Upgraded Successfully” appears. After upgrading the network, the network goes into upgrade mode, and network elements such as Sites, Fiber, OTN Services and Media Channels are locked.

You can modify certain properties of the network element, while retaining the existing network layout and design locked.

Step 5

Click the Ellipsis icon available in the right side of the network element that you plan to modify from the network tree panel, and choose Unlock. You can unlock individual element and multiple elements until the lower level in the network tree hierarchy.

For example, you can unlock node level, side level, side add/drop card level, and side amplifiers level.

Step 6

You can make the following modifications according to your requirement:

  1. Edit the properties of network elements.

  2. Delete the network elements from the network.

  3. Add a new site, wave, services, demands, optical subnet, or fiber into the network map.

The newly added elements are automatically displayed in the network tree panel, and by default, remain unlocked.

Note

 

  • Unlocking media channel has few constraints. See Media Channel Unlocking Scenarios.

  • Cisco ONP automatically sets the scalable up to degree value based on certain design rules, as this value is not present in the network that is imported through LNI. Hence, we recommend you to check and update the actual scalable up to degree value, if necessary.

Step 7

Choose File > Save.

When you upgrade a network every time, Cisco ONP saves the new version of the network as a child network, and maintains the parent and child relationship.

Step 8

Choose Network > Analyze.

Note

 

Analysis is successful only if a consistent and valid network is imported from LNI.

Step 9

If the analysis fails, go to Elements > Messages tab and check for the failure reason.

Step 10

If any validation error is thrown from any component, resolve the issue by manually changing the network or by reimporting the LNI networks after correcting some configuration on the live network. See Possible Error Scenarios and the Workarounds.

Step 11

Re-Analyze the network.

Step 12

Click Layout tab and edit the layout manually to adjust chassis or card position for NCS 4000 and NCS 1004 platforms. See

Step 13

Click the BOM tab, and the Results tab to view the BOM and optical results.

Note

 

  1. If the LNI inventory has any unconnected cards, that will be removed from the CONP reports after upgrading and analyzing the LNI network.

  2. The following PIDs are added in the Cisco ONP BOM after upgrading and analyzing the LNI network. These PIDs are not part of the LNI network BOM.

    • Pre-provisioned PIDs

    • Release software PIDs

    • Optical cables―Cables used for Internal Patch-cord Connection (IPC) is not imported in LNI as this data cannot be retrieved from device

    • Attenuators

    • SMR port license PIDs―Only SMR card PID is imported as part of LNI. If licensed PID is retrieved, corresponding port licenses are added after upgrading and analyzing the LNI network, based on the number of ports used

    • USB cables―Added if pre-provisioned passive cards present

    • Blank cards―Blank cards are not imported. They are added in Cisco ONP after upgrading and analyzing the LNI network

Media Channel Unlocking Scenarios

The following table explains the various media channel conditions and the unlocking possibilities.

Table 14.

Conditions

Unlocking Possibilities

Channel has OTN services going over it. For 4K-2K, the service is directly mapped to the channel, and for 4K-1K-2K, the service is mapped via OTU4 trail.

Cisco ONP throws an error indicating that there are OTN services associated with the media channel. You can neither update nor delete the channel. To unlock and delete the media channel, unlock associated OTN services first and then unlock the media channel.

Channel does not have OTN services going over it. For example, in case of 4K-1K-2K, the media channel carries empty OTU4s.

Cisco ONP allows you to unlock the channel but does not automatically clear the properties of the channel or its child entities such as Trail and Section, irrespective of whether the properties or user-defined or auto-assigned. Also, the channel is not unlocked automatically, if it has any associated OTU4.

After unlocking the channel, you can delete the channel, but cannot update the properties of the channel or its child entities. (When the properties of the media channel or its child entities are auto-assigned, only wavelength is cleared and set to Auto, and all other properties are not cleared.)

Channel has neither OTN services nor OTU4(s) going over it. In case of 4K-1K-2K networks, Media Channel does not carry even empty OTUs.

Cisco ONP allows you to unlock the channel and automatically clears auto-assigned properties. After unlocking you can perform the following:

  • Update various properties of the channel and its child entities.

  • Delete the channel.

Possible Error Scenarios and the Workarounds

Following table describes the workarounds for the errors that are shown under the Elements > Messages tab.

Table 15. Error Scenarios and the Workarounds

Error Message

Workarounds

Device Authentication failure

Check the username and password of the device, which is given in LNI input Excel and retry LNI import with valid device credentials.

Device collection failed or Device not reachable.

Check for any connectivity issue in the setup, fix it and retry LNI import.

In Site4.A, output power setting is not supported by the amplifier.

Unlock C-Band amplifiers for side A inside Site4 in the Network tree and force the valid output power. If not sure, set it to Auto and analyze. Cisco ONP chooses the best value based on the configuration.

Cannot Route demand! Did not find any valid Omnidirectional Side.

For protected OTN service or SSON service, a minimum of two contentionless sides must be present on the source and destination sites. Check and add contentionless sides on the target service source and destination site and analyze.

  • Demand OTU3 has unrecognized type [OTU3]

  • ServiceGroup does not support the demandType OTU3 for OTU3

Only 100GE, 10GE, and STM-64 service rates are supported. If any other service rate is present in the network, unlock the specific service, change it to one of the supported service types and update the ODU time slot accordingly and analyze.

Primary OTN Demand [100GE_Flex] has invalid Timeslot ranges. Allowed ranges are [1-80]

100GE service type must have ODU time slot in the range of 1–80. If any other value is set, update the correct value or leave it blank so that Cisco ONP can set it to the correct value.

Cannot complete mesh connections at Site3.

Unlock the site and reanalyze.

No OTN demand found for NCS4K trunk port - NCS4016-B - OTU40/8/0/1.

No action required. This is an information message to the user.

Fiber between Node1.A and Node2.B has an invalid value in connector loss value

Unlock the corresponding fiber couple and update the correct connector loss value to be greater than zero. The typical value is 0.2.

Fiber between Nod1.C and Node2.C has an invalid value in Tot SOL Loss w/o Connectors.

Unlock the corresponding fiber couple and update the correct Tot SOL Loss w/o Connectors. The value should be greater than zero.

Span Fiber-2 is forced as Raman but no traffic is present.

Remove Raman forcing on the fiber, or check and force the path for any service so that it goes through Raman enabled span.

Couple Fiber-2 has Raman enabled on the duct but corresponding Raman Forcing is missing.

Force RAMAN-CTP or COP on the Fiber-2 connecting node interface or remove RAMAN forcing on the Fiber-2

Note

No specific action is required for noncritical messages. These are just information messages to the user.

Upgrade the Software Release of a Network

Table 16. Feature History

Feature Name

Release Information

Feature Description

Release Upgrade

Cisco ONP Release 4.1

This feature allows you to choose the NCS 2000 system release to the desired release (11.1.0, 12.0.1, or 12.1.0), while performing the release upgrade of CTP network, Cisco ONP network, network imported through Excel, and LNI network.

You can upgrade the software version of a network that is imported from CTP, the network created in Cisco ONP, LNI Network, and Excel imported network to any desired release. Release upgrade is supported for both SSON and non-SSON networks having NCS 2000 nodes with ROADM, OLA, Traffic, or the Passthrough functionality.

Release upgrade is supported starting with NCS 2000 Release 11.1.0.


Note

NCS 2000 supports SVO from the Release 12.1.0.

The following table lists the releases to which the existing system release can be upgraded, for each type of network..

Network

Upgrade Release

CTP network (.mpz)

  • From 11.0.0 to 11.1.0, 12.1.0, 12.2.0, and 12.3.1

  • From 11.1.0 to 12.1.0, 12.2.0, and 12.3.1

Cisco ONP network

  • From 11.0.0 to 11.1.0, 12.1.0, 12.2.0, and 12.3.1

  • From 11.1.0 to 12.1.0, 12.2.0, and 12.3.1

  • From 12.1.0 to 12.2.0, and 12.3.1

Excel imported network

  • From 11.0.0 to 11.1.0, 12.1.0, 12.2.0, and 12.3.1

LNI network

11.1.0 to 12.0.1, 12.1.0, and 12.3.1

11.1.0 to 12.1.0, 12.2.0, and 12.3.1

Note

 

You cannot directly release upgrade an LNI network. Perform the following:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click the network in which you want to perform system release upgrade.

The network opens.

Step 3

Choose Network > Release Upgrade.

Step 4

Choose the System Release of NCS 2000, to which you want to upgrade, from the drop-down list.

Step 5

Click Submit.

The upgraded network is saved as a child network.

The network elements are locked in the network tree after the release upgrade. You can unlock and modify the elements.

Note

 

If the PMD coefficient does not get updated with the expected value, update the fiber type first, followed by the PMD value when you edit the fiber properties.

Plan Mode

Table 17. Feature History

Feature Name

Release Information

Feature Description

What-if Analysis for OTN Services

Cisco ONP Release 4.1

This feature extends the current implementation of What-if analysis for the OTN Services that are connecting the aggregated nodes. The failure report includes the number of failed services, restored services, and unrestored services. This feature is supported for SSON (4K-1K-2K and 1K-2K) and non-SSON (4K-2K) networks.

Plan mode enables you to perform what-if analysis on the existing network resources, such as failing and restoring the fiber, OTN services, and site. This mode is applicable only for PLANNER and ADMIN roles. This mode simulates the actual network behavior during failure and determines whether a service can be rerouted; however, this mode does not suggest how to turn-up new wave lengths, insert new nodes, cards, or ports, and so on.

The network can enter the Plan mode only from the Analyze mode. The what-if analysis can be done on the NCS 2000 aggregated node (ROADM, OLA, Passthrough), Traffic node (1K-2K, 4K-2K and 4K-1K-2K), the node created in Cisco ONP, CTP imported (mpz), and LNI imported networks.

Enter the Plan Mode

The following procedure shows how to enter the Plan mode:

Before you begin

Log in to Cisco ONP Web Interface as a user with admin or planner role.

Procedure

Step 1

Open the network in Analyze mode.

Step 2

Choose Network > Enter Plan Mode.

Switching to Plan Mode progress bar appears. The message, Entered Plan Mode successfully appears in the Success dialog box.

Exit the Plan Mode

The following procedure shows how to exit the Plan mode:

Before you begin

Log in to Cisco ONP Web Interface as a user with admin or planner role.

Procedure

Step 1

Open the network in the Analyze mode.

Step 2

Choose Network > Exit Plan Mode.

Fail a Fiber

The following procedure shows how to fail a fiber or a list of fibers in the Plan mode:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Expand the Fibers option in the network tree panel.

Step 2

Click the Ellipsis icon available in the right side of the fiber, and click Fail. You can choose multiple fibers to fail by checking the check boxes next to the fibers.

All media channels or waves, OTN services, and demands that pass through the failed fiber fail. You can see the failed media channels from the Map option or from the network tree.

Note

 

  • You can also fail a fiber or undo a fiber failure from Map.

  • You can view the unrestored channel details in the failure report and the reason for restoration failure under Elements > Messages tab.

  • Failed channels are indicated with a red cross symbol, impacted fibers are marked with yellow cross symbol, and the restored channels with a green tick symbol.

Undo Fiber Failure

The following procedure shows how to undo fiber failure in the Plan mode:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

In the network tree panel, click Fiber.

Step 2

Click the Ellipsis icon available in the right side of the failed fiber, and click Undo Fail.

Create a Failure Set

You can click any set of fibers or sites, click the Ellipsis icon available in the right side, and fail them. The failed fibers or sites are marked with a red cross mark beside them. You can also choose multiple fibers or sites.

  • Cisco ONP saves the user created failure sets.

  • You can save multiple failure sets under a given failure group.

The following procedure shows how to create a failure set:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Click the Ellipsis icon available in the right side of the Failure Groups option in the network tree panel.

Step 2

Click Add Failure Group.

A Failure group gets created.

Step 3

Choose the Fibers or Sites to fail by checking the check boxes next to the them.

Step 4

Click the Ellipsis icon available in the right side of the chosen Fibers or Sites and click Fail.

Step 5

Select the network name, and right-click.

Step 6

Click Add Failure Set.

Step 7

Select the Failure Group to which the failed fibers or sites must be added.

The Failure Set gets created under the Failure Group. The failed fibers or sites are added to the created Failure Set.

Note

 

If networks have dark fibers (which does not carry any traffic), that path is not considered for restoration.

Fail a Site

The following procedure shows how to fail a site or a list of sites in the Plan mode.

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Expand the Sites option in the network tree panel.

Step 2

Click the Ellipsis icon available in the right side of the site, and click Fail. You can choose multiple sites to fail by checking the check boxes next to the sites.

You can also fail a site from the network map view.

Undo Site Failure

The following procedure shows how to undo the site failure in the Plan mode:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

In the network tree panel, click Site.

Step 2

Click the Ellipsis icon available in the right side of the failed site, and click Undo Fail.

You can also undo the site failure from the network map view.

Failure Report

The failure report shows the following parameters:

Report

Description

Failed Fibers

Shows the failed fibers in the network.

Failed Sites

Shows the failed sites in the network.

Impacted Fibers

Shows the fibers that are impacted due to the site failure.

Total Channels

Shows the total number of media channels in the network.

Failed Channels

Shows the total number of media channels that are passing through the failed ducts or sites in the network.

Restored Channels

Shows the total number of media channels that are restored from the failure state.

Unrestored Channels

Shows the total number of media channels that are not restored from the failure state due to the unavailability of alternate paths.

Fiber HotZones

Shows the fibers that have utilized greater than or equal to 80% of the bandwidth. You can modify the threshold by updating the value in the Feature.Properties file.

  • Fiber: Shows the fibers that are listed under fiber hot zones.

  • Utilization Before (%): Shows the percentage of bandwidth that is utilized before the channel restoration.

  • Utilization After (%): Shows the percentage of bandwidth that is utilized after the channel restoration.

Total Services

Shows the total number of services going through the fiber that was failed.

Failed Services

Shows the number of failed services going through the fiber that was failed.

Restored Services

Shows the number of restored services going through the fiber that was restored.

Unrestored Services

Shows the number of unrestored services going through the fiber that was restored.

:

Export Failure Report

The following procedure shows how to export the failure report.

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Choose Export > Failure Report to export the failure report as an Excel sheet.

You can save the Excel sheet.

Export Failure Report from Map

The following procedure shows how to export the failure report from the map:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Click Failure Report under Map.

Step 2

Click Export to export the failure report as an Excel sheet. You can save the Excel sheet.

Restore Failed Channels

The following procedure shows how to restore the failed fibers:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose Network > Enter Plan Mode.

Step 2

Click Restore.

The message, "Restoration is in progress" appears.

Step 3

Click Failure Report to view the number of media channels that are restored or unrestored.

Note

 

Restored channels are indicated with a green color tick mark in the network tree and map.

All media channels or waves, and demands that pass through the restored fiber also get restored. The Path Computation Element (PCE) supports the restoration of the OTN services based on the optical feasibility and OTN constraints.

Automatic Suggestion for Regeneration Sites in Plan Mode

Table 18. Feature History

Feature Name

Release Information

Feature Description

Automatic Suggestion for Regeneration Sites

Cisco ONP Release 5.0

Cisco ONP displays feasibility report in the Plan mode. This report automatically suggests regeneration sites for the channels with high and marginal risk of failure. You can incorporate these regeneration sites in the optical network to make the channel optically feasible. This feature avoids multiple iterations required to manually create the regeneration sites and test the optical feasibility of large networks.

Cisco ONP submits the networks that are not optically feasible (the channels that have marginal and high risk of failure assessed based on the EOL and SOL indicated as red, and orange in the Optical Results page). PCE runs a regen suggestion algorithm and suggests the regeneration sites. When you enter the plan mode, Cisco ONP displays regen sites in the Feasibility Report displayed at the bottom of the map. You can apply the suggested regen sites to make the network optically feasible.

Auto regen site suggestion is supported for both SSON and non-SSON network that has contentionless channels or waves between NCS2K (ROADM) or 4K-1K-2K(TRAFFIC) sites.

If the channels have already regen forced, the regen suggestion is shown at sections level.

The Feasibility Report table includes the following fields:

Table 19. Feasibility Report

Field

Description
Channel Name

Displays the list of channels (trail and sections) that are not optically feasible.

Alarm

Displays the color of alarm (red, orange, or yellow)

Paths

Displays the actual path of the channel as hyperlink. If you click the link, the path is highlighted in the map.

Suggested Regens

Displays the intermediate sites that can be used as regen sites so that the channel becomes optically feasible.

You can also export the report by clicking Export.

The Suggested Regen field is displayed as NA for the following reasons:

  • The channels with yellow alarms, as the loss is negligible.

  • When the loss is high and the number of available intermediate sites are not enough to compensate the overall loss.

  • The intermediate sites where no contentionless sides are added will not be considered for regen sites.

Apply Suggested Regen

Use this task to apply the suggested regeneration sites to make the network optically feasible.

Before you begin

Log in to Cisco ONP Web Interface as a user with admin or planner role.

Procedure

Step 1

Enter the Plan Mode.

Step 2

Choose Network > Open Feasibility Report.

The Feasibility Report is displayed at the bottom of the map.

Step 3

Select the channels for which regeneration has to be applied and click Apply.

Step 4

Click Ok in the Suggested Regen Applied dialog box.

Step 5

Click Exit Plan Mode.

Step 6

Click Yes in the Warning dialog box.

The network gets auto upgraded and saved as a new network. The channels with regens applied are unlocked with the Regen Sites property auto updated and noneditable.

Step 7

Analyze the network.

In the Optical Results page, the SOL, and EOL fields become green, and the channels are not displayed in the feasibility report again when you switch to the plan mode.

Import Optical Sources

Table 22. Feature History

Feature Name

Release Information

Feature Description

Create Optical Source using Excel Sheet

Cisco ONP Release 5.0

You can create an optical source by defining the details of interfaces and the corresponding optical classes in an Excel template. This feature provides you with the flexibility to create any required optical source based on existing or new traffic resources.

Optical Source Wavelength is a way to connect a DWDM interface from any external element to a third-party optical network.

Use this procedure to import an optical source:

Before you begin

Log in to Cisco ONP Web Interface.

If you want to import the optical sources from an Excel sheet, download the template by choosing Export > Optical Source Template. Fill the necessary details in the Interfaces and Optical Classes sheets of the downloaded template and save the file. See Optical Parameters Available in the Excel Sheet for Optical Sources Creation.

The fields in the columns D, E, and F that are not mandatory are hidden by default in the Interfaces sheet of the template. You can expand the columns and fill the details.

Procedure

Step 1

Choose Manage > Optical Source.

The Manage Optical Source dialog box appears. The default optical sources available in the server are:

  • OpticalSources_NCS2K_400GXP-LC_NCS4K-4H-OPW-QC2

  • NCS1004_OpticalSources_V3

  • ONS-CFP2D-400G-C-OpticalSources-V2.mxd

  • QDD-400G-ZRP-S-OpticalSources-V2.mxd

Note

 

By default, all existing optical source files are loaded in the server.

Step 2

To import optical source as .mxd file:

  1. Click Add.

  2. Choose Optical Source (.mxd)

    The Import Optical Source (.mxd) dialog box appears.

  3. Click Choose File and browse to the .mxd file stored in your local system, and click Import.

    After the optical source is imported, a list of related interfaces appears.

Step 3

To import the optical source from an Excel sheet:

  1. Click Add.

  2. Choose Optical Source (.xlsx)

    The Import Optical Source (.xlsx) dialog box appears.

  3. Click Choose File and browse to the .xls file (optical source template) saved in your local system, and click Import.

  4. Choose the Release Version of the NSC2K network.

  5. Select the interface.

  6. Click Create.

    After the optical source is imported, a list of related interfaces appears.

Step 4

Choose the interfaces to import by checking the check box next to them. The selected interfaces get added to the Type drop-down list in the properties window of the network tree.

When you create waves, you can use the interfaces in the Type drop-down list.

Optical Parameters Available in the Excel Sheet for Optical Sources Creation

The following parameters are available in the Excel sheet template for creating optical sources.

Table 23. Optical Parameters for Creating Optical Sources

Parameters

Description

Interface Name

The name of the interface. It should be unique for all the interfaces that are added in the file.

Vendor Name

The name of the vendor.

Vendor IDs

The vendor IDs.

Platform

The name of the platform.

Pluggable PID

The PID of the pluggable.

Name

It is the combination of the Data Rate and Open Config Code. For example: R400G#5000.

FEC

The forward error correction type for the given interface.

Data Rate

The line rate for the given interface.

Mod Format

The modulation format to be used for the interface.

Baud rate

The baud rate for the given interface.

BPS

The speed of data transfer (bits per symbol) for the given interface.

Open Config Code

The unique code assigned to the interface as specified by the Open Industry Standard for optical networks. For example: 5000.

Sub Mode

Enter the sub-mode if there are any associated with the interface. If not, leave it blank.

Trunk Rate

The trunk rate of the transponder.

Nominal Bit Rate

The bit Rate for the interface

BER Target

The post FEC BER Target for the interface

Power Min and Power Max

The minimum and maximum Tx Power for the interface.

Ovl

The overload power limit for the interface

OL Power

The Rx power sensitivity for the interface.

OL OSNR

The Rx OSNR sensitivity for the interface.

PL Power

The extended Rx power sensitivity.

PL OSNR

The Rx OSNR sensitivity at the extended Rx power sensitivity.

Variance

The variance in power in the Txp.

Opt Class

The optical class to which the interface will be mapped.

InBand OSNR

The Tx OSNR contribution due to laser instability inside the Txp.

Out of Band OSNR

The Tx OSNR contribution due to Add/Drop at 80% and 100% channel spectral density.

ONC Release

The Software release of Cisco ONC from which this interface will be supported.

Interface Type

It is the same as the name of the interface.

Min and Max Frequency

The operating frequency range of the interface.
Table 24. Optical Class Parameters

Class Parameters

Description

Interface Type

The name of the interface. Enter the same name of the interface, if you are doing one to one mapping with the interface.

Opt Class

You can create the optical classes for different optical sources. Certain optical parameters are added in the optical class. Based on interface properties, multiple interfaces can be mapped to the same class.

Enter a unique alphanumeric name for the Optical class. While creating new optical classes, we recommend using the name starting with “X” to avoid overlapping in the existing classes.

Bit Rate

The bit rate for the given interface.

Baud Rate

The baud rate for the given interface.

ModGB Coeff

The modulation guard band coefficient.

Modulation OSNR Penalty

The modulation OSNR penalty.

GBf

The filtering GuardBand at different OSNR penalties.

Mux/Demux Filtering Penalty

Enter the mux/demux filtering penalty value, if there are any.

Chromatic Dispersion

The chromatic dispersion limit at different OSNR penalties.

Find Optical Sources Faster

Use these steps to find the optical sources faster.

Before you begin

Log in to Cisco ONP Web Interface

Procedure

Step 1

Choose Manage > Optical Source.

The Manage Optical Source dialog box appears.

Note

 

By default, all existing optical source files are loaded in the server.

Step 2

To find the customized optical sources:

  1. Check Show only line rate tuner generated sources.

    The dialog box displays only the customized optical sources.

Step 3

To filter the required optical source:

  1. Enter the optical source name in the Search box.

    The dialog box displays the optical sources matching the typed keyword.

Download Optical Sources

Use this procedure to download an optical source:

Procedure

Step 1

Choose Manage > Optical Source.

The Manage Optical Source dialog box appears.

Step 2

Choose an optical source to download.

Step 3

Click Download and select one of the following options to download the optical sources.

  • .mxd—Downloads the selected optical sources as .mxd file.

  • .xlsx—Downloads only the optical sources which were created and added using the Excel template, as .xls file. Others such as the optical sources which were directly added as .mxd file, are not included in the .xsl file.

  • .xml—Downloads the optical source data as a .xml file. This file contains the application codes for circuit provisioning in Cisco ONC, optical parameters of the interfaces, PIDs, and Vendor ID information. You can load the .xml file into Cisco ONC to create circuits with these optical source interfaces. See Alien Import.

    After the import is successful, the optical source will be present under the Application Code tab in the Service Manager screen of the Cisco ONC application. See Service Manager.

Delete Optical Sources

Use this procedure to delete an optical source:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose Manage > Optical Source.

The Manage Optical Source dialog box appears.

Step 2

Choose an optical source to delete.

Step 3

Click Delete to delete the selected optical sources.

Layout Template for NCS 2000 Network

Layout templates are reusable templates that are used to design layout configurations for the NCS 2000 network. When you have an NCS 2000 network with fixed layout rules applicable for multiple nodes, you can use these templates to accurately set up the layout for those nodes. These templates save you time, effort, and they minimize errors.


Note

Layout template is not supported for a mix of TXP and Real card label of transponders.

Export Layout Template

Table 25. Feature History

Feature Name

Release Information

Feature Description

Layout Template Enhancement

Cisco ONP Release 4.1

 This feature allows you to export the layout template for an individual site or for all the sites. The layout template export is possible only if the network is analyzed in Cisco ONP Release 4.1. The export of layout template is supported on 4K, 4K-1K-2K, and 2K nodes.

Use the following procedure to export the layout template of a specific site or all sites:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click the network whose network layout template you want to export.

The network opens.

Step 3

Choose Network > Analyze.

Note

 

Network must be successfully analyzed to proceed further.

Step 4

Click the Layout tab.

Step 5

Click the name of a site in the left side panel, for which you want to download the layout template.

Step 6

Hover the mouse pointer over the Export icon and click Layout Template for Current site or All Sites.

The Export Layout Template dialog box appears.

Step 7

Click Export.

Note

 

  • We recommend that you export the layout template only in the analyze mode. Exporting layout templates in the upgrade and release upgrade modes may be inaccurate.

  • You can export the layout template for node of the type 4000 and 1000, but the exported layout template will contain only the layout of NCS 2000 nodes. To export the layout template for the node type NCS4K-1K-2K and NCS1K-2K, perform the following:

    • Right click the site name in the Layout panel, and click Export.

    • Click OK to export the layout template in text format.

  • The NCS 2000 layout template is in XML format.

Import Layout Template for NCS 2000 Network in to Cisco ONP Database

Use the following procedure to import a template for NCS 2000 Network into the Cisco ONP database:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose Manage > Layout Templates.

Step 2

Click Add in the Manage Layout Template dialog box.

Step 3

Click Choose Files and select a template from your local system.

Step 4

Click Import.

The template is imported to the Cisco ONP database.

Download Layout Template for NCS 2000 Network

Use the following procedure to download a template from the Cisco ONP database:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose Manage > Layout Templates.

Step 2

In the Manage Layout Template dialog box, choose the template that you want to download.

You can also choose multiple templates.

Step 3

Click Download.

Save the template into your local system.

Delete Layout Template for NCS 2000 Network

Use the following procedure to delete a NCS 2000 Network template from the Cisco ONP database:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose Manage > Layout Templates.

Step 2

In the Manage Layout Template dialog box, choose the template that you want to download.

You can also choose multiple templates.

Step 3

Click Delete to delete the template from the Cisco ONP database.

Apply NCS 2000 Layout Template into a Site

Use this task to apply the NCS 2000 Layout template into a site. The site can be NCS4K-2K, NCS1K-2K-4K, or NCS1K-2K, but the template will be applied only to the NCS 2000 section of that site.

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click the network where you want to apply the layout template into an NCS 2000 site.

The network opens.

Step 3

Choose Network > Entity Editor.

Step 4

In the Entity Editor window, expand Sites and choose the site.

Step 5

In the right pane, choose the required template from the Layout Template drop-down list.

Note

 

Make sure that the other properties under Layout section such as Chassis Type, Power Supply, Controller Card, Node Protection, Redundant Controller Card, and MF-Unit are

set to Auto. Otherwise the Layout Template drop-down list remains disabled.

Import NCS 1000 and NCS 4000 Layout Template into NCS1K-2K and NCS4K-1K-2K Sites

Use this task to import NCS 1000 and NCS 4000 layout templates that were exported, into 4K-2K and NCS4K-1K-2K Sites.

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click the network that has the site to which you want to apply the layout template.

The network opens.

Step 3

Click the Layout tab.

Step 4

Add the required NCS 4000 and/or NCS 1000 chassis, cards, and pluggables to the required slot of the added chassis. See Edit the Layout Manually

Step 5

Click Edit to enter the edit mode.

Step 6

Right click the name of a site on which you want to import the layout template, and click Import.

Step 7

Choose the layout template that you want to import into the site and click OK

The layout template gets applied to the site.

Note

 

When you modify an exported template, ensure to rename the modified template before reapplying it to a site in the upgrade mode so that the changes in the template reflect in the layout view.

Layout Visualization

Table 26. Feature History

Feature Name

Release Information

Feature Description

Layout Visualization and Edit

Cisco ONP Release 4.1

 This feature allows you to view and adjust the position of NCS 4016 and NCS 1004 chassis and cards in the layout. This feature is supported only on 4K-1K-2K and 1K-2K aggregated nodes and not supported on stand-alone NCS 2000 node.

This feature allows you to visualize the layout of a network, designed using Cisco ONP. You can view the arrangement of racks, chassis inside the racks and cards inserted in the chassis. When you click a particular Rack or Chassis or Card in theLayout panel, the corresponding Rack or Chassis or Card gets highlighted in the Layout image. You can zoom in and zoom out the Layout image.

View Network Layout

The procedure to view the network layout is as follows:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

From the File menu, click Open.

The Select Network To Open dialog box appears.

Step 2

Click the network to open from the list of available networks.

Step 3

Choose Network > Analyze.

Note

 

Network must be successfully analyzed to proceed further.

Step 4

Click the Layout tab.

Step 5

In the Layout panel on the left side, click the site.

Note

 

The OLA sites are highlighted in green color, ROADM sites in blue color and Aggregated nodes in purple color.

Passthrough sites are not listed under layout.

For NCS 1010 network, Aggregated nodes are not available.

Step 6

Click any rack under a site to visualize the rack view of the network under Layout tab.

Step 7

Click any chassis under a rack to visualize the chassis view of the network.

Note

 

When you click the Aggregated node under Layout panel, NCS 1004, NCS 2000 and NCS 4000 series chassis are placed in separate racks.

You can click the screenshot icon to take screenshot of all racks layout of the selected site.

Edit the Layout Manually

The Manual layout edit feature is used to adjust the position of NCS 4016 and NCS 1004 chassis and cards in the layout.

The procedure to edit the layout manually is as follows:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click the network to open from the list of available networks.

Choose the network where 4K-1K-2K and 1K-2K aggregated nodes are added. This feature is not supported on NCS 2000 node.

Step 3

Choose Network > Analyze.

Note

 

Network must be successfully analyzed to proceed further.

Step 4

Click the Layout tab.

Step 5

Click Edit to enter the Edit mode.

Step 6

Select the Chassis (4K-1K-2K and 1K-2K) or Card from a particular rack.

Step 7

Drag and drop the selected Chassis or Card from a particular rack to the empty slot in the same or different Chassis or Rack.

Step 8

To add pluggables to a particular card, perform the following steps:

Note

 

Make sure to add the required cards.

  1. Select the Rack.

    The cards available in the Rack are displayed.

  2. Select the card to which you want to add pluggables.

    The ports available in the card are displayed.

  3. Select the pluggable for each port.

    The following pluggables are displayed:

    Card

    Supported Pluggables

    NCS4K-4H-OPW-QC2

    • ONS-QSFP8-LR4=

    • QSFP-110G-SR4-S=

    • ONS-QSFP-4*10-MLR=

    NCS4K-4H-OPW-LO

    • ONS-QSFP8-LR4=

    • QSFP-100G-SR4-S=

    • ONS-QSFP-4*10-MLR=

    NCS1K4-1.2T-K9=

    • ONS-QSFP8-LR4=

    • QSFP-100G-SR4=

    • ONS-QSFP28-LR4-S=

    • QSFP-100G-CWDM4-S=

    • QSFP-100G-SM-SR=

  4. Click the Tick icon.

Step 9

Click Done to save the changes in the Layout.

View the Layout Details Using Tooltip

You can hover over the Racks or Chassis or cards in the Rack and view the details using Tooltip. Click See More Details to view the details of port no. type, pluggables and rates.

Copy the Configurations of a Particular Node to Another Node

The configuration can be copied from one node to another node only for the manual 4K-1K layout movement. It is not supported for NCS1010 layout movement.

The procedure to copy the configurations of a particular node to another node of a different site is as follows:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click the network to open from the list of available networks.

Step 3

Choose Network > Analyze.

Note

 

Network must be successfully analyzed to proceed further.

Step 4

Click the Layout tab.

Step 5

Select the Rack, Chassis, or Card of a particular site.

Step 6

Select the site to where you want to copy the configurations to, from the Copy To drop-down list.

Step 7

Click New Rack to add a new rack. The configuration gets copied to the new rack.

Step 8

Click Done to save the changes in the Layout.

Note

 

You can also cut, copy, and delete Racks, Chassis, and Cards in the Chassis from the Layout.

Export Port Usage of LNI Network

Table 27. Feature History

Feature Name

Release Information

Feature Description

Multi-Layer Connections Phase 1

Cisco ONP Release 4.1

This feature provides the connection trace of a service across various interfaces in a network. This feature allows you to export the following:

  • Consolidated port usage report based on network in addition to the internal port details which you can view by hovering the mouse pointer over the tooltip

  • Port usage report based on sites

  • Port usage report only for LNI imported networks

Use the following procedure to export the port usage details of an LNI network:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click the LNI network whose port usage you want to export.

The network opens.

Step 3

Choose Network > Analyze.

Note

 

Network must be successfully analyzed to proceed further.

Step 4

Click the Layout tab.

Step 5

Click the name of a site in the left side panel,for which you want to download the port usage.

Step 6

Mouse hover the Export icon and click Port Usage for Current site or All Sites.

The Export Port dialog box appears.

Step 7

Click Continue.

The port usage details are exported in the Excel sheet format.

Note

 

  • If you modify any services in the NCS 4000 node after upgrading the LNI network , the changes will not get updated in the port usage details.

  • The demand labels seen against the trunk ports of NCS4K-DWDM line card in the port mapping report are not logically related to the NCS 4000 trunk ports, but are related to NCS 1004 client ports.

Define Multilayer Connections for SSON Network

Table 28. Feature History

Feature Name

Release Information

Feature Description
NCS4K-1K-2K Multilayer Connection Trace

Cisco ONP Release 4.2

You can define Multilayer Connections (MLC) such as cards and pluggables for NCS 4K-1K-2K and NCS 1K-2K aggregated nodes in an SSON network.

This new tab in the Layout page helps to view end-to-end MLC trace for OTN service starting from NCS4K IN until NCS2K Add/Drop for LNI network. Also, it helps to define new traces for the newly added service and maintain the network design and deployment.

Use this procedure to define the Multilayer Connections (MLC) such as cards and pluggables for 4K-1K-2K and 1K-2K aggregated nodes in an SSON network.

Before you begin

Log in to Cisco ONP Web Interface

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click a network in which you want to define the multilayer connections.

Make sure that the network is in analyzed mode and 4K, 1K, and cards are defined in the network.

The network opens.

Step 3

Choose Network > Analyze.

Note

 

Network must be successfully analyzed to proceed further.

Step 4

Click the Layout tab.

Step 5

In the left pane, click the MLC tab.

You can also navigate to the MLC page by clicking the Ellipsis icon available in the right side of the service name in the network tree and clicking View in MLC

You can view a table describing the following properties of the service, in the right pane:

Table 29. MLC Details

Properties

Description

Name

Name of the service

Group Name

Name of the group to which the service belongs to

Type

Traffic type

Src Site

Source site

Src NCS4K In

Details of Rack/Slot/Card/Port in the input side of the NCS 4000 chassis in the source site

Src NCS4K Out

Details of Rack/Slot/Card/Port in the output side of the NCS 4000 chassis in the source site

Src NCS1K In

Details of Rack/Slot/Card/Port in the output side of the NCS 1004 chassis in the source site

Src NCS1K Out

Details of Rack/Slot/Card/Port in the output side of the NCS 1004 chassis in the source site

Src NCS2K AddDrop

Add/Drop multiplexer and demultiplexer connected to the NCS 2000 chassis in the source site

Src NCS2K MPO

Media channel between the source and destination sites

Dst NCS4K In

Details of Rack/Slot/Card/Port in the input side of the NCS 4000 chassis in the destination site

Dst NCS4K Out

Details of Rack/Slot/Card/Port in the output side of the NCS 4000 chassis in the destination site

Dst NCS1K In

Details of Rack/Slot/Card/Port in the input side of the NCS 1004 chassis in the destination site

Dst NCS1K Out

Details of Rack/Slot/Card/Port in the output side of the NCS 1004 chassis in the destination site

Dst NCS2K AddDrop

Add/drop multiplexer and demultiplexer that is connected to the NCS 2000 chassis in the destination site

Dst NCS2K MPO

MPO cable connecting the NCS 2000 chassis in the destination site

Media Channel

Media channel between the source and destination sited

Notes

More notes, if any

Trace Origin

Indicates whether the service connections are user-created or imported through LNI.

Note

 

The details of source and destination NCS2K AddDrop and NCS2K MPO are not displayed for the networks that are created in Cisco ONP Release 4.1 and migrated to Cisco ONP Release 4.2.

Step 6

Click the service name to switch to the layout view.

You will view the layout and the service details in the right pane.

Step 7

Select the rack, shelf, card, and ports from the drop-down lists for NCS4K In, NCS4K Out, NCS 1K In, and NCS 1K out, for both Source and Destination sites.

The details of the NCS 2000 chassis are auto-populated.

Note

 

For LNI imported network all the details are auto-populated. If you add any new service, you can change the details of the new service as per your requirement.

Step 8

Click the Tick icon to save the changes you have done.

You can click the refresh icon to delete the changes you made after saving.

The updated details are included in the BOM.

Step 9

(Optional) To export the MLC details perform the following steps:

  1. Click the Table icon to switch to the table view.

  2. Choose Export > MLC Tracesto export all the details available in the MLC table.

  3. Choose Export > LMP/TTI Connections to export the details of Link Management Protocol (LMP) connections which are the connections between NCS 1004 and NCS 2000 cards, and Trail Trace Identifier (TTI) connections which are the connections between NCS 4000 and NCS 1004 cards.

    All these connections get added to the BOM.

Step 10

(Optional) Click the Filter icon to filter the services displayed in the left pane, based on the following:.

The following filter options are available:

  • Source Site

  • Destination Site

  • Type of the traffic

  • Trace Origin

    • LNI―Imported through Import Live Network option

    • User Created―Created through Cisco ONP UI

  • Trace Status

    • Completed―User has defined all MLC details.

    • Partial―User has defined only partial MLC details.

    • Empty―User has not defined any MLC details.

Step 11

(Optional) Click the three vertical dots and select the following as required:

  • Enable Multi Select―You can select up to the card level for different OTN.

  • Expand All―Expands the services tree.

  • Collapse All―Collapses the expanded services tree.

  • Show Trace Status―Shows the trace status icon next to the service name.

Step 12

(Optional) Click the three horizontal dots across the service trace and select the following as required:

  • Delete Trace―Deletes the respective trace.

  • Locate in Map―Shows the service in the map view.

Note

 

User can enable the same port number on the primary and secondary NCS4K IN nodes for Client 1+1 and other protection scheme.

Regenerate BoM Automatically

You can view the new Chassis or Card added to the existing layout under the BOM tab. You can also view the regenerated BoM after manual editing of the layout.

Add new Pluggables, Alarm Cables and 100G Client Bandwidth Licenses to BoM

You can add new pluggables, alarm cables and 100G bandwidth licenses of NCS 1004 and NCS 4000 platforms to the existing BoM.

The procedure to add new pluggables, alarm cables and 100G client bandwidth licenses to the existing BoM is as follows.

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Step 2

Click the network to open from the list of available networks.

Step 3

Choose Network > Analyze.

Note

 

Network must be successfully analyzed to proceed further.

Step 4

Click the BOM tab.

Step 5

Click Add.

The New window opens.

Step 6

Enter the Cisco part number of the pluggable or alarm cable or 100G bandwidth license in the Cisco Part Number field.

Step 7

Choose the Quantity of pluggables or alarm cables or 100G bandwidth licenses to be added.

Step 8

Click Add.

The new pluggables or alarm cables or 100G bandwidth licenses are added to the BoM list.

Export IPC Report

You can export the connections of a current site or all sites to an Excel sheet using the following procedure:

Before you begin

Log in to Cisco ONP Web Interface

Procedure

Step 1

From the File menu, click Open.

The Select Network To Open dialog box appears.

Step 2

Click the network to open from the list of available networks.

Step 3

Choose Network > Analyze.

Note

 

Network must be successfully analyzed to proceed further.

Step 4

Click the Layout tab.

Step 5

z

Step 6

Click the IPC tab.

You can view the patches that are listed in the left pane. Click each patch to view the details such as position, card, and port of the source and destination sites.

Step 7

Hover over the Export icon, and click Current site or All Sites option.

The Export IPC dialog box appears.

Step 8

Click Continue to export the connections of the current site or all sites.

The cable-type and Cable ID are included in the report only for the NCS 1010 network.

Edit the Layout Manually for NCS 1010 Networks

Table 30. Feature History

Feature Name

Release Information

Feature Description

Layout Edit Support for NCS 1010 Networks

Cisco ONP Release 5.0

Cisco has introduced NCS 1010 as a new optical line system to meet the growing optical network needs. Using Cisco ONP you can visualize and edit layouts for NCS 1010 chassis and patch panels.

The Manual layout edit feature is used to adjust the position of the NCS 1010 chassis and patch panels in the layout.

The procedure to edit the layout manually is as follows:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

Choose File > Open.

The Select Network To Open dialog box appears.

Note

 
You can also create a new NCS 1010 network. For more information, see Manually Design a Network Using Cisco ONP.

Step 2

Click the network to open from the list of available networks.

Choose the NCS 1010 network.

Step 3

Choose Network > Analyze.

Note

 

Network must be successfully analyzed to proceed further.

Step 4

Click the Layout tab.

Step 5

Click Edit to enter the Edit mode.

Step 6

In the left panel, click a site.

Step 7

Select a unit (NCS 1010 chassis or patch panel) using one of the following methods:

  • In the left panel, expand the rack under a site and choose a unit.

  • Or, in the Rack view, click a chassis or patch panel.

Step 8

To adjust the position of the selected units, use one of the following methods:

Note

 

If necessary, click the +New Rack button to create more racks.

  • In the Rack view, drag and drop the selected chassis or panel from a particular rack to the empty slot in the same or different rack.

  • Cut and Paste unit in the left panel:

    • Click Cut above the Rack view.

    • Right-click on an empty slot in the same or different rack and click Paste.

      Cisco ONP disables the Paste option, if you try to paste the unit in the prohibited slots.

      Cisco ONP disables the Cut option, if an existing cut unit is not pasted.

  • Cut and Paste unit in the Rack view:

    • Right-click the selected chassis or panel and click Cut.

    • Right-click on an empty slot in the same or different rack and click Paste.

      Cisco ONP disables the Paste option, if you try to paste the unit in the prohibited slots.

      Cisco ONP disables the Cut option, if an existing cut unit is not pasted.

  • Move unit in the left panel:

    • Go to Move to > Site-X > Rack-X above the Rack view to move the chassis to the same or different rack. Or go to Move to > Site-X > + New rack above the Rack view to move the chassis to a new rack.

  • Move unit in the Rack view:

    • Right-click the selected chassis or panel and go to Move to > Site-X > Rack-X to move the chassis to the same or different rack. Or go to Move to > Site-X > + New rack to move the chassis to a new rack.

Note

 

The Move to option moves the unit automatically to the immediate empty slot. The Cut and Paste option moves the unit to the selected empty slot.

Step 9

Click Done to save the changes in the Layout.

A warning message appears when empty racks are present in the layout.

Step 10

Click OK to remove the empty racks.

View Internal Node Connections of NCS 1010 Network

Table 31. Feature History

Feature Name

Release Information

Feature Description

View Internal Node Connections of NCS 1010 Network

Cisco ONP Release 5.0

The Node diagram tab displays a functional view that includes precise connections and port labeling of each component such as OLT or ILA, NCS1K-BRK-8/16/24, AAWG-32-O, and AAWG-32-E, for each site in an analyzed NCS 1010 network.

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

ChooseFileOpen.

The Select Network To Open dialog box appears.

Step 2

Click the analyzed NCS 1010 network.

The network opens.

Step 3

Choose Network > Analyze.

Note

 

Network must be successfully analyzed to proceed further.

Step 4

Click the Layout > Node Diagram tabs.

Step 5

Click each site in the left panel and select a side to view the functional view of the site.

The functional view includes both the combination of physical and logical connections such as:

  • Degree interconnections between NCS1010 (OLT or ILA) and NCS1K-BRK-8

  • Add/drop connections between NCS1010 and colorless add/drop units (NCS1K-BRK-8, NCS1K-BRK-16, or NCS1K-BRK-24) and colored add/drop units (AAWG-32-O or AAWG-32-E)

Step 6

Hover over the cable to view the details such as name of the ports that are connected and the cable ID.

Design Networks with SVO Card

An SVO card along with the application software provides functionality-based licenses for alarm correlation, performance monitoring, connection verification, and Optical Time Domain Reflectometry (OTDR). You can design a network with ROADM and TRAFFIC nodes that are equipped with SVO cards.

Features

  • The SVO card is a two-slot card.

  • The SVO card acts as the primary card for all the networks after Release12.1.0.

  • To achieve high availability, you can have two SVO cards equipped in one node.

  • You can use two 10G SFP+ pluggables to connect two SVO cards present in a node.

  • You cannot have two SVO cards in the same chassis, to achieve high availability in the network.

  • When designing the network, you can connect a Cisco ASR 920 Switch to the SVO cards.

  • The SVO can be used as a card or as a UCS-based solution.

SVO Licenses

SVO cards require either Base License or SVO Full License (High Availability, Connection Verification, Flex Spectrum). If you do not select SVO Full License, by default, SVO Base License and High Availability are enabled.

The different types of SVO licenses are

  • Cisco NMS: This includes features such as High Availability, Connection Verification, Flex spectrum, and OTDR.

  • Third-Party NMS: This includes features such as NBI (North Bound Interface), Alarm Correlation, Performance Monitoring, and Circuit Provisioning.

Chassis Licensing

  • Every chassis added to the network must have license after Release 12.1.0. For the release upgraded network, a new chassis license is added after it is analyzed in Cisco ONP Release 4.0 or higher.

  • There are many variants of the chassis license, such as 1-chassis, 5-chassis, 10-chassis, 20-chassis, 50-chassis, and so on. The variants of chassis license are added based on cost optimization.

  • A license is required for every chassis that is added to the network after the first chassis.

  • Chassis License Flush Out: You can flush out the existing chassis license and purchase a new chassis license. If you hold the existing chassis license, the license remains active even if the site is unlocked.

  • Chassis License Flush Out is supported only in the network upgrade mode.

  • You can use the existing license with new changes in chassis, if you do not use the Chassis License Flush Out option.

Associate OLA or DGE Sites with SVO Cards

The following procedure shows how to associate OLA sites with the SVO cards:

Before you begin

Log in to Cisco ONP Web Interface.

Procedure

Step 1

In the network tree panel, click the Ellipsis icon available in the right side of any ROADM site.

Step 2

Click Edit SVO Associations.

Step 3

Select the OLA sites on the map to toggle the SVO connections. Click Done at the top-right corner to confirm the selection.

You can open widgets in the map and select top section to view the association.

Note

 

You can also click the Ellipsis icon available in the right side of any ROADM site from the Map and click Edit SVO Associations. For the sites that are of DGE type, the Edit SVO Associations option is not displayed.

The tool associates the OLA and DGE sites that are not associated by you, with the SVO card during the network analysis.

Export Device NETCONF XML File

You can export the NETCONF (Network Configuration Protocol) XML files for all the individual sites in a network or the complete network. The following procedure, shows how to export NETCONF XML files for the complete network from the Cisco ONP GUI.

Before you begin

Log in to Cisco ONP Web Interface.
Table 32. Feature History

Feature Name

Release Information

Feature Description

Export NETCONF File from NCS 1010 network

Cisco ONP Release 5.0

You can export the NETCONF XML files for all the NCS 1010 nodes, and upload them to the NCS 1010 nodes through the Yang suite. This enables automatic bring up of the NCS 1010 nodes using the NETCONF data.

The network must be in Analyze mode.

Procedure

Step 1

In the network tree panel, click the three dots.

A pop-up list appears.

Step 2

In the list, click Generate Device NetConf XML.

Export window appears with network name.

Step 3

Click Export.

Upload NETCONF XML Files on SVO Web Interface

The following procedure shows how to upload the NETCONF XML files on the SVO web interface:

Procedure

Step 1

In the browser URL field, enter the IP address of the SVO line card.

The login page appears.

Step 2

Enter the username and password.

Step 3

Click Login.

Step 4

Click the hamburger icon at the top-left of the page, and select Node Configuration.

Step 5

Click the Node Setup tab.

Step 6

Click Select files .

Step 7

Browse to the NETCONF XML files exported from the Cisco ONP GUI and upload them.

If the passive unit ID in the NETCONF file exceeds the range 1–126, SVO displays an error message. Validate the XML file and reimport.

Note

 
If the value of FEC mode already provisioned in the 200G-CK-C line card does not match with the value available in the NETCONF XML file, SVO displays an error message. We recommend that you remove the provisioned FEC settings for this card and reimport the XML file.

Export Device NETCONF XML Files for Individual Sites

The following procedure shows how to export Device NETCONF XML files for individual sites from the Cisco ONP GUI.

Before you begin

Log in to Cisco ONP Web Interface.

The network must be in Analyze mode.

Procedure

Step 1

Click the Ellipsis icon available in the right side of the site.

Step 2

In the list, click Generate Device NetConf XML.

Export window appears with network name.

Step 3

Click Export.

The message, "Success. Device NetConf exported successfully" appears.

You can download the zip file that contains Device NETCONF XML files of individual sites.

Upload NETCONF Files to NCS 1010 Device

Use this task to upload the NETCONF files that downloaded from Cisco ONP into the NCS 1010 device using a NETCONF client.

Procedure

Step 1

Log in to the NETCONF Yang Suite which has access to the NCS 1010 device.

Step 2

Connect to the NCS 1010 device.

Step 3

Copy the NETCONF XML file content that is downloaded from Cisco ONP, and paste it into the Protocol NETCONF Run RPC block.

Step 4

Append the following commit code at the end of the NETCONF XML file content.

<rpc xmlns="urn:ietf:params:xml:ns:netconf:base:1.0" message-id="102">
<commit/>
</rpc>

Export Cisco Optical Site Manager NETCONF XML File

You can export the Cisco Optical Site Manager NETCONF XML files for all the individual sites in a network or the complete network. The following procedure, shows how to export Cisco Optical Site Manager NETCONF XML files for the complete network from the Cisco ONP GUI.

Before you begin

Log in to Cisco ONP Web Interface.
Table 33. Feature History

Feature Name

Release Information

Feature Description

Export Cisco Optical Site Manager (COSM) NETCONF File from NCS 1010 network

Cisco ONP Release 5.2

The new Generate COSM NetConf XML option allows you to export from the Cisco Optical Network Planner, the Cisco Optical Site Manager NETCONF XML files for all the NCS 1010 nodes. You can then upload these files to the NCS 1010 nodes through the Cisco Optical Site Manager, enabling automatic bring-up of the NCS 1010 nodes.

The network must be in Analyze mode.

Procedure

Step 1

In the network tree panel, click the three dots.

A pop-up list appears.

Step 2

In the list, click Generate COSM NetConf XML.

Export window appears with network name.

Step 3

Click Export.

The message, "Success. COSM NetConf exported successfully" appears.

You can download the zip file that contains COSM NETCONF XML files of individual sites.

Note

 

You can choose the destination folder to save the downloaded Cisco Optical Site Manager NETCONF XML files of individual sites.

This feature has limited scope in this release.

Note

 

L-Band Configuration is not certified in Cisco Optical Site Manager for R7.11.1. A future release will be considered for the L-Band configuration.

Upload Cisco Optical Site Manager NETCONF XML to NCS 1010 Device via Cisco Optical Site Manager Web Interface

Use this task to upload the Cisco Optical Site Manager NETCONF files that you downloaded from Cisco ONP into the NCS 1010 device using the Cisco Optical Site Manager web interface.

Before you begin

Log in to Cisco ONP Web Interface

Procedure

Step 1

Log in to the Cisco Optical Site Manager UI that has access to the NCS 1010 device.

Step 2

Cross-check the device name, UID, and card layout position (Rack ID, RU Position) with CONP XML.

The Cisco Optical Site Manager device name and UID should match with the CONP XML. If any mismatch exists, delete the device from Cisco Optical Site Manager and add back with name and UID as in the CONP XML.

Step 3

Go to Optical Setup and browse the CONP-generated XML without OXC for that device and load it.

Step 4

Click the Select files... button.

The file explorer window appears.

Step 5

Select the CONP-generated Cisco Optical Site Manager XML from your local device.

Step 6

Click Open.

A confirmation message appears.

Step 7

Click Yes.

Step 8

Click Upload.

The COSM XML successfully uploaded message appears.

Step 9

Go to Optical Configuration > ANS parameter and verify whether the respective configurations are complete.

Step 10

After loading the Cisco Optical Site Manager XML file without optical cross connect, load the Cisco Optical Site Manager XML with optical cross connect.

Step 11

After adding the Cisco Optical Site Manager XML file with optical cross connect, go to the Optical Cross Connections tab and verify whether the respective configurations are complete.

Export Planning Data for Cisco Optical Network Controller

Table 34. Feature History

Feature Name

Release Information

Feature Description

Export Network Planning Data for Cisco Optical Network Controller (Cisco ONC)

Cisco ONP Release 5.0

You can export the network planning data in the form of a JSON file. This JSON file can be uploaded into Cisco ONC to configure the managed devices in bulk.

Use this task to export the network planning data which is in the form of JSON file from Cisco ONP. This JSON file is uploaded into Cisco ONC to configure the managed devices.

Before you begin

Log in to Cisco ONP Web Interface.

The network must be in Analyze mode.

Procedure

Step 1

In the network tree panel, click the Ellipsis icon available in the right side of the network name.

Step 2

Click Generate CONC JSON.

Step 3

In the Export File dialog box, enter the name of the JSON file.

Step 4

Click Export to download the JSON file into your local system.

Upload Planning Data into Cisco ONC

Use this task to upload the network planning data (JSON file) downloaded from the Cisco ONP.

Procedure

Step 1

Log into Cisco ONC.

Step 2

Hover over the Import icon in the left panel and click Planning Data Import.

Step 3

Click Import.

Step 4

Browse and select the JSON file that is downloaded from Cisco ONP.

You can use the planning data to configure the devices managed by Cisco ONC.