Cisco Systems ONS 15454 User's Manual
Contents
1. C Torie Browse 79652 a Choose the nodes where you want to save the profile e If you want to save the profile to only one node click the node in the Node Names list e If you want to save the profile to all nodes click Select All e If you do not want to save the profile to any nodes click Select None e If you want to update alarm profile information click Synchronize b Save the profile e Click Browse and navigate to the profile save location e Enter a name in the File name field e Click Select to choose this name and location Long file names are supported CTC supplies a suffix of pfl to stored files e Click OK to store the profile Step16 As needed perform any of the following actions e Click the Hide Identical Rows check box to configure the Alarm Profiles window to view rows with dissimilar severities e Click the Hide Reference Values check box to configure the Alarm Profiles window to view severities that do not match the Default profile e Click the Only show service affecting severities check box to configure the Alarm Profiles window not to display Minor and some Major alarms that will not affect service Step17 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 I November 2007 22 13 Chapter 22 DLPs A500 to A599 WE DLP A519 Apply Alarm Profiles to Ports DLP A519 Apply Alarm Profiles to Ports Purpose This task applies a custom or defaul2. If you are in node view click the Provisioning gt Alarm Profiles gt Alarm Behavior tabs To suppress alarms for the entire node a Check the Suppress Alarms check box b Click Apply All raised alarms for the node will change color to white in the Alarms window and their status will change to cleared After suppressing alarms clicking Synchronize in the Alarms window will remove cleared alarms from the window However an AS CMD alarm will show in node or card view to indicate that node level alarms were suppressed and the word System will appear in the Object column amp Note The only way to suppress BITS power source or system alarms is to suppress alarms for the entire node These cannot be suppressed separately but the shelf backplane can be To suppress alarms for individual cards a Locate the card row using the Location column for the slot number or the Eqpt Type column for the equipment name b Check the Suppress Alarms column check box on that row Alarms that directly apply to this card will change appearance as described in Step 2 For example if you suppressed raised alarms for an OC 48 card in Slot 16 raised alarms for this card will change in node or card view The AS CMD alarm will show the slot number in the Object number For example if you suppressed alarms for a Slot 16 OC 48 card the AS CMD object will be SLOT 16 Click Apply To suppress alarms for individual card ports double c
3. The other end point is generally provisioned on non ONS equipment including routers and other network elements NE Before you begin verify that you have the capability to create an OSI over IP tunnel on the other equipment location In node view click the Provisioning gt OSI gt Tunnels tabs Click Create In the Create IP Over OSI Tunnel dialog box complete the following fields Tunnel Type Choose a tunnel type Cisco Creates the proprietary Cisco IP tunnel Cisco IP tunnels add the CLNS header to the IP packets GRE Creates a Generic Routing Encapsulation tunnel GRE tunnels add the CLNS header and a GRE header to the IP packets The Cisco proprietary tunnel is slightly more efficient than the GRE tunnel because it does not add the GRE header to each IP packet The two tunnel types are not compatible Most Cisco routers support the Cisco IP tunnel while only a few support both GRE and Cisco IP tunnels You generally should create Cisco IP tunnels if you are tunneling between two Cisco routers or between a Cisco router and an ONS node Caution Step 4 Always verify that the IP over CLNS tunnel type you choose is supported by the equipment at the other end of the tunnel IP Address Enter the IP address of the IP over CLNS tunnel destination IP Mask Enter the IP address subnet mask of the IP over CLNS destination OSPF Metric Enter the Open Shortest Path First OSPF metric for sending packets acros
4. routers or non SONET NEs that lack TARP capability None DLP A60 Log into CTC page 17 69 As needed Onsite or remote Provisioning or higher Step1 In the node view click the Provisioning gt OSI gt TARP gt MAT tabs Step2 Click Add Step3 In the Add TARP Manual Adjacency Table Entry dialog box enter the following e Level Sets the TARP Type Code that will be sent Level 1 Indicates that the adjacency is within the same area as the current node The entry generates Type 1 PDUs Level 2 Indicates that the adjacency is in a different area than the current node The entry generates Type 2 PDUs e NSAP Enter the OSI NSAP address in the NSAP field or if preferred click Use Mask and enter the address in the Masked NSAP Entry dialog box Cisco ONS 15454 Procedure Guide R7 0 November 2007 l Chapter 22 DLPs A500 to A599 DLP A539 Provision OSI Routers W Step4 Click OK to close the Masked NSAP Entry dialog box if used and then click OK to close the Add Static Entry dialog box Step5 Return to your originating procedure NTP DLP A539 Provision OSI Routers Purpose This task enables an OSI router and edits its primary manual area address Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Note Router must be enabled before you can enable and edit the prima
5. 1 Cards in a 1 1 Configuration to DS3 EC1 48 Cards W DLP A554 Upgrade EC 1 Cards in a 1 1 Configuration to DS3 EC1 48 Cards amp Purpose This task upgrades low density electrical cards in a 1 N protection scheme where N 1 or 2 to high density electrical cards DS3 EC1 48 DS1 E1 56 and DS3XM 12 cards Low density cards are defined as DS 1 and DS3 12 This procedure also upgrades low density electrical cards DS3XM 6 cards in a 1 1 protection scheme to high density electrical cards DS3XM 12 cards Tools Equipment DS3 EC1 48 card s as needed DS3XM 12 card s as needed DS1 E1 56 card s as needed High density shelf assembly 15454 SA HD High density EIA MiniBNC UBIC V UBIC H installed Prerequisite Procedures NTP A17 Install the Electrical Cards page 2 10 Required As Needed As needed Onsite Remote Onsite Security Level Provisioning or higher Note A You cannot have any DS 1 cards installed on the same side of the shelf as the DS3 EC1 48 card when you finish the low density to high density upgrade Caution Step 1 Step 2 Step 3 Step 4 After upgrading a DS3XM 6 card to a DS3XM 12 card the newly installed DS3XM 12 card will run in STS 12 mode To change the backplane throughput rate make sure the card is out of service and not carrying live traffic Changing the backplane throughput rate on a in service cardcan cause a traffic outage of up to 50 ms Complete the DLP A60 Log into CTC page 17
6. A518 Create a New or Cloned Alarm Severity Profile Step9 Click Clone in the shortcut menu fe Tip To see the full list of profiles including those available for loading or cloning click Available You must load a profile before you can clone it Step 10 In the New Profile or Clone Profile dialog box enter a name in the New Profile Name field Profile names must be unique If you try to import or name a profile that has the same name as another profile CTC adds a suffix to create a new name Long file names are supported Step11 Click OK A new alarm profile named in Step 10 is created This profile duplicates the default profile severities and appears at the right of the previous profile column in the Alarm Profiles window You can select it and drag it to a different position amp Note Up to 10 profiles including the two reserved profiles Inherited and Default can be stored in CTC The Default profile sets severities to standard Telcordia GR 253 CORE settings If an alarm has an Inherited profile it inherits copies its severity from the same alarm s severity at the higher level For example if you choose the Inherited profile from the network view the severities at the lower levels node card and port will be copied from this selection A card with an Inherited alarm profile copies the severities used by the node that contains the card If you are creating profiles you can apply these separately at any
7. Circuit Source dialog box according to the specific circuit creation procedure you are ready to provision the circuit source Step 1 From the Node drop down list choose the node where the source will originate Step2 From the Slot drop down list choose the slot containing the DS 3 card where the circuit will originate If you are configuring a DS 3 circuit with a transmux card choose the DS3XM 6 or DS3XM 12 card Step 3 From the Port drop down list choose the source DS 3 DS3 EC1 48 DS3XM 6 or DS3XM 12 card as appropriate Step4 If you need to create a secondary source for example a If you need to create a secondary source for example a path protection bridge selector circuit entry point in a multivendor bridge selector circuit entry point in a multivendor If you need to create a secondary source for example a path protection bridge selector circuit entry point in a multivendor click Use Secondary Source and repeat Steps 1 through 3 to define the secondary source If you do not need to create a secondary source continue with Step 5 Step5 Click Next Step 6 From the Node drop down list choose the destination termination node Step7 From the Slot drop down list choose the slot containing the destination card The destination is typically a DS3XM 6 or DS 3 card You can also choose an OC N card to map the DS 3 circuit to a synchronous transport signal STS Step8 Depending on the destination card choose the destination
8. DLPs A500 to A599 E DLP A553 Upgrade DS3XM 6 Cards in a 1 1 Configuration to High Density DS3XM 12 Electrical Cards Step 16 Return to your originating procedure NTP DLP A553 Upgrade DS3XM 6 Cards in a 1 1 Configuration to High Density DS3XM 12 Electrical Cards S Purpose This task upgrades low density electrical cards in a 1 1 protection scheme to high density electrical cards DS3XM 12 cards This procedure upgrades low density DS3XM 6 cards in a 1 1 protection scheme to high density DS3XM 12 cards Tools Equipment DS3XM 12 card s as needed Upgrade of DS3XM 6 to DS3XM 12 does not require a High density shelf assembly The upgrade can be performed on low density shelf assembly as well Prerequisite Procedures NTP A17 Install the Electrical Cards page 2 10 Required As Needed As needed Onsite Remote Onsite Security Level Provisioning or higher Note A You cannot have any DS 1 cards installed on the same side of the shelf as the DS3XM 12 card when you finish the low density to high density upgrade Caution Step 1 Step 2 Step 3 After upgrading a DS3XM 6 card to a DS3XM 12 card the newly installed DS3XM 12 card will run in STS 12 mode To change the backplane throughput rate make sure the card is out of service and not carrying live traffic Changing the backplane throughput rate on a in service card can cause a traffic outage of up to 50 ms Complete the DLP A60 Log into CTC task o
9. If you do not want to permit jumbo size Ethernet frames choose 1548 e Watermark Select the flow control watermark for the port To provision the Low Latency flow control watermark choose Low Latency from the drop down list The Flow Ctrl Lo and Flow Ctrl Hi values change To provision a Custom flow control watermark choose Custom from the drop down list Enter values in the Flow Ctrl Hi and Flow Ctrl Lo columns The Flow Ctrl Lo value has a valid range from 1 to 510 and the Flow Ctrl Hi value has a valid range from 2 to 511 The Flow Ctrl Lo value must be lower than the Flow Ctrl Hi value Step4 Click Apply Step5 Refresh the Ethernet statistics a Click the Performance gt Ether Ports gt Statistics tabs b Click Refresh amp Note Reprovisioning an Ethernet port on the CE 1000 4 card does not reset the Ethernet statistics for that port Step6 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 November 2007 E 223 Chapter 22 DLPs A500 to A599 HZ DLP A510 Provision a DS 3 Circuit Source and Destination DLP A510 Provision a DS 3 Circuit Source and Destination Purpose This task provisions an electrical circuit source and destination for a DS 3 circuit Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Note After you have selected the circuit properties in the
10. Inthe Edit Circuits window choose the desired tab Drops UPSR Selectors UPSR Switch Counts State or Merge Depending on your configuration you may or may not see all of these tabs Step 3 From the File menu choose Export Step4 In the Export dialog box click a data format Figure 22 10 e As HTML Saves data as a simple HTML table file without graphics The file must be viewed or edited with applications such as Netscape Navigator Microsoft Internet Explorer or other applications capable of opening HTML files e As CSV Saves the CTC table as comma separated values CSV This option does not apply to the Maintenance gt Timing gt Report window e As TSV Saves the CTC table as tab separated values TSV Figure 22 10 Selecting CTC Data For Export EXPORT x Export Methods HTML C ag Tey OK Cancel 34325 Cisco ONS 15454 Procedure Guide R7 0 ea November 2007 l Chapter 22 DLPs A500 to A599 Step 5 Step 6 Step7 Step 8 Step 9 Step 10 Step 11 Step 12 DLP A532 Export CTC Data W If you want to open a file in a text editor or word processor application procedures vary Typically you can use the File gt Open command to view the CTC data or you can double click the file name and choose an application such as Notepad Text editor and word processor applications format the data exactly as it is exported including comma or tab separators All applications that open the data files allow
11. Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Note The ONS 15454 ML Series cards use the Cisco IOS command line interface CLI to manage RMON Cisco ONS 15454 Procedure Guide R7 0 eag November 2007 l Chapter 22 DLPs A500 to A599 DLP A530 Install the Tie Down Bar W Step 1 Double click the Ethernet card where you want to delete the RMON alarm thresholds Step 2 In card view click the Provisioning gt Ether Ports gt RMON Thresholds tabs amp Note For the CE Series click the Provisioning gt Ether Ports gt RMON Thresholds tabs or Provisioning gt POS Ports gt RMON Thresholds tabs Step3 Click the RMON alarm threshold you want to delete Step4 Click Delete The Delete Threshold dialog box appears Step5 Click Yes to delete the threshold Step6 Return to your originating procedure NTP DLP A530 Install the Tie Down Bar Purpose This task installs the tie down bar used to secure cabling on the rear of the ONS 15454 The tie down bar can be used to provide a diverse path for redundant power feeds and cables Tools Equipment Tie down bar Screws 4 Prerequisite Procedures DLP A5 Mount the Shelf Assembly in a Rack One Person page 17 5 DLP A6 Mount the Shelf Assembly in a Rack Two People page 17 6 Required As Needed As needed Onsite Remote Onsite Security Level None Step 1 Align the ends of the tie down bar with the four screw holes loc
12. S Purpose This task provisions CE 1000 4 Ethernet ports to carry traffic Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Note You can provision SONET contiguous concatenated CCAT or virtual concatenated VCAT circuits for the CE 1000 4 before or after provisioning the card s Ethernet ports and or packet over SONET POS ports See the NTP A257 Create an Automatically Routed Optical Circuit procedure on page 6 38 or the NTP A264 Create an Automatically Routed VCAT Circuit procedure on page 6 82 as needed Step 1 In node view double click the CE 1000 4 card graphic to open the card Step2 Click the Provisioning gt Ether Ports tabs Step3 For each CE 1000 4 port provision the following parameters e Port Name If you want to label the port enter the port name e Admin State Select the service state for the port See the DLP A214 Change the Service State for a Port task on page 19 9 for more information e Flow Control Select the flow control for the port Possible values are None Symmetrical and Pass Through e Auto Negotiation Click this check box to enable autonegotiation on the port default If you do not want to enable autonegotiation control uncheck the box e MTU If you want to permit the acceptance of jumbo size Ethernet frames choose 10004 default
13. Static TID to NSAP Entry to the TARP Data Cache Ml T2 Sets the amount of time to wait for a response to a Type 2 PDU TARP Type 2 PDUs seek a specific NE TID value within OSI Level 1 and Level 2 areas The default is 25 seconds The range is 0 to 3600 seconds T3 Sets the amount of time to wait for an address resolution request The default is 40 seconds The range is 0 to 3600 seconds T4 Sets the amount of time to wait for an error recovery This timer begins after the T2 timer expires without finding the requested NE TID The default is 20 seconds The range is 0 to 3600 seconds amp Note The T1 T2 and T4 timers are not used if TARP PDUs Origination is not enabled Click Apply Return to your originating procedure NTP DLP A536 Add a Static TID to NSAP Entry to the TARP Data Cache Purpose This task adds a static TID to NSAP entry to the TDC The static entries are required for NEs that do not support TARP and are similar to static routes For a specific TID you must force a specific NSAP Tools Equipment None Prerequisite procedures DLP A60 Log into CTC page 17 69 Required As needed As needed Onsite Remote Onsite or remote Security Level Provisioner or higher Step1 In node view click the Provisioning gt OSI gt TARP gt Static TDC tabs Step2 Click Add Static Entry Step3 In the Add Static Entry dialog box enter the following e TID Enter the TID of the NE For ONS nodes the TID is th
14. Step 10 a In node view double click the slot where you installed the high density card in Step 13 b In the Maintenance gt Protection tab double click the protection group that contains the reporting card c Click the selected group d Click Switch and Click Yes in the confirmation dialog box The protect card should now become standby Note Step 15 After upgrading a DS3XM 6 card to a DS3XM 12 card the newly installed DS3XM 12 card will run in STS 12 mode Go to CTC Card View Maintenance Card window to change Backplane Throughput bandwidth to STS48 and refresh viewer window If you want to create 1 N on DS3XM 12 cards only slot numbers 3 and 15 should be listed for protect card selection If you have upgraded to a DS3XM 12 and are using 734A cables with UBIC electrical interface adapters EIAs you must set the LBO for Ports 7 to 12 DS3XM 12doing so according to the actual distance in feet from the LBX panel If you are using 735A cables you must set the LBO for Ports 7 to 12 DS3XM 12doing so according to the following conventions Actual distance from the DSX panel is less than 110 feet 33 53 m LBO setting is 0 225 Actual distance from the DSX panel is greater than or equal to 110 feet 33 53 m LBO setting is 226 to 450 Step 16 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 ca November 2007 l Chapter 22 DLPs A500 to A599 DLP A554 Upgrade EC
15. Tabbed View Prints the lower half of the CTC window containing tabs and data The printout includes the selected tab on top and the data shown in the tab window For example if you print the History window Tabbed View you print only history items appearing in the window This option is available for all windows e Table Contents Prints CTC data in table format without graphical representations of shelves cards or tabs This option does not apply to the following windows Provisioning gt General tab General Power Monitor and Multishelf Config windows Provisioning gt Network gt General windows Provisioning gt Security gt Policy Access and Legal Disclaimer windows Provisioning gt SNMP window Provisioning gt Timing gt General and BITS Facilities windows Provisioning gt Cross Connect window Provisioning gt OSI gt Main Setup TARP windows Provisioning gt WDM ANS gt Node Setup window Maintenance gt Cross Connect gt Cards window Maintenance gt Database window Maintenance gt Diagnostic window Maintenance gt Protection window Maintenance gt Timing gt Source window The Table Contents option prints all the data contained in a table and the table column headings For example if you print the History window Table Contents view you print all data included in the table whether or not items appear in the window p Tip When you print using the Tabbed View option it can be difficult
16. Upgrade EC 1 Cards in a 1 1 Configuration to DS3 EC1 48 Cards Cisco ONS 15454 Procedure Guide R7 0 eag November 2007 l
17. access Non Secure Secure Secure mode allows access to the node using the Secure Shell SSH program SSH is a terminal remote host Internet protocol that uses encrypted links Telnet Port Allows access to the node using the Telnet port Telnet is the terminal remote host Internet protocol developed for the Advanced Agency Research Project Network ARPANET Port 23 is the default Enable Shell Password If checked enables the SSH password To disable the password you must uncheck the check box and click Apply You must type the password in the confirmation dialog box and click OK to disable it In the TL1 Access area select the desired level of TL1 access Disabled completely disables all TL1 access Non Secure Secure allows access using SSH In the PM Clearing Privilege field choose the minimum security level that can clear node PM data PROVISIONING or SUPERUSER Select the Enable Craft Port check box to turn on the shelf controller serial ports Select the EMS access state from the list Available states are Non Secure and Secure allows access using SSH I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 E DLP A513 Provision CE 100T 8 Ethernet Ports Step 8 Step 9 Step 10 In the TCC CORBA IILOP SSLIOP Listener Port area choose a listener port option e Default TCC Fixed Uses Port 57790 to connect to ONS 15454s on the same side of the firewall or if no firewall
18. allowed AINS Soak Sets the automatic in service soak period e Duration of valid input signal in hh mm format after which the card becomes in service IS automatically e Oto 48 hours 15 minute increments Table 22 2 describes the parameters on the Provisioning gt Line Thresholds tabs for the DS3i N 12 cards Cisco ONS 15454 Procedure Guide R7 0 November 2007 l Chapter 22 DLPs A500 to A599 DLP A526 Change Line and Threshold Settings for the DS3i N 12 Cards i Table 22 2 Line Threshold Options for the DS3i N 12 Cards Parameter Description st Hh Port Display only Port number to 12 CV Coding violations ES Errored seconds SES Severely errored seconds LOSS Loss of signal seconds number of one second intervals containing one or more LOS defects 15 Min radio button Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15 minute intervals 1 Day radio button Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1 day intervals Table 22 3 describes the parameters on the Provisioning gt Elect Path Thresholds tabs for the DS3i N 12 cards Table 22 3 Electrical Path Options for the DS3i N 12 Cards Parameter Description Port Display only Port number Port 1 to 12 CVP Coding violations path Ava
19. and edit the OSI subnetwork point of attachment parameters The parameters are initially provisioned when you create a Section DCC SDCC Line DCC LDCC generic communications channel GCC or optical service channel OSC or when you enable the LAN subnet None DLP A60 Log into CTC page 17 69 As needed Onsite or remote Provisioning or higher In node view click the Provisioning gt OSI gt Routers gt Subnet tabs I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 E DLP A547 Edit an IP Over CLNS Tunnel Step2 Choose the subnet you want to edit then click Edit Step3 In the Edit lt subnet type gt Subnet lt slot port gt dialog box edit the following fields e ESH The End System Hello PDU propagation frequency An end system NE transmits ESHs to inform other ESs and ISs about the NSAPs it serves The default is 10 seconds The range is 10 to 1000 seconds e ISH The Intermediate System Hello PDU propagation frequency An intermediate system NE sends ISHs to other ESs and ISs to inform them about the NETs it serves The default is 10 seconds The range is 10 to 1000 seconds e IIH The Intermediate System to Intermediate System Hello PDU propagation frequency The IS IS Hello PDUs establish and maintain adjacencies between ISs The default is 3 seconds The range is 1 to 600 seconds amp Note The IS IS Cost and DIS Priority parameters are provisioned when you crea
20. fields you can choose an option from a drop down list in others you can type a value or select or deselect a check box The provisionable parameters are listed in the options column in the table Click Apply If the change affects traffic a warning message displays Click Yes to complete the change Cisco ONS 15454 Procedure Guide R7 0 eag November 2007 l Chapter 22 DLPs A500 to A599 DLP A527 Change the OC N Card ALS Maintenance Settings Table 22 5 OC N Maintenance Settings Parameter Description Options Step 5 Port number Display only Port number ALS Mode Automatic laser shutdown mode ALS provides the ability to shut down the TX laser when the RX detects a loss of signal LOS From the drop down list choose one of the following e Disable Deactivates ALS e Auto Restart Default ALS is active The power is automatically shut down when needed and automatically tries to restart using a probe pulse until the cause of the failure is repaired e Manual Restart ALS is active When conditions that caused the outage are resolved the laser must be manually restarted only if both ends are provisioned in Manual Restart mode e Manual Restart for Test Manually restarts the laser for testing Recovery Pulse Duration Sets the recovery laser pulse duration in seconds for the initial recovery optical power pulse following a laser shutdown Numeric For the default values and domai
21. in all views Return to your originating procedure NTP DLP A524 Download an Alarm Severity Profile Step 1 Step 2 Step 3 Step 4 Step 5 Step 6 Step7 Purpose This task downloads a custom alarm severity profile from a network drive accessible CD ROM floppy disk or hard disk location Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher To access the alarm profile editor from network view click the Provisioning gt Alarm Profiles tabs To access the profile editor from node view click the Provisioning gt Alarm Profiles gt Alarm Profile Editor tabs To access the profile editor from a card view double click the card to open the card view and click the Provisioning gt Alarm Profiles gt Alarm Profile Editor tabs Click Load If you want to download a profile that exists on the node click From Node in the Load Profile s dialog box a Click the node name you are logged into in the Node Names list b Click the name of the profile in the Profile Names list such as Default If you want to download a profile that is stored locally or on a network drive click From File in the Load Profile s dialog box a Click Browse b Navigate to the file location in the Open dialog box c Click Open S Note The Default alarm profile list contains alarm and condition severities that co
22. is used default This option can be used for access through a firewall if Port 57790 is open e Standard Constant Uses Port 683 IIOP or Port 684 SSLIOP the Common Object Request Broker Architecture CORBA default port number e Other Constant lIf the default port is not used type the Internet Inter ORB Protocol IIOP or SSLIOP port specified by your firewall administrator In the SNMP Access area set the Simple Network Management Protocol SNMP access state to Non Secure or Disabled disables SNMP access Click Apply Return to your originating procedure NTP DLP A513 Provision CE 100T 8 Ethernet Ports amp Purpose This task provisions CE 100T 8 Ethernet ports to carry traffic Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Note Step 1 Step 2 Step 3 You can provision SONET contiguous concatenated CCAT or virtual concatenated VCAT circuits for the CE 100T 8 before or after provisioning the card s Ethernet ports and or packet over SONET POS ports See the NTP A257 Create an Automatically Routed Optical Circuit procedure on page 6 38 or the NTP A264 Create an Automatically Routed VCAT Circuit procedure on page 6 82 as needed In node view double click the CE 100T 8 card graphic to open the card Click the Provisioning gt Ether Ports tabs For eac
23. switch traffic away from the low density card a In node view double click the slot where the low density card is installed Cisco ONS 15454 Procedure Guide R7 0 ea November 2007 l Chapter 22 DLPs A500 to A599 Step 11 Step 12 Step 13 Step 14 Step 15 DLP A553 Upgrade DS1 or DS3 12 Cards in a 1 N or 1 1 Configuration to High Density Electrical Cards W b Click the Maintenance gt Protection tabs c Double click the protection group that contains the working card d Click the low density card slot e Click Switch and Yes in the Confirmation dialog box Physically remove the low density card you switched traffic away from in Step 10 a Open the card ejectors a Slide the card out of the slot This raises the IMPROPRMVL alarm which will clear when the upgrade is complete Change the low density card to the high density card in CTC a Right click the slot where you removed the low density card and choose Change Card from the drop down list b Choose the new card type from the Change to drop down list c Click OK Insert the new high density electrical card into the slot where you removed the low density card Be sure to remove the plastic protective covers on rear of the card before installing the card a Open the ejectors on the card b Slide the card into the slot along the guide rails c Close the ejectors Wait for the IMPROPRMVL alarm to clear and the card to become standby For mor
24. the default 256 MB to the maximum of 512 MB in order to improve CTC performance Tools Equipment None Prerequisite procedures None Required As needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Click Start gt Settings gt Control Panel The Windows Control Panel appears Double click System The System Properties window appears Click the Advanced tab Click Environmental Variables The Environmental Variables window appears In the User Variables area click New The New User Variable window appears Cisco ONS 15454 Procedure Guide R7 0 eag November 2007 l Chapter 22 DLPs A500 to A599 Step 6 Step7 Step 8 Step 9 Step 10 DLP A553 Upgrade DS1 or DS3 12 Cards in a 1 N or 1 1 Configuration to High Density Electrical Cards W Type CTC_HEAP in the Variable Name field Type 512 in the Variable Value field Click OK Reboot your PC Return to your originating procedure NTP DLP A553 Upgrade DS1 or DS3 12 Cards in a 1 N or 1 1 Configuration to High Density Electrical Cards Purpose This task upgrades low density electrical cards in a 1 N protection scheme where N 1 or 2 to high density electrical cards DS3 EC 1 48 DS1 E1 56 Low density cards are defined as DS 1 and DS3 12 Tools Equipment DS3 EC1 48 card s as needed DS1 E1 56 card s as needed High density shelf assembly 15454 SA HD High density EIA MiniBNC UBIC V UBIC H installed Prerequis
25. you to format the data If you want to open the file in spreadsheet and database management applications procedures vary Typically you need to open the application and choose File gt Import then choose a delimited file to format the data in cells Spreadsheet and database management programs also allow you to manage the exported data amp Note An exported file cannot be opened in CTC The export operation does not apply to the following tabular Save as TSV data e Circuits Edit option General and Monitor windows e Provisioning gt General gt General Power Monitor and Multishelf Config windows e Provisioning gt Network gt General windows e Provisioning gt Security gt Policy Access and Legal Disclaimer windows e Provisioning gt SNMP window e Provisioning gt Timing gt General and BITS FAcilities windows e Provisioning gt OSI gt Main Setup window and OSI gt TARP gt Config window e Provisioning gt Cross Connect window e Provisioning gt WDM ANS gt Node Setup window e Maintenance gt Cross Connect gt Cards window e Maintenance gt Database window e Maintenance gt Diagnostic window e Maintenance gt Protection window e Maintenance gt Timing gt Source windows e Maintenance gt DWDM gt ROADM Power Monitoring window Click OK In the Save dialog box enter a name in the File name field using one of the following formats e filename html for HTML files e filename csv for CSV files e f
26. 2 2 on page 22 25 For definitions of the electrical path threshold settings see Table 22 3 on page 22 25 For definitions of the SONET threshold settings see Table 22 4 on page 22 25 Table 22 1 describes the values on the Provisioning gt Line tabs for the DS3i N 12 cards Table 22 1 Line Options for the DS3i N 12 Cards Parameter Description Options Port Display only Port number 1 to 12 Port Name Sets the port name User defined up to 32 alphanumeric special characters Blank by default See the DLP A314 Assign a Name to a Port task on page 20 8 SF BER Sets the signal fail bit error rate e 1E 3 e 1E 4 e 1E 5 SD BER Sets the signal degrade bit error rate e 1E 5 e 1E 6 e 1E 7 e 1E 8 e 1E 9 Line Type Defines the line framing type e Unframed e M13 e CBit e Auto Provisioned Detected Displays the detected line type e M13 Line Type e CBit e Unframed e Unknown Line Display only Defines the DS3E B3ZS Coding transmission coding type Line Defines the distance in feet from e 0 225 default Length backplane connection to the next termination point e 226 450 I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 HZ DLP A526 Change Line and Threshold Settings for the DS3i N 12 Cards Table 22 1 Parameter Line Options for the DS3i N 12 Cards continued Description Options Admin State Sets the port administrative s
27. 3 Step 4 Step 5 Step 6 Step 7 Step 8 Step 9 Step 10 If you modify the background image the change is stored in your CTC user profile on the computer The change does not affect other CTC users From the Edit menu choose Preferences gt Map and check the Use Default Map check box In the node view click the Provisioning gt Defaults tabs In the Defaults Selector area choose CTC and then network Click the Default Value field and choose a default map from the drop down list Map choices are Germany Japan Netherlands South Korea United Kingdom and the United States default Click Apply The new network map appears Click OK If the ONS 15454 icons are not visible right click the network view and choose Zoom Out Repeat until all the ONS 15454 icons are visible You can also choose Fit Graph to Window If you need to reposition the node icons drag and drop them one at a time to a new location on the map If you want to change the magnification of the icons right click the network view and choose Zoom In Repeat until the ONS 15454 icons are displayed at the magnification you want Return to your originating procedure NTP DLP A529 Delete Ethernet RMON Alarm Thresholds Purpose This task deletes remote monitoring RMON threshold crossing alarms for Ethernet ports Tools Equipment None Prerequisite Procedures DLP A533 Create Ethernet RMON Alarm Thresholds page 22 34 DLP A60 Log into CTC page 17 69
28. 69 If you are already logged in continue with Step 2 According to local site practice complete the NTP A108 Back Up the Database procedure on page 15 5 Determine which low density card s you want to upgrade to high density according to slot limitations amp Note For 1 N protection groups the protect card is installed in Slot 3 on the A side of the shelf and Slot 15 on the B side For 1 1 protect groups working and protect cards can be installed in any traffic slot The following limitations apply if you are upgrading a low density protect card e If you are upgrading an EC1 12 card in a 1 1 protection group to a DS3 EC1 48 card the EC1 12 cards must be in either Slots 1 and 2 or 16 and 17 e Ifyou are upgrading EC1 12 cards in a 1 1 protection group to a DS3 EC1 48 card Slot 3 needs to be unoccupied if upgrading on the A Side and Slot 15 needs to be unoccupied if upgrading on the B Side In node view double click the current protect card The card view appears I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 E DLP A554 Upgrade EC 1 Cards in a 1 1 Configuration to DS3 EC1 48 Cards Step 5 Step 6 Step 7 Step 8 Step 9 Step 10 Step 11 Slot 1 contains the protect card if you are working on the A side of the shelf and Slot 17 contains the protect card if you are working on the B side of the shelf Make sure the current protect card is not acti
29. A599 DLP A545 Edit the OSI Router Configuration W DLP A545 Edit the OSI Router Configuration Step 1 Step 2 Step 3 Step 4 Purpose Tools Equipment Prerequisite procedures Required As needed Onsite Remote Security Level This task allows you to edit the OSI router configuration including enabling and disabling OSI routers editing the primary area address and creating or editing additional area addresses None DLP A60 Log into CTC page 17 69 As needed Onsite or remote Provisioning or higher In node view click the Provisioning gt OSI gt Routers gt Setup tabs Chose the router you want provision and click Edit In the OSI Router Editor dialog box a Check or uncheck the Enabled box to enable or disable the router amp Note Router 1 must be enabled before you can enable Routers 2 and 3 b For enabled routers edit the primary area address if needed The address can be between 8 and 24 alphanumeric characters in length c Ifyou want to add or edit an area address to the primary area enter the address at the bottom of the Multiple Area Addresses area The area address can be 2 to 26 numeric characters 0 9 in length Click Add d Click OK Return to your originating procedure NTP DLP A546 Edit the OSI Subnetwork Point of Attachment Step 1 Purpose Tools Equipment Prerequisite procedures Required As needed Onsite Remote Security Level This task allows you to view
30. Alarm Type drop down list indicate whether the event will be triggered by the rising threshold falling threshold or both the rising and falling thresholds Step8 From the Sample Type drop down list choose either Relative or Absolute Relative restricts the threshold to use the number of occurrences in the user set sample period Absolute sets the threshold to use the total number of occurrences regardless of time period Step9 Type in an appropriate number of seconds for the Sample Period Step 10 Type in the appropriate number of occurrences for the Rising Threshold For a rising type of alarm the measured value must move from below the falling threshold to above the rising threshold For example if a network is running below a rising threshold of 1000 collisions every 15 seconds and a problem causes 1001 collisions in 15 seconds the excess occurrences trigger an alarm Step 11 Enter the appropriate number of occurrences in the Falling Threshold field In most cases a falling threshold is set lower than the rising threshold A falling threshold is the counterpart to a rising threshold When the number of occurrences is above the rising threshold and then drops below a falling threshold it resets the rising threshold For example when the network problem that caused 1001 collisions in 15 minutes subsides and creates only 799 collisions in 15 minutes occurrences fall below a falling threshold of 800 collisions This resets the rising threshol
31. History Filtering Parameters Step 3 In the Show Severity area click the check boxes for the severities Critical CR Major MJ Minor MN or Not Alarmed NA you want to be reported at the network level Leave severity check boxes deselected unchecked to prevent those severities from appearing When alarm filtering is disabled all alarms show Step4 In the Time area click the Show alarms between time limits check box to enable it Click the up and down arrows in the From Date To Date and Time fields to modify what period of alarms are shown To modify filter parameters for conditions continue with Step 5 If you do not need to modify them continue with Step 6 Step5 Click the filter dialog box Conditions tab Figure 22 7 Figure 22 7 Alarm Filter Dialog Box Conditions Tab General Conditions rShow ACOMAN zi ADMIN DISABLE ADMIN DISABLE CLR Hide BU VET ADMIN LOCKOUT gt gt ADMIN LOCKOUT CLR ADMIN LOGOUT se ADMIN SUSPEND ADMIN SUSPEND CLR AIRCOMPR MIMO ORI EE i Cancel Arp Help When filtering is enabled conditions in the Show list are visible and conditions in the Hide list are invisible 110409 e To move conditions individually from the Show list to the Hide list click the gt button e To move conditions individually from the Hide list to the Show list click the lt button e To move conditions collectively from the Show list to the Hide list
32. I a22 DLPs A500 to A599 Note The terms Unidirectional Path Switched Ring and UPSR may appear in Cisco literature These terms do not refer to using Cisco ONS 15xxx products in a unidirectional path switched ring configuration Rather these terms as well as Path Protected Mesh Network and PPMN refer generally to Cisco s path protection feature which may be used in any topological network configuration Cisco does not recommend using its path protection feature in any particular topological network configuration DLP A507 View OC N PM Parameters Purpose This task enables you to view performance monitoring PM counts on an OC N card and port to detect possible performance problems Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Retrieve or higher Step 1 In node view double click the OC N card where you want to view PM counts The card view appears Step 2 Click the Performance tab Figure 22 1 Cisco ONS 15454 Procedure Guide R7 0 I November 2007 EN Chapter 22 DLPs A500 to A599 WE DLP A507 View OC N PM Parameters Step 3 Step 4 Step 5 Step 6 Step 7 Figure 22 1 Card View Performance tab Directions gt radio buttons Intervals radio buttons Viewing OC N Card Performance Monitoring Information F PET DWDM 1 Cisco Transport Controller lo x File Edit Vie
33. P A520 Delete Alarm Severity Profiles Purpose This task deletes a custom or default alarm severity profile Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Step 1 To access the alarm profile editor from network view go to network view and click the Provisioning gt Alarm Profiles tabs Step2 To access the profile editor from node view go to node view and click the Provisioning gt Alarm Profiles gt Alarm Profile Editor tabs Step3 To access the profile editor from a card view double click the card to display the card view and click the Provisioning gt Alarm Profiles gt Alarm Profile Editor tabs Step4 Click the profile you are deleting to select it Step5 Click Delete The Select Node Profile Combination for Delete dialog box appears Figure 22 5 Cisco ONS 15454 Procedure Guide R7 0 November 2007 22 15 Chapter 22 DLPs A500 to A599 HI DLP A520 Delete Alarm Severity Profiles Step 6 Step 7 Step 8 Step 9 Figure 22 5 Select Node Profile Combination For Delete Dialog Box x Select Node Profile combinations to delete Node Names Profile Names Cancel 71680 Note You cannot delete the Inherited or Default alarm profiles Note A previously created alarm profile cannot be deleted unless it has been stored on the node If the profile is visible on the A
34. Provisioning gt Alarm Profiles gt Alarm Behavior tab b Uncheck the Suppress Alarms check box Suppressed alarms will reappear in the Alarms window They might have previously been cleared from the window using the Synchronize button The AS CMD alarm with the System object will be cleared in all views To discontinue alarm suppression for individual cards a In the node view click the Provisioning gt Alarm Profiles gt Alarm Behavior tabs b Locate the card that was suppressed in the slot list c Uncheck the Suppress Alarms column check box for that slot d Click Apply Suppressed alarms will reappear in the Alarms window They might have previously been cleared from the window using the Synchronize button The AS CMD alarm with the slot object for example SLOT 16 will be cleared in all views To discontinue alarm suppression for ports double click the card to open the card view and click the Provisioning gt Alarm Profiles gt Alarm Behavior tabs Uncheck the Suppress Alarms check box for the port s you no longer want to suppress Click Apply Cisco ONS 15454 Procedure Guide R7 0 Ez November 2007 l Chapter 22 DLPs A500 to A599 Step 6 DLP A524 Download an Alarm Severity Profile W Suppressed alarms will reappear in the Alarms window They might have previously been cleared from the window using the Synchronize button The AS CMD alarm with the port object for example FAC 16 1 will be cleared
35. Table 22 7 POS Threshold Variables MIBs Variable Definition ifInPayloadCrcErrors Number of CRC errors in the frame inside the GFP HDLC payload coming in from the SONET receive RX direction ifOutPayloadCrcErrors Number of CRC errors in the frame inside the GFP HDLC payload coming in from the SONET transmit TX direction ifOutOversizePkts Number of packets larger than 1518 bytes sent out into SONET Packets larger than 1600 bytes do not get transmitted etherStatsDropEvents Number of received frames dropped at the port level gfpStatsRxSBitErrors Receive frames with Single Bit Errors CHEC tHEC eHEC gfpStatsRxMBitErrors Receive frames with Multi Bit Errors CHEC tHEC eHEC Cisco ONS 15454 Procedure Guide R7 0 November 2007 l Chapter 22 DLPs A500 to A599 DLP A533 Create Ethernet RMON Alarm Thresholds W Table 22 7 POS Threshold Variables MIBs continued Variable Definition gfpStatsRxTypelInvalid Receive frames with invalid type PTI EXI UPI gfpStatsRxCRCErrors Receive data frames with Payload cyclic redundancy check CRC errors gfpStatsRxCIDInvalid Receive frames with Invalid CID gfpStatsCSFRaised Number of receive Rx client management frames with Client Signal Fail indication gfpStatsRxFrame Receive data frames gfpStatsTxFrame Transmit data frames gfpStatsRxOctets Received data Octets gfpStatsTxOctets Transmit data Octets Step7 From the
36. a card view click the Provisioning gt Alarm Profiles gt Alarm Profile Editor tabs If you want to create a new profile based upon the default profile in use click New Then go to Step 10 If you want to create a profile using an existing profile located on the node click Load and From Node in the Load Profile s dialog box a Click the node name you are logged into in the Node Names list b Click the name of an existing profile in the Profile Names list such as Default Then go to Step 7 If you want to create a profile using an existing profile located in a file that is stored locally or ona network drive click From File in the Load Profile s dialog box a Click Browse b Navigate to the file location in the Open dialog box c Click Open amp Note All default or user defined severity settings that are Critical CR or Major MJ are demoted to Minor MN in Non Service Affecting NSA situations as defined in Telcordia GR 474 Click OK The alarm severity profile appears in the Alarm Profiles window The alarm profile list contains a master list of alarms that is used for a mixed node network Some of these alarms might not be used in all ONS nodes Right click anywhere in the profile column to view the profile editing shortcut menu Refer to Step 11 for further information about the Default profile I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 HZ DLP
37. an electrical card is installed or preprovisioned in Slot 4 Slot 14 on the B side In node view double click the current protect card The card view appears Make sure the current protect card is not active a In card view click the Maintenance gt Protection tabs b Select the protection group where the protect card resides If the card status is Protect Active perform a switch so that the protect card becomes standby a Click Switch b Click Yes in the confirmation dialog box Physically remove the card a Open the card ejectors b Slide the card out of the slot This raises the IMPROPRMVL alarm which will clear when the upgrade is complete Right click the Protect Standby slot and change the low density card to the high density card a Choose Change Card from the drop down list b Choose the new high density card type from the Change to drop down list c Click OK Physically insert the new high density electrical card into the protect slot Be sure to remove the plastic protective covers on rear of the card before installing the card a Open the ejectors on the card b Slide the card into the slot along the guide rails c Close the ejectors Wait for the IMPROPRMVL alarm to clear and the card to become standby For more information about LED behavior during the high density card boot up see the NTP A17 Install the Electrical Cards procedure on page 2 9 Because the low density working card is now active
38. ated 1 RU below the ONS 15454 Figure 22 8 shows the tie down bar the ONS 15454 and the rack Cisco ONS 15454 Procedure Guide R7 0 I November 2007 BEEN Chapter 22 DLPs A500 to A599 HE DLP A531 Print CTC Data Figure 22 8 Tie Down Bar lt x Tie down bar 105012 Step2 Install the four screws into the rack Step3 Return to your originating procedure NTP DLP A531 Print CTC Data Purpose This task prints CTC card node or network data in graphical or tabular format on a Windows provisioned printer Tools Equipment Printer connected to the CTC computer by a direct or network connection Prerequisite procedures DLP A60 Log into CTC page 17 69 Required As needed As needed Onsite Remote Onsite or remote Security Level Retrieve or higher Step 1 Click the tab and subtab if present containing the information you want to print For example click the Alarms tab to print Alarms window data The print operation is available for all network node and card view windows Step2 From the File menu choose Print Step3 In the Print dialog box click a printing option Figure 22 9 e Entire Frame Prints the entire CTC window including the graphical view of the card node or network This option is available for all windows Cisco ONS 15454 Procedure Guide R7 0 ea November 2007 l Chapter 22 DLPs A500 to A599 DLP A531 Print CTC Data W e
39. be deleted and do not appear in the Select Node Profile Combination for Delete Window Return to your originating procedure NTP DLP A521 Modify Alarm Condition and History Filtering Parameters Purpose This task changes alarm and condition reporting in all network nodes Tools Equipment None Prerequisite Procedures DLP A225 Enable Alarm Filtering task on page 19 17 DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Retrieve or higher Step 1 At the node network or card view click the Alarms tab Conditions tab or History tab Step2 Click the Filter button at the lower left of the bottom toolbar The filter dialog box appears displaying the General tab Figure 22 6 shows the Alarm Filter dialog box the Conditions and History tabs have similar dialog boxes Figure 22 6 Alarm Filter Dialog Box General Tab General Conditions Show severity M CR M MJ M MN V NA mfi Time 7 Show alarms between time limits In the General tab Show Severity box you can choose which alarm severities will show through the alarm filter and provision a time period during which filtered alarms show through the filter To change the alarm severities shown in the filter go to Step 3 To change the time period filter for the alarms go to Step 4 Cisco ONS 15454 Procedure Guide R7 0 November 2007 22 17 Chapter 22 DLPs A500 to A599 HE DLP A521 Modify Alarm Condition and
40. ce gt OSI gt ES IS RIB tabs View the following RIB information for Router 1 e Subnet Type Indicates the OSI subnetwork point of attachment type used to access the destination address Subnet types include SDCC LDCC GCC OSC and LAN e Location Indicates the subnet interface For DCC subnets the slot and port are displayed LAN subnets are shown as LAN e Destination Address The destination IS NSAP network service access point e MAC Address For destination NEs that are accessed by LAN subnets the NE s Media Access Control address If additional routers are enabled you can view their RIBs by choosing the router number in the Router field and clicking Refresh Return to your originating procedure NTP DLP A551 Manage the TARP Data Cache Step 1 Purpose Tools Equipment Prerequisite procedures Required As needed Onsite Remote Security Level This task allows you to view and manage the TARP data cache TDC The TDC facilitates TARP processing by storing a list of TID to NSAP mappings None DLP A60 Log into CTC page 17 69 As needed Onsite or remote Provisioning or higher In node view click the Maintenance gt OSI gt TDC tabs I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 W DLP A552 Adjust the Java Virtual Memory Heap Size Step 2 Step 3 Step 4 Step 5 View the following TARP data cache information e TID The tar
41. click the gt gt button e To move conditions collectively from the Hide list to the Show list click the lt lt button amp Note Conditions include alarms Step6 Click Apply and OK Alarm and condition filtering parameters are enforced when alarm filtering is enabled see the DLP A225 Enable Alarm Filtering task on page 19 17 and the parameters are not enforced when alarm filtering is disabled see the DLP A227 Disable Alarm Filtering task on page 19 18 Step7 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 ca November 2007 l Chapter 22 DLPs A500 to A599 DLP A522 Suppress Alarm Reporting W DLP A522 Suppress Alarm Reporting A Purpose This task suppresses the reporting of ONS 15454 alarms at the node card or port level Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Caution amp If multiple CTC TL1 sessions are open suppressing alarms in one session suppresses the alarms in all other open sessions Note Step 1 Step 2 Step 3 Step 4 Step 5 Step 6 Alarm suppression at the node level does not supersede alarm suppression at the card or port level Suppression can exist independently for all three entities and each entity will raise separate alarms suppressed by the user command AS CMD alarm
42. ct to the ONS 15454 and sets the user security level that can clear node PM data Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Superuser In node view click the Provisioning gt Security gt Access tabs In the Access area provision the following LAN access Choose one of the following options to set the access paths to the node No LAN Access Allows access to the node only through data communications channel DCC connections Access through the TCC2 TCC2P RJ 45 port and backplane is not permitted Front only Allows access through the TCC2 TCC2P RJ 45 port Access through the DCC and the backplane is not permitted Backplane only Allows access through DCC connections and the backplane Access through the TCC2 TCC2P RJ 45 port is not allowed Front and Backplane Allows access through DCC TCC2 TCC2P RJ 45 and backplane connections Restore Timeout Sets a time delay for enabling of front and backplane access when DCC connections are lost and DCC only is chosen in LAN Access Front and backplane access is enabled after the restore timeout period has passed Front and backplane access is disabled as soon as DCC connections are restored In the Shell Access area set the shell program used to access the node Access State Allows you to set the shell program access mode to Disable disables shell
43. d Options for DS3i N 12 Cards continued Parameter Description ES Errored seconds FC Failure count SES Severely errored seconds UAS Unavailable seconds 15 Min radio button Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15 minute intervals 1 Day radio button Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1 day intervals amp Note The threshold value appears after the circuit is created Return to your originating procedure NTP DLP A527 Change the OC N Card ALS Maintenance Settings amp Purpose This task changes the automatic laser shutdown ALS maintenance settings for the OC N cards This feature is available for OC3 8 OC 192 and MRC 12 cards Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Note Step 1 Step 2 Step 3 Step 4 For the default values and domains of user provisionable card settings refer to the Network Element Defaults appendix in the Cisco ONS 15454 Reference Manual In node view double click the OC N card where you want to change the ALS maintenance settings Click the Maintenance gt ALS tabs Modify any of the settings described in Table 22 5 by clicking in the field you want to modify In some
44. d so that if network collisions again spike over a 1000 per 15 minute period an event again triggers when the rising threshold is crossed An event is triggered only the first time a rising threshold is exceeded otherwise a single network problem might cause a rising threshold to be exceeded multiple times and cause a flood of events Step12 Click OK to complete the procedure Step 13 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 November 2007 BEEN Chapter 22 DLPs A500 to A599 HZ DLP A534 Provision OSI Routing Mode DLP A534 Provision OSI Routing Mode Purpose This task provisions the Open System Interconnection OSI routing mode Complete this task when the ONS 15454 is connected to networks with third party network elements NEs that use the OSI protocol stack for data communications network DCN communication Tools Equipment None Prerequisite Procedures NTP A323 Verify Card Installation page 4 2 Required As Needed As needed Onsite Remote Onsite Security Level Provisioning or higher A Caution Do not complete this task until you confirm the role of the node within the network It will be either an ES IS Level 1 or IS Level 1 Level 2 This decision must be carefully considered For additional information about OSI provisioning refer to the Management Network Connectivity chapter of the Cisco ONS 15454 Reference Manual A Caution Link State Protocol LSP buffer
45. ds The range is 10 to 1000 seconds HH Sets the Intermediate System to Intermediate System Hello PDU propagation frequency The IS IS Hello PDUs establish and maintain adjacencies between ISs The default is 3 seconds The range is 1 to 600 seconds IS IS Cost Sets the cost for sending packets on the LAN subnet The IS IS protocol uses the cost to calculate the shortest routing path The default IS IS cost for LAN subnets is 20 It normally should not be changed DIS Priority Sets the designated intermediate system DIS priority In IS IS networks one router is elected to serve as the DIS LAN subnets only Cisco router DIS priority is 64 For the ONS 15454 LAN subnet the default DIS priority is 63 It normally should not be changed Click OK Return to your originating procedure NTP I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 WE DLP A542 Create an IP Over CLNS Tunnel DLP A542 Create an IP Over CLNS Tunnel A Purpose This task creates an IP over CLNS tunnel to allow ONS 15454s to communicate across equipment and networks that use the OSI protocol stack Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Caution Step 1 Step 2 Step 3 A IP over CLNS tunnels require two end points You will create one point on an ONS 15454
46. e Node Name parameter on the node view Provisioning gt General tab e NSAP Enter the OSI NSAP address in the NSAP field or if preferred click Use Mask and enter the address in the Masked NSAP Entry dialog box Step4 Click OK to close the Masked NSAP Entry dialog box if used and then click OK to close the Add Static Entry dialog box Step5 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 November 2007 22 43 Chapter 22 DLPs A500 to A599 HZ DLP A537 Remove a Static TID to NSAP Entry from the TARP Data Cache DLP A537 Remove a Static TID to NSAP Entry from the TARP Data Cache Purpose Tools Equipment Prerequisite procedures Required As needed Onsite Remote Security Level This task removes a static TID to NSAP entry from the TDC None DLP A60 Log into CTC page 17 69 As needed Onsite or remote Provisioner or higher Step1 In node view click the Provisioning gt OSI gt TARP gt Static TDC tabs Step2 Click the static entry that you want to delete Step3 Click Delete Static Entry Step4 In the Delete TDC Entry dialog box click Yes Step5 Return to your originating procedure NTP DLP A538 Add a TARP Manual Adjacency Table Entry Purpose Tools Equipment Prerequisite procedures Required As needed Onsite Remote Security Level This task adds an entry to the TARP manual adjacency table MAT Entries are added to the MAT when the ONS 15454 must communicate across
47. e information about LED behavior during high density electrical card bootup see the NTP A17 Install the Electrical Cards procedure on page 2 9 Clear the switch you performed in Step 10 a In node view double click the slot where you installed the high density card in Step 13 b In the Maintenance gt Protection tab double click the protection group that contains the reporting card c Click the selected group d Click Switch and click Yes in the confirmation dialog box e The protect card should now become standby If you have upgraded to a DS3 EC1 48 card and are using 734A cables with UBIC electrical interface adapters EIAs you must set the LBO for Ports 13 to 48 DS3 EC1 48 doing so according to the actual distance in feet from the LBX panel If you are using 735A cables you must set the LBO for Ports 13 to 48 DS3 EC1 48 doing so according to the following conventions Actual distance from the DSX panel is less than 110 feet 33 53 m LBO setting is 0 225 Actual distance from the DSX panel is greater than or equal to 110 feet 33 53 m LBO setting is 226 to 450 If you have upgraded to a DS1 E1 56 card with UBIC EIAs you must set the LBO for Ports 15 to 56 doing so according to the actual distance in feet from the LBX panel Repeat Steps 4 through 14 for any other low density cards you want to upgrade to high density cards I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22
48. elayed because the medium was busy dot3StatsLateCollisions Not supported by E Series or G Series Number of times that a collision was detected later than 64 octets into the transmission also added into collision count I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 HZ DLP A533 Create Ethernet RMON Alarm Thresholds Table 22 6 Ethernet Threshold Variables MIBs continued Variable Definition dot3StatsExcessiveCollisions Not supported by E Series or G Series Number of frames where transmissions failed because of excessive collisions dot3StatsCarrierSenseErrors G Series only The number of transmission errors on a particular interface that are not otherwise counted dot3StatsSQETestErrors G Series only A count of times that the SQE TEST ERROR message is generated by the PLS sublayer for a particular interface etherStatsBroadcastPkts The total number of good packets received that were directed to the broadcast address this does not include multicast packets etherStatsCollisions An estimate of the total number of collisions on this Ethernet segment The value returned depends on the location of the RMON probe Section 8 2 1 3 10Base5 and Section 10 3 1 3 10Base2 of the IEEE 802 3 standard state that a station must detect a collision in the receive mode if three or more stations are transmitting simultaneously A repeater port mu
49. ervice state unless network conditions prevent the change e JIS Puts the port in service The port service state changes to IS NR e IS AINS Puts the port in automatic in service The port service state changes to OOS AU AINS e OOS DSBLD Removes the port from service and disables it The port service state changes to OOS MA DSBLD e OOS MT Removes the port from service for maintenance The port service state changes to OOS MA MT Service State Display only Identifies the autonomously generated state that gives the overall condition of the port Service states appear in the format Primary State Primary State Qualifier Secondary State e IS NR In Service and Normal The port is fully operational and performing as provisioned e OOS AU AINS Out Of Service and Autonomous Automatic In Service The port is out of service but traffic is carried Alarm reporting is suppressed The ONS node monitors the ports for an error free signal After an error free signal is detected the port stays in OOS AU AINS state for the duration of the soak period After the soak period ends the port service state changes to IS NR e OOS MA DSBLD Out of Service and Management Disabled The port is out of service and unable to carry traffic e OOS MA MT Out of Service and Management Maintenance The port is out of service for maintenance Alarm reporting is suppressed but traffic is carried and loopbacks are
50. ess Subnet types include SDCC LDCC GCC OSC and LAN e Location Indicates the OSI subnetwork point of attachment For DCC subnets the slot and port are displayed LAN subnets are shown as LAN e Destination Address The destination NSAP network service access point of the IS e MAC Address For destination NEs that are accessed by LAN subnets the NE s Media Access Control address Step3 If additional routers are enabled you can view their RIBs by choosing the router number in the Router field and clicking Refresh Step4 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 November 2007 l Chapter 22 DLPs A500 to A599 DLP A550 View ES IS Routing Information Base Wi DLP A550 View ES IS Routing Information Base Step 1 Step 2 Step 3 Step 4 Purpose Tools Equipment Prerequisite procedures Required As needed Onsite Remote Security Level This task allows you to view the End System to Intermediate System ES IS protocol routing information base RIB ES IS is an OSI protocol that defines how end systems hosts and intermediate systems routers learn about each other For ESs the ES IS RIB shows the network view from the perspective of the ES node For ISs the ES IS RIB shows the network view from the perspective of the IS node None DLP A60 Log into CTC page 17 69 As needed Onsite or remote Provisioning or higher In node view click the Maintenan
51. get identifier of the originating NE For ONS 15454s the TID is the name entered in the Node Name TID field on the Provisioning gt General tab e NSAP NET The Network Service Access Point or Network Element Title of the originating NE e Type lIndicates how the TARP data cache entry was created Dynamic The entry was created through the TARP propagation process Static The entry was manually created and is a static entry If you want to query the network for an NSAP that matches a TID complete the following steps Otherwise continue with Step 4 amp Note The TID to NSAP function is not available if the TARP data cache is not enabled on the Provisioning gt OSI gt TARP subtab a Click the TID to NSAP button b In the TID to NSAP dialog box enter the TID you want to map to an NSAP c Click OK then click OK on the information message d On the TDC tab click Refresh If TARP finds the TID in its TDC it returns the matching NSAP If not TARP sends PDUs across the network Replies will return to the TDC later and a check TDC later message is displayed If you want to delete all the dynamically generated TDC entries click the Flush Dynamic Entries button If not continue with Step 5 Return to your originating procedure NTP DLP A552 Adjust the Java Virtual Memory Heap Size Step 1 Step 2 Step 3 Step 4 Step 5 Purpose This task allows you to adjust the Java Virtual Memory JVM heap size from
52. h CE 100T 8 port provision the following parameters e Port Name If you want to label the port enter the port name e Admin State Choose IS to put the port in service e Expected Speed Choose the expected speed of the device that is or will be attached to the Ethernet port If you know the speed choose 100 Mbps or 10 Mbps to match the attached device If you do not know the speed choosing Auto enables autonegotiation for the speed of the port and the CE 100T 8 port will attempt to negotiate a mutually acceptable speed with the attached device e Expected Duplex Choose the expected duplex of the device that is or will be attached to the Ethernet port If you know the duplex choose Full or Half to match the attached device If you do not know the duplex choosing Auto enables autonegotiation for the duplex of the port and the CE 100T 8 port will attempt to negotiate a mutually acceptable duplex with the attached device Cisco ONS 15454 Procedure Guide R7 0 P26 E November 2007 l Chapter 22 DLPs A500 to A599 DLP A513 Provision CE 100T 8 Ethernet Ports W Enable Flow Control Click this check box to enable flow control on the port default If you do not want to enable flow control uncheck the box The CE 100T 8 attempts to negotiate symmetrical flow control with the attached device 802 1Q VLAN CoS For a class of service CoS tagged frame the CE 100T 8 can map the eight priorities specified in CoS for either priori
53. ide of the shelf make sure the protect card is in Slot 15 and the working cards are in Slots 16 and 17 Because the low density card is now active switch traffic away from the low density card in Slot 1 if you are working on the A side or Slot 17 if you are working on the B side a In node view double click the card in Slot 1 Slot 17 b Click the Maintenance gt Protection tabs c Double click the protection group that contains the working card in Slot 1 Slot 17 d Click the card in Slot 1 Slot 17 e Click Switch and Yes in the Confirmation dialog box Physically remove the low density card in Slot 1 Slot 17 a Open the card ejectors b Slide the card out of the slot This raises the IMPROPRMVL alarm which will clear when the upgrade is complete Cisco ONS 15454 Procedure Guide R7 0 eag November 2007 l Chapter 22 DLPs A500 to A599 DLP A554 Upgrade EC 1 Cards in a 1 1 Configuration to DS3 EC1 48 Cards W Step12 Change the low density card to the high density card in CTC a Right click Slot 1 Slot 17 and choose Change Card from the drop down list b Choose the new card type from the Change to drop down list c Click OK Step13 Insert the new high density electrical card into Slot 1 Slot 17 Be sure to remove the plastic protective covers on rear of the card before installing the card a Open the ejectors on the card b Slide the card into the slot along the guide rails c Close the ejectors Wa
54. ilable for DS3 Pbit Near End only and for DS3 CPbit Near End and Far End ESP Errored seconds path Available for DS3 Pbit Near End only and for DS3 CPbit Near End and Far End SESP Severely errored seconds path Available for DS3 Pbit Near End only and for DS3 CPbit Near End and Far End SASP Severely errored frame alarm indication signal path Available for DS3 Pbit Near End only and for DS3 CPbit Near End and Far End UASP Unavailable seconds path Available for DS3 Pbit Near End only and for DS3 CPbit Near End and Far End AISSP Alarm indication signal seconds path Available for DS3 Pbit Near End only and for DS3 CPbit Near End and Far End 15 Min radio button _ Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 15 minute intervals 1 Day radio button Clicking this radio button and then clicking Refresh will cause the threshold values on this tab to display for 1 day intervals Table 22 4 describes the values on the Provisioning gt SONET Thresholds tabs for the DS3i N 12 cards Table 22 4 SONET Threshold Options for DS3i N 12 Cards Parameter Description Port Display only Port number to 12 CV Coding violations Cisco ONS 15454 Procedure Guide R7 0 I November 2007 E 2225 Chapter 22 DLPs A500 to A599 HE DLP A527 Change the OC N Card ALS Maintenance Settings Step7 Table 22 4 SONET Threshol
55. ilename tsv for TSV files Navigate to a directory where you want to store the file Click OK Repeat the task for each window that you want to export Return to your originating procedure NTP I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 HZ DLP A533 Create Ethernet RMON Alarm Thresholds DLP A533 Create Ethernet RMON Alarm Thresholds Purpose This procedure sets up remote monitoring RMON to allow network management systems to monitor Ethernet ports Tools Equipment None Prerequisite Procedures NTP A323 Verify Card Installation page 4 2 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Note Step 1 Step 2 Step 3 Step 4 Step 5 Step 6 The ONS 15454 ML Series cards use the Cisco IOS CLI to manage RMON Complete the DLP A60 Log into CTC page 17 69 at the node where you want to set up RMON If you are already logged in continue with Step 2 Double click the Ethernet card where you want to create the RMON alarm thresholds In card view click the Provisioning gt RMON Thresholds tabs amp Note For CE and ML Series Ethernet cards click the Provisioning gt Ether Ports gt RMON Thresholds tabs or Provisioning gt POS Ports gt RMON Thresholds tabs Click Create The Create Ether Threshold dialog box appears Figure 22 11 Figure 22 11 Creating RMON Thresholds Zs Create Threshold xj S
56. ion groups where N 2 On the A side the protect card cannot be upgraded if any electrical cards are installed or preprovisioned in Slots 4 5 or 6 or Slots 12 13 or 14 on the B side e For 1 N protection groups where N 1 On the A side if the protect card is installed in Slot 3 and it protects a low density card in Slot 1 the protect card cannot be upgraded if Slot 5 or 6 has an electrical card installed or preprovisioned For the B side if the protect card is installed in Slot 15 and it protects a low density card in Slot 17 the protect card cannot be upgraded if Slot 12 or 13 has an electrical card installed or preprovisioned e For 1 N protection groups where N 1 On the A side if the protect card is installed in Slot 3 and it protects a low density card in Slot 2 the protect card cannot be upgraded if an electrical card is installed or preprovisioned in Slot 4 On the B side if the protect card is installed in Slot 15 and it protects a low density card in Slot 16 the protect card cannot be upgraded if an electrical card is installed or preprovisioned in Slot 14 The following limitations apply to upgrading a working card after you have upgraded the protect card e A working card in Slot 1 on the A side Slot 17 on the B side cannot be upgraded if an electrical card is installed or preprovisioned in Slot 5 or 6 Slot 12 or 13 on the B side e A working card in Slot 2 on the A side Slot 16 on the B side cannot be upgraded if
57. ion tabs c Double click the protection group that contains the working card d Click the low density card slot e Click Switch and Yes in the Confirmation dialog box Step11 Physically remove the low density card you switched traffic away from in Step 10 a Open the card ejectors b Slide the card out of the slot This raises the IMPROPRMVL alarm which will clear when the upgrade is complete Step12 Change the low density card to the high density card in CTC a Right click the slot where you removed the low density card and choose Change Card from the drop down list Cisco ONS 15454 Procedure Guide R7 0 I November 2007 TEGN Chapter 22 DLPs A500 to A599 HZ DLP A553 Upgrade DS3XM 6 Cards in a 1 1 Configuration to High Density DS3XM 12 Electrical Cards Step 13 Step 14 b Choose the new high density card type from the Change to drop down list c Click OK Insert the new high density electrical card into the slot where you removed the low density card Be sure to remove the plastic protective covers on rear of the card before installing the card a Open the ejectors on the card b Slide the card into the slot along the guide rails c Close the ejectors Wait for the IMPROPRMVL alarm to clear and the card to become standby For more information about LED behavior during high density electrical card bootup see the NTP A17 Install the Electrical Cards procedure on page 2 9 Clear the switch you performed in
58. it for the IMPROPRMVL alarm to clear and the card to become standby For more information about LED behavior during the high density card bootup see the NTP A17 Install the Electrical Cards page 2 10 Step14 Clear the switch you performed in Step 10 a In node view double click the card in Slot 1 Slot 17 b In the Maintenance gt Protection tab double click the protection group that contains the reporting card c Click the selected group d Click Clear and click Yes in the confirmation dialog box The protect card in Slot 3 A side or Slot 15 B side should now become standby amp Note If you have upgraded to a DS3 EC1 48 card and are using 734A cables with UBIC electrical interface adapters EIAs you must set the LBO for Ports 13 to 48 doing so according to the actual distance in feet from the LBX panel If you are using 735A cables you must set the LBO for Ports 13 to 48 doing so according to the following conventions Actual distance from the DSX panel is less than 110 feet 33 53 m LBO setting is 0 225 Actual distance from the DSX panel is greater than or equal to 110 feet 33 53 m LBO setting is 226 to 450 Step15 As necessary repeat Steps 4 through 14 for other low density electrical cards you want to upgrade Step16 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 I November 2007 g 22 65 Chapter 22 DLPs A500 to A599 HE DLP A554
59. ite Procedures NTP A17 Install the Electrical Cards page 2 10 Required As Needed As needed Onsite Remote Onsite Security Level Provisioning or higher S Note You cannot have any DS 1 cards installed on the same side of the shelf as the DS3 EC1 48 card when you finish the low density to high density upgrade Step 1 Complete the DLP A60 Log into CTC task on page 17 68 If you are already logged in continue with Step 2 Step2 According to local site practice complete the NTP A108 Back Up the Database procedure on page 15 5 Step3 Determine which low density card s DS 1 DS 3 DS 3E you want to upgrade to high density according to slot limitations amp Note For 1 N protection groups the protect card is installed in Slot 3 on the A side of the shelf and Slot 15 on the B side For 1 1 protect groups working and protect cards can be installed in any traffic slot The following limitations apply if you are upgrading a low density protect card e The protect card must be in a protection group e The protect card must not protect any low density electrical cards in Slots 4 5 or 6 on the A side of the shelf Slots 12 13 or 14 on the B side Cisco ONS 15454 Procedure Guide R7 0 November 2007 E 2257 Chapter 22 DLPs A500 to A599 HZ DLP A553 Upgrade DS1 or DS3 12 Cards in a 1 N or 1 1 Configuration to High Density Electrical Cards Step 4 Step 5 Step 6 Step7 Step 8 Step 9 Step 10 e For 1 N protect
60. itting simultaneously A repeater port must detect a collision when two or more stations are transmitting simultaneously Thus a probe placed on a repeater port could record more collisions than a probe connected to a station on the same segment Probe location plays a much smaller role when considering 10BaseT Section 14 2 1 4 LOBASE T of the IEEE 802 3 standard defines a collision as the simultaneous presence of signals on the DO and RD circuits transmitting and receiving at the same time A 10BaseT station can only detect collisions when it is transmitting Thus probes placed on a station and a repeater should report the same number of collisions An RMON probe inside a repeater should report collisions between the repeater and one or more other hosts transmit collisions as defined by IEEE 802 3k plus receiver collisions observed on any coax segments to which the repeater is connected etherStatsDropEvents The total number of events in which packets were dropped by the probe due to lack of resources This number is not necessarily the number of packets dropped it is just the number of times this condition has been detected etherStatsJabbers Total number of octets of data including bad packets received on the network etherStatsMulticastPkts The total number of good packets received that were directed to a multicast address This number does not include packets directed to the broadcast etherStatsOversizePk
61. l number of packets longer than 1518 octets that were not an integral number of octets or had a bad FCS etherStatsOctets The total number of octets of data including those in bad packets received on the network excluding framing bits but including FCS octets etherStatsCollisions Best estimate of the total number of collisions on this segment etherStatsCollisionFrames Best estimate of the total number of frame collisions on this segment etherStatsCRCAlignErrors Total number of packets with a length between 64 and 1518 octets inclusive that had a bad FCS or were not an integral number of octets in length receivePauseFrames G Series only The number of received IEEE 802 x pause frames transmitPauseFrames G Series only The number of transmitted IEEE 802 x pause frames receivePktsDroppedInternalCongest ion G Series only The number of received framed dropped due to frame buffer overflow as well as other reasons transmitPktsDroppedInternalConge stion G Series only The number of frames dropped in the transmit direction due to frame buffer overflow as well as other reasons txTotalPkts Total number of transmit packets rxTotalPkts Total number of receive packets mediaIndStatsOversizeDropped Number of received packets larger than the CE 100T 8 remote monitoring RMON threshold medialIndStatsTxFramesTooLong Number of packets transmitted that are greater than 1548
62. larm Profiles tab but is not listed in the Select Node Profile Combinations to Delete dialog box continue with Step 9 Click the node names in the Node Names list to highlight the profile location p Tip If you hold the Shift key down you can select consecutive node names If you hold the Ctrl key down you can select any combination of nodes Click the profile names you want to delete in the Profile Names list Click OK Click Yes in the Delete Alarm Profile dialog box amp Note If you delete a profile from a node it still appears in the network view Provisioning gt Alarm Profile Editor window unless you remove it using the following step To remove the alarm profile from the window right click the column of the profile you deleted and choose Remove from the shortcut menu amp Note Ifa node and profile combination is selected but does not exist a warning appears One or more of the profile s selected do not exist on one or more of the node s selected For example if node A has only profile 1 stored and the user tries to delete both profile 1 and profile 2 from node A this warning appears However the operation still removes profile 1 from node A Cisco ONS 15454 Procedure Guide R7 0 ca November 2007 l Chapter 22 DLPs A500 to A599 Step 10 DLP A521 Modify Alarm Condition and History Filtering Parameters W amp Note The Default and Inherited special profiles cannot
63. larms check box the node s alarm history appears If you check the Events check box the node s Not Alarmed and transient event history appears If you check both check boxes you will retrieve node history for both alarms and events c Click Retrieve to view all available messages for the History gt Shelf tabs Note Alarms can be unreported when they are filtered out of the display using the Filter button in either tab See the DLP A225 Enable Alarm Filtering task on page 19 17 for information Tip Double click an alarm in the alarm table or an event condition message in the history table to display the view that corresponds to the alarm message For example double clicking a card alarm takes you to card view In network view double clicking a node alarm takes you to node view Step 3 To view network alarm history from node view a From the View menu choose Go to Network View b Click the History tab Alarms and conditions events raised during the current session appear Step4 To view card alarm history from node view a From the View menu choose Go to Previous View b Double click a card on the shelf graphic to open the card level view amp Note TCC2 TCCP cards and cross connect XCVT XC10G or XC VXL 10G cards do not have a card view November 2007 Cisco ONS 15454 Procedure Guide R7 0 Chapter 22 DLPs A500 to A599 HZ DLP A518 Create a New or Cloned Alarm Severity Profile c Click the History gt Se
64. level To do this complete the DLP A117 Apply Alarm Profiles to Cards and Nodes task on page 18 5 Step 12 Modify customize the new alarm profile a In the new alarm profile column click the alarm severity you want to change in the custom profile b Choose a severity from the drop down list c Repeat Steps a and b for each severity you want to customize Refer to the following guidelines when you view the alarms or conditions after making modifications e All Critical CR or Major MJ default or user defined severity settings are demoted to Minor MN in Non Service Affecting NSA situations as defined in Telcordia GR 474 e Default severities are used for all alarms and conditions until you create and apply a new profile e Changing a severity to inherited I or unset U does not change the severity of the alarm Step 13 After you have customized the new alarm profile right click the profile column to highlight it Step14 Click Store Step15 In the Store Profile s dialog box click To Node s and go to Step a or click To File and go to Step b Figure 22 3 Cisco ONS 15454 Procedure Guide R7 0 ca November 2007 l Chapter 22 DLPs A500 to A599 DLP A518 Create a New or Cloned Alarm Severity Profile W Figure 22 3 Store Profiles Dialog Box Store Profile s E i x Select where to store the following profiles defaultjj ToNodefs Node Names doc 123 doc 124 Select All doc 125 Select None
65. lick the Provisioning gt OSI tabs Step3 Choose one of the following routing modes e End System The ONS 15454 performs OSI IS functions It communicates with IS and ES nodes that reside within its OSI area It depends upon an IS L1 L2 node to communicate with IS and ES nodes that reside outside its OSI area e Intermediate System Level 1 Level 2 The ONS 15454 performs IS functions It communicates with IS and ES nodes that reside within its OSI area It also communicates with IS L1 L2 nodes that reside in other OSI areas Before choosing this option verify the following The node is connected to another IS Level 1 Level 2 node that resides in a different OSI area The node is connected to all nodes within its area that are provisioned as IS L1 L2 S Note Changing a routing mode should be carefully considered Additional information about OSI ESs and ISs and the ES IS and IS IS protocols are provided in the Management Network Connectivity chapter of the Cisco ONS 15454 Reference Manual Step4 Although Cisco does not recommend changing the LSP Link State Protocol Data Unit buffer sizes you can adjust the buffers in the following fields e LI LSP Buffer Size Adjusts the Level 1 link state PDU buffer size e L2 LSP Buffer Size Adjusts the Level 2 link state PDU buffer size Step5 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 eag November 2007 l Chapter 22 DLPs A500 to
66. lick the card in node view Click the Provisioning gt Alarm Profiles gt Alarm Behavior tabs Check the Suppress Alarms column check box for the port row where you want to suppress alarms Figure 22 4 on page 22 14 I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 W DLP A523 Discontinue Alarm Suppression Step7 Step 8 Click Apply Alarms that apply directly to this port will change appearance as described in Step 2 However alarms raised on the entire card will remain raised A raised AS CMD alarm that shows the port as its object will appear in either alarm window For example if you suppressed alarms for Port 1 on the Slot 16 OC 48 card the alarm object will show FAC 16 1 Return to your originating procedure NTP DLP A523 Discontinue Alarm Suppression A Purpose This task discontinues alarm suppression and reenables alarm reporting on a port card or node Tools Equipment None Prerequisite Procedures DLP A522 Suppress Alarm Reporting page 22 19 DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Caution Step 1 Step 2 Step 3 Step 4 Step 5 If multiple CTC sessions are open discontinuing suppression in one session will discontinue suppression in all other open sessions To discontinue alarm suppression for the entire node a In node view click the
67. lot Port hooo Variable jimnoctets S Alarm Type Rising o Sample Type JReiatve O Sample Period fo sec Rising Threshold Ott Falling Threshold PO cout i Cancel 96826 From the Port drop down list choose the applicable port on the Ethernet card you selected From the Variable drop down list choose the variable See Table 22 6 and Table 22 7 for a list of the Ethernet and POS threshold variables available in this field Cisco ONS 15454 Procedure Guide R7 0 eag November 2007 l Chapter 22 DLPs A500 to A599 DLP A533 Create Ethernet RMON Alarm Thresholds W Table 22 6 Ethernet Threshold Variables MIBs Variable Definition ifInOctets Total number of octets received on the interface including framing octets ifInUcastPkts Total number of unicast packets delivered to an appropriate protocol ifInMulticastPkts G Series CE Series and ML Series only Number of multicast frames received error free ifInBroadcastPkts G Series CE Series and ML Series only The number of packets delivered by this sublayer to a higher sub layer that were addressed to a broadcast address at this sublayer ifInDiscards G Series CE Series and ML Series only The number of inbound packets that were chosen to be discarded even though no errors had been detected to prevent their being deliverable to a higher layer protocol iflnErrors Number of inbound packets discarded because they co
68. n framing and CRC refer to the POS on ONS Ethernet Cards chapter of the Ethernet Card Software Feature and Configuration Guide for the Cisco ONS 15454 Cisco ONS 15454 SDH and Cisco ONS 15327 amp Note The CE 100T 8 and CE 1000 4 cards use LEX encapsulation which is the primary POS encapsulation used in ONS Ethernet cards Step4 Click Apply Step5 Refresh the POS statistics a Click the Performance gt POS Ports gt Statistics tabs b Click Refresh Step6 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 November 2007 l Chapter 22 DLPs A500 to A599 DLP A517 View Alarm or Event History W DLP A517 View Alarm or Event History Purpose This task is used to view past cleared and uncleared ONS 15454 alarm messages at the card node or network level This task is useful for troubleshooting configuration traffic or connectivity issues that are indicated by alarms Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Retrieve or higher Step 1 Decide whether you want to view the alarm message history at the node network or card level Step2 To view node alarm history a Click the History gt Session tabs to view the alarms and conditions events raised during the current session b Click the History gt Shelf tabs If you check the A
69. n Additional Manual Area Addresses Purpose Tools Equipment Prerequisite Procedures Required As Needed Onsite Remote Security Level This task provisions the OSI manual area addresses One primary and two additional manual areas can be created for each virtual router None DLP A539 Provision OSI Routers page 22 45 DLP A60 Log into CTC page 17 69 As needed Onsite or remote Provisioning or higher Step1 In node view click the Provisioning gt OSI gt Routers gt Setup tabs Step2 Chose the router where you want provision an additional manual area address and click Edit The OSI Router Editor dialog box Step3 In the OSI Router Editor dialog box a Check Enable Router to enable the router and make its primary area address available for editing b Click the manual area address then click Add c Inthe Add Manual Area Address dialog box enter the primary area address in the Area Address field If you prefer click Use Mask and enter the address in the Masked NSAP Entry dialog box The address hexadecimal format can be 2 to 24 alphanumeric characters 0 9 a f in length d Click OK successively to close the following dialog boxes Masked NSAP Entry if used Add Manual Area Address and OSI Router Editor Step4 Return to your originating procedure NTP DLP A541 Enable the OSI Subnet on the LAN Interface Purpose Tools Equipment Prerequisite Procedures Required As Needed Onsite Remote Security Le
70. n page 17 68 If you are already logged in continue with Step 2 According to local site practice complete the NTP A108 Back Up the Database procedure on page 15 5 Determine which low density card s DS3XM 6 you want to upgrade to high density according to slot limitations Note For 1 1 protect groups working and protect cards can be installed in any traffic slot But both cards should be placed adjacent to each other The following limitations apply if you are upgrading a low density protect card e The protect card must be in a protection group e For 1 N protection groups where N 1 If 1 1 is created on A side protect card cannot be upgraded if an DS1 card is installed or preprovisioned in A side If 1 1 is created On the B side the protect card cannot be DS card is installed or preprovisioned in B side Cisco ONS 15454 Procedure Guide R7 0 eag November 2007 l Chapter 22 DLPs A500 to A599 DLP A553 Upgrade DS3XM 6 Cards in a 1 1 Configuration to High Density DS3XM 12 Electrical Cards W The following limitations apply to upgrading a working card after you have upgraded the protect card e A working card on the A cannot be upgraded if an DS1 card is installed or preprovisioned in A side e A working card on the B side cannot be upgraded if an DS1 card is installed or preprovisioned in B side Step4 In node view double click the current protect card The card view appears Step5 Make sure the current pr
71. ns of user provisionable card settings refer to the Network Element Defaults appendix in the Cisco ONS 15454 Reference Manual Recovery Pulse Interval Sets the recovery laser pulse interval in seconds This is the period of time that must past before the recover pulse is repeated Numeric For the default values and domains of user provisionable card settings refer to the Network Element Defaults appendix in the Cisco ONS 15454 Reference Manual Currently Shutdown Display only Displays the current status of the laser Numeric For the default values and domains of user provisionable card settings refer to the Network Element Defaults appendix in the Cisco ONS 15454 Reference Manual Request Laser Restart If checked allows you to restart the laser for maintenance Note Restarting a laser might be traffic affecting Checked or unchecked Return to your originating procedure NTP I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 HZ DLP A528 Change the Default Network View Background Map DLP A528 Change the Default Network View Background Map amp Purpose This task changes the default map of the CTC network view Tools Equipment None Prerequisite procedures DLP A60 Log into CTC page 17 69 Required As needed As needed Onsite Remote Onsite or remote Security Level Superuser Note Step 1 Step 2 Step
72. ntain errors ifOutOctets Total number of transmitted octets including framing packets ifOutUcastPkts Total number of unicast packets requested to transmit to a single address ifOutMulticastPkts G Series CE Series and ML Series only Number of multicast frames transmitted error free ifOutBroadcastPkts G Series CE Series and ML Series only The total number of packets that higher level protocols requested be transmitted and that were addressed to a broadcast address at this sublayer including those that were discarded or not sent ifOutDiscards G Series only The number of outbound packets that were chosen to be discarded even though no errors had been detected to prevent their being transmitted dot3statsAlignmentErrors Number of frames with an alignment error that is the length is not an integral number of octets and the frame cannot pass the frame check sequence FCS test dot3StatsFCSErrors Number of frames with framecheck errors that is there is an integral number of octets but an incorrect FCS dot3StatsSingleCollisionFrames Not supported by E Series or G Series Number of successfully transmitted frames that had exactly one collision dot3StatsMutlipleCollisionFrames Not supported by E Series or G Series Number of successfully transmitted frames that had multiple collisions dot3StatsDeferredTransmissions Not supported by E Series or G Series Number of times the first transmission was d
73. oning gt OSI gt TARP gt Config tabs Provision the following parameters as needed TARP PDUs L1 Propagation If checked default TARP Type 1 PDUs that are received by the node and are not excluded by the LDB are propagated to other NEs within the Level 1 OSI area Type 1 PDUs request a protocol address that matches a target identifier TID within a Level 1 routing area The propagation does not occur if the NE is the target of the Type 1 PDU and PDUs are not propagated to the NE from which the PDU was received amp Note The TARP PDUs L1 Propagation parameter is not used when the Node Routing Area Provisioning gt OSI gt Main Setup tab is set to End System TARP PDUs L2 Propagation If checked default TARP Type 2 PDUs received by the node that are not excluded by the LDB are propagated to other NEs within the Level 2 OSI areas Type 2 PDUs request a protocol address that matches a TID within a Level 2 routing area The propagation occurs if the NE is not the target of the Type 2 PDU and PDUs are not propagated to the NE from which the PDU was received amp Note The TARP PDUs L2 Propagation parameter is only used when the Node Routing Area is provisioned to Intermediate System Level 1 Level 2 I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 HZ DLP A535 Provision or Modify TARP Operating Parameters e TARP PDUs Origination If checked default
74. otect card is not active a In card view click the Maintenance gt Protection tabs b Select the protection group where the protect card resides Step6 If the card status is Protect Active perform a switch so that the protect card becomes standby a Click Switch b Click Yes in the confirmation dialog box Step7 Physically remove the card a Open the card ejectors b Slide the card out of the slot This raises the IMPROPRMVL alarm which will clear when the upgrade is complete Step8 Right click the Protect Standby slot and change the low density card to the high density card a Choose Change Card from the drop down list b Choose the new high density card type from the Change to drop down list c Click OK Step9 Physically insert the new high density electrical card into the protect slot Be sure to remove the plastic protective covers on rear of the card before installing the card a Open the ejectors on the card b Slide the card into the slot along the guide rails c Close the ejectors Wait for the IMPROPRMVL alarm to clear and the card to become standby For more information about LED behavior during the high density card boot up see the NTP A17 Install the Electrical Cards procedure on page 2 9 Step 10 Because the low density working card is now active switch traffic away from the low density card a In node view double click the slot where the low density card is installed b Click the Maintenance gt Protect
75. outing mode Tools Equipment None Prerequisite procedures DLP A60 Log into CTC page 17 69 Required As needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Caution A Do not complete this procedure until you confirm the role of the node within the network It will be either an ES IS Level 1 or IS Level 1 Level 2 This decision must be carefully considered For additional information about OSI provisioning refer to the Management Network Connectivity chapter of the Cisco ONS 15454 Reference Manual Caution LSP buffers must be the same at all NEs within the network or loss of visibility could occur Do not modify the LSP buffers unless you are sure that all NEs within the OSI have the same buffer size Cisco ONS 15454 Procedure Guide R7 0 November 2007 E 2249 Chapter 22 DLPs A500 to A599 HE DLP A544 Change the OSI Routing Mode A Caution LSP buffer sizes cannot be greater than the LAP D MTU size within the OSI area Step 1 Verify the following e All L1 L2 virtual routers on the NE must reside in the same area This means that all neighboring virtual routers must have at least one common area address e For OSI L1 L2 to ES routing mode changes only one L1 L2 virtual router and no more than one subnet can be configured e For OSI LI to ES routing mode changes only one L1 virtual router and no more than one subnet can be configured Step2 In node view c
76. port or STS from the drop down lists that appear based on the card selected in Step 2 See Table 6 2 on page 6 3 for a list of valid options Cisco Transport Controller CTC does not display ports STSs Virtual Tributaries VTs or DS3s if they are already in use by other circuits If you and another user who is working on the same network choose the same port STS VT port or DS3 simultaneously one of you receives a Path in Use error and is unable to complete the circuit The user with the partial circuit needs to choose new destination parameters Step9 If you need to create a secondary destination for example a If you need to create a secondary source for example a path protection bridge selector circuit entry point in a multivendor bridge selector circuit exit point in a multivendor If you need to create a secondary source for example a path protection bridge selector circuit entry point in a multivendor click Use Secondary Destination and repeat Steps 6 through 8 to define the secondary destination Step10 Click Next Step 11 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 e November 2007 l Chapter 22 DLPs A500 to A599 DLP A512 Change Node Access and PM Clearing Privilege W DLP A512 Change Node Access and PM Clearing Privilege Step 1 Step 2 Step 3 Step 4 Step 5 Step 6 Step 7 Purpose This task provisions the physical access points and shell programs used to conne
77. profile Alarm Profiles i Inherited from Card profile Inherited from Card profile Inherited trom Card profile Inherited from Card profile Inherited trom Card profile WyaoayayayAya 2 g E s 5 inherited from Card profile g t 7 g a T Inherited from Card profile t Force all ports to profile inherited from Card profile Force still need to Apply 34962 NET CKT Cisco ONS 15454 Procedure Guide R7 0 ca November 2007 l Chapter 22 DLPs A500 to A599 Step 3 Step 4 Step 5 Step 6 DLP A520 Delete Alarm Severity Profiles W Go to Step 3 to apply profiles to a port Go to Step 4 to apply profiles to all ports on a card To apply profiles on a port basis a In card view click the port row in the Profile column b Choose the new profile from the drop down list c Click Apply To apply profiles to all ports on a card a Incard view click the Force all ports to profile drop down arrow at the bottom of the window b Choose the new profile from the drop down list c Click Force still need to Apply d Click Apply In node view the Port Level Profiles column indicates port level profiles with a notation such as exist 1 Figure 18 3 on page 18 6 To reapply a previous alarm profile after you have applied a new one select the previous profile and click Apply again Return to your originating procedure NTP DL
78. r if the TARP PDUs L1 Propagation parameter is not enabled e LAN TARP Storm Suppression If checked default enables TARP storm suppression This function prevents redundant TARP PDUs from being unnecessarily propagated across the LAN network e Send Type 4 PDU on Startup If checked a TARP Type 4 PDU is originated during the initial ONS 15454 startup Type 4 PDUs indicate that a TID or NSAP change has occurred at the NE The default setting is not enabled e Type 4 PDU Delay Sets the amount of time that will pass before the Type 4 PDU is generated when Send Type 4 PDU on Startup is enabled 60 seconds is the default The range is 0 to 255 seconds amp Note The Send Type 4 PDU on Startup and Type 4 PDU Delay parameters are not used if TARP PDUs Origination is not enabled e LDB Entry Sets the TARP loop detection buffer timer The LDB buffer time is assigned to each LDB entry for which the TARP sequence number tar seq is zero The default is 5 minutes The range is 1 to 10 minutes e LDB Flush Sets the frequency period for flushing the LDB The default is 5 minutes The range is 0 to 1440 minutes e T1 Sets the amount of time to wait for a response to a Type 1 PDU Type 1 PDUs seek a specific NE TID within an OSI Level 1 area The default is 15 seconds The range is 0 to 3600 seconds Cisco ONS 15454 Procedure Guide R7 0 caga November 2007 l Chapter 22 DLPs A500 to A599 Step 3 Step 4 DLP A536 Add a
79. rrespond when applicable to default values established in Telcordia GR 253 CORE amp Note All default or user defined severity settings that are Critical CR or Major MJ are demoted to Minor MN in Non Service Affecting NSA situations as defined in Telcordia GR 474 Click OK The downloaded profile appears at the right side of the Alarm Profiles window I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 HZ DLP A526 Change Line and Threshold Settings for the DS3i N 12 Cards Step 8 Step 9 Step 10 Step 11 Right click anywhere in the downloaded profile column to view the profile editing shortcut menu Click Store In the Store Profile s dialog box click To Node s a Choose the nodes where you want to save the profile If you want to save the profile to only one node click the node in the Node Names list If you want to save the profile to all nodes click Select All If you do not want to save the profile to any nodes click Select None If you want to update alarm profile information click Synchronize b Click OK Return to your originating procedure NTP DLP A526 Change Line and Threshold Settings for the DS3i N 12 Cards amp Purpose This task changes the line and threshold settings for the DS3i N 12 cards Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote On
80. ry manual area addresses for Routers 2 and 3 Note The Router manual area address System ID and Selector 00 create the node NSAP address Changing the Router manual area address changes the node s NSAP address Note The System ID for Router 1 is the node MAC address The System IDs for Routers 2 and 3 are created by adding 1 and 2 respectively to the Router 1 System ID You cannot edit the System IDs Step1 In node view click the Provisioning gt OSI gt Routers gt Setup tabs Step2 Chose the router you want provision and click Edit The OSI Router Editor dialog box appears Step3 In the OSI Router Editor dialog box a Check Enable Router to enable the router and make its primary area address available for editing b Click the manual area address then click Edit c Inthe Edit Manual Area Address dialog box edit the primary area address in the Area Address field If you prefer click Use Mask and enter the edits in the Masked NSAP Entry dialog box The address hexadecimal format can be 8 to 24 alphanumeric characters 0 9 a f in length d Click OK successively to close the following dialog boxes Masked NSAP Entry if used Edit Manual Area Address and OSI Router Editor Step4 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 I November 2007 22 45 Chapter 22 DLPs A500 to A599 HZ DLP A540 Provision Additional Manual Area Addresses DLP A540 Provisio
81. s must be the same at all NEs within the network or loss of visibility might occur Do not modify the LSP buffers unless you confirm that all NEs within the OSI have the same buffer size A Caution LSP buffer sizes cannot be greater than the LAP D maximum transmission unit MTU size within the OSI area amp Note For ONS 15454 nodes three virtual routers can be provisioned The node primary NSAP address is also the Router 1 primary manual area address To edit the primary NSAP you must edit the Router 1 primary manual area address After you enable Router 1 on the Routers subtab the Change Primary Area Address button is available to edit the address Step 1 Complete the DLP A60 Log into CTC page 17 69 at the node where you want to provision the OSI routing mode If you are already logged in continue with Step 2 Step2 In node view click the Provisioning gt OSI gt Main Setup tabs Step3 Choose a routing mode e End System The ONS 15454 performs OSI end system ES functions and relies upon an intermediate system IS for communication with nodes that reside within its OSI area amp Note The End System routing mode is not available if more than one virtual router is enabled e Intermediate System Level 1 The ONS 15454 performs OSI IS functions It communicates with IS and ES nodes that reside within its OSI area It depends upon an IS L1 L2 node to communicate with IS and ES nodes that reside out
82. s the IP over CLNS tunnel The OSPF metric or cost is used by OSPF routers to calculate the shortest path The default is 110 Normally it is not be changed unless you are creating multiple tunnel routes and want to prioritize routing by assigning different metrics NSAP Address Enter the destination NE or OSI router NSAP address Click OK Cisco ONS 15454 Procedure Guide R7 0 eag November 2007 l Chapter 22 DLPs A500 to A599 Step 5 Step 6 DLP A543 Remove a TARP Manual Adjacency Table Entry W Provision the other tunnel end point using the documentation Return to your originating procedure NTP DLP A543 Remove a TARP Manual Adjacency Table Entry A Purpose This task removes an entry from the TARP manual adjacency table Tools Equipment None Prerequisite procedures DLP A60 Log into CTC page 17 69 Required As needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Caution Step 1 Step 2 Step 3 Step 4 Step 5 If TARP manual adjacency is the only means of communication to a group of nodes loss of visibility will occur when the adjacency table entry is removed In node view click the Provisioning gt OSI gt TARP gt MAT tabs Click the MAT entry that you want to delete Click Remove In the Delete TDC Entry dialog box click OK Return to your originating procedure NTP DLP A544 Change the OSI Routing Mode A Purpose This task changes the OSI r
83. side its OSI area Cisco ONS 15454 Procedure Guide R7 0 eag November 2007 l Chapter 22 DLPs A500 to A599 Step 4 Step 5 DLP A535 Provision or Modify TARP Operating Parameters W Intermediate System Level 1 Level 2 The ONS 15454 performs IS functions It communicates with IS and ES nodes that reside within its OSI area It also communicates with IS L1 L2 nodes that reside in other OSI areas Before choosing this option verify the following The node is connected to another IS Level 1 Level 2 node that resides in a different OSI area The node is connected to all nodes within its area that are provisioned as IS L1 L2 If needed change the LSP data buffers L1 LSP Buffer Size Adjusts the Level 1 link state PDU buffer size The default is 512 It should not be changed L2 LSP Buffer Size Adjusts the Level 2 link state PDU buffer size The default is 512 It should not be changed Return to your originating procedure NTP DLP A535 Provision or Modify TARP Operating Parameters Step 1 Step 2 Purpose This task provisions or modifies the Target Identifier Address Resolution Protocol TARP operating parameters including TARP protocol data unit PDU propagation timers and loop detection buffer LDB Tools Equipment None Prerequisite procedures DLP A60 Log into CTC page 17 69 Required As needed As needed Onsite Remote Onsite or remote Security Level Superuser In node view click the Provisi
84. site or remote Security Level Provisioning or higher Note Step 1 Step 2 Step 3 Step 4 Step 5 Step 6 For the default values and domains of user provisionable card settings refer to the Network Element Defaults appendix in the Cisco ONS 15454 Reference Manual In node view double click the DS3i N 12 card where you want to change the line or threshold settings Click the Provisioning tab Depending on the setting you need to modify click the Line Line Thresholds Elect Path Thresholds or SONET Thresholds subtab amp Note See Chapter 8 Manage Alarms for information about the Alarm Profiles tab amp Note If you want to modify a threshold setting it might be necessary to click on the available directional type and interval 15 Min 1 Day radio buttons and then click Refresh This will display the desired threshold setting Modify the settings found under these subtabs by clicking in the field you want to modify In some fields you can choose an option from a drop down list in others you can type a value Click Apply Repeat Steps 3 through 5 for each subtab that has parameters you want to provision Cisco ONS 15454 Procedure Guide R7 0 ea November 2007 l Chapter 22 DLPs A500 to A599 DLP A526 Change Line and Threshold Settings for the DS3i N 12 Cards For definitions of the line settings see Table 22 1 For definitions of the line threshold settings see Table 2
85. ssion tab to view the alarm messages raised during the current session d Click the History gt Card tab to retrieve all available alarm messages for the card and click Retrieve If you check the Alarms check box the node s alarm history appears If you check the Events check box the node s Not Alarmed and transient event history appears If you check both check boxes you will retrieve node history for both alarms and events amp Note The ONS 15454 can store up to 640 critical alarm messages 640 major alarm messages 640 minor alarm messages and 640 condition messages When any of these limits is reached the ONS 15454 discards the oldest events in that category Raised and cleared alarm messages and events if selected appear Step5 Return to your originating procedure NTP DLP A518 Create a New or Cloned Alarm Severity Profile Purpose This task creates a custom severity profile or clones and modifies the default severity profile Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Step1 To access the alarm profile editor from network view click the Provisioning gt Alarm Profiles tabs Step2 To access the profile editor from node view click the Provisioning gt Alarm Profiles gt Alarm Profile Editor tabs Figure 22 2 Cisco ONS 15454 Procedure Guide R7 0 P22 10 I No
86. st detect a collision when two or more stations are transmitting simultaneously Thus a probe placed on a repeater port could record more collisions than a probe connected to a station on the same segment Probe location plays a much smaller role when considering 10BaseT Section 14 2 1 4 10BaseT of the IEEE 802 3 standard defines a collision as the simultaneous presence of signals on the DO and RD circuits transmitting and receiving at the same time A 10BaseT station can only detect collisions when it is transmitting Thus probes placed on a station and a repeater should report the same number of collisions An RMON probe inside a repeater should report collisions between the repeater and one or more other hosts transmit collisions as defined by IEEE 802 3k plus receiver collisions observed on any coax segments to which the repeater is connected Cisco ONS 15454 Procedure Guide R7 0 November 2007 l Chapter 22 DLPs A500 to A599 DLP A533 Create Ethernet RMON Alarm Thresholds W Table 22 6 Ethernet Threshold Variables MIBs continued Variable Definition etherStatsCollisionFrames An estimate of the total number of collisions on this Ethernet segment The value returned will depend on the location of the RMON probe Section 8 2 1 3 10Base5 and Section 10 3 1 3 10Base2 of the IEEE 802 3 standard state that a station must detect a collision in the receive mode if three or more stations are transm
87. t alarm severity profile to a port or ports Tools Equipment None Prerequisite Procedures DLP A518 Create a New or Cloned Alarm Severity Profile page 22 10 DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Step 1 In the node view double click a card to open the card view amp Note You can also apply alarm profiles to cards using the DLP A117 Apply Alarm Profiles to Cards and Nodes task on page 18 5 amp Note The card view is not available for the TCC2 TCCP or cross connect cards Step2 Click the Provisioning gt Alarm Profiles gt Alarm Behavior tabs Figure 22 4 shows the alarm profiles of DS1 E1 56 card ports CTC shows Parent Card Profile Inherited Figure 22 4 DS1 N 14 Card Alarm Behavior Tab File Edit View Tools Help e a St el e telxial ela ia Osi OF 44 Port 1 00 AU AINS amp 02 24 Port 2 00S AU AINS 03 34 Port 3 00S AU AINE sears Port 4 00S AU AINE maal Port 5 005 AU AINE 5 1 Port 6 003 AU AIN Port 7 003 AU AINS Port 8 005 AU AINS Port 9 003 AU AIN Port 10 005 AU AIN Port 11 005 AaU AIK Port 12 005 AU AIN Port 13 005 aU AIK Port 14 005 AU AIN GREEREEEE Alarms Conditions History Circuits Provisioning maintenance Performance Line Alarm Behavior alarm Profile Editor Line Thresholds Elect Path Thresholds SONET Thresholds Inherited from Card
88. t cause the nodes to loose visibility or cause node isolation If node isolation occurs onsite provisioning might be required to regain connectivity Always confirm tunnel deletions with your network administrator Step 1 In node view click the Provisioning gt OSI gt Tunnels tabs Step2 Choose the IP over CLNS tunnel that you want to delete Step3 Click Delete Step4 Click OK Step5 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 November 2007 22 53 Chapter 22 DLPs A500 to A599 HZ DLP A549 View IS IS Routing Information Base DLP A549 View IS IS Routing Information Base Purpose Tools Equipment Prerequisite procedures Required As needed Onsite Remote Security Level This task allows you to view the Intermediate System to Intermediate System IS IS protocol routing information base RIB IS IS is an OSI routing protocol that floods the network with information about NEs on the network Each NE uses the information to build a complete and consistent picture of a network topology The IS IS RIB shows the network view from the perspective of the IS node None DLP A60 Log into CTC page 17 69 As needed Onsite or remote Provisioning or higher Step 1 In the node view click the Maintenance gt OSI gt IS IS RIB tabs Step2 View the following RIB information for Router 1 e Subnet Type Indicates the OSI subnetwork point of attachment type used to access the destination addr
89. te or enable a subnet You cannot change the parameters after the subnet is created To change the DIS Priority and IS IS Cost parameters delete the subnet and create a new one Click OK Step4 Return to your originating procedure NTP DLP A547 Edit an IP Over CLNS Tunnel Purpose This task allows you to edit the parameters of an IP over CLNS tunnel Tools Equipment None Prerequisite procedures DLP A542 Create an IP Over CLNS Tunnel page 22 48 DLP A60 Log into CTC page 17 69 Required As needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher A Caution Changing the IP or NSAP addresses or an IP over CLNS tunnel can cause loss of NE visibility or NE isolation Do not change network addresses until you verify the changes with your network administrator Step 1 In node view click the Provisioning gt OSI gt Tunnels tabs Step2 Click Edit Step3 In the Edit IP Over OSI Tunnel dialog box complete the following fields e Tunnel Type Choose a tunnel type Cisco Creates the proprietary Cisco IP tunnel Cisco IP tunnels add the CLNS header to the IP packets GRE Creates a Generic Routing Encapsulation tunnel GRE tunnels add the CLNS header and a GRE header to the IP packets Cisco ONS 15454 Procedure Guide R7 0 ea November 2007 l Chapter 22 DLPs A500 to A599 A DLP A548 Delete an IP Over CLNS Tunnel W The Cisco proprietary tunnel is slightly more efficient
90. than the GRE tunnel because it does not add the GRE header to each IP packet The two tunnel types are not compatible Most Cisco routers support the Cisco IP tunnel while only a few support both GRE and Cisco IP tunnels You generally should create Cisco IP tunnels if you are tunneling between two Cisco routers or between a Cisco router and an ONS node Caution Step 4 Step 5 Always verify that the IP over CLNS tunnel type you choose is supported by the equipment at the other end of the tunnel IP Address Enter the IP address of the P over CLNS tunnel destination IP Mask Enter the IP address subnet mask of the IP over CLNS destination OSPF Metric Enter the OSPF metric for sending packets across the IP over CLNS tunnel The OSPF metric or cost is used by OSPF routers to calculate the shortest path The default is 110 Normally it is not be changed unless you are creating multiple tunnel routes and want to prioritize routing by assigning different metrics NSAP Address Enter the destination NE or OSI router NSAP address Click OK Return to your originating procedure NTP DLP A548 Delete an IP Over CLNS Tunnel A Purpose This task allows you to delete an IP over CLNS tunnel Tools Equipment None Prerequisite procedures DLP A60 Log into CTC page 17 69 Required As needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher Caution Deleting an IP over CLNS tunnel migh
91. the node performs all TARP origination functions including TID to Network Service Access Point NSAP resolution requests originate TARP Type 1 and Type 2 PDUs NSAP to TID requests originate Type 5 PDUs TARP address changes originate Type 4 PDUs amp Note TARP Echo and NSAP to TID is not supported e TARP Data Cache If checked default the node maintains a TARP data cache TDC The TDC is a database of TID to NSAP pairs created from TARP Type 3 PDUs received by the node and modified by TARP Type 4 PDUs TID to NSAP updates or corrections TARP 3 PDUs are responses to Type and Type 2 PDUs The TDC can also be populated with static entries entered on the TARP gt Static TDC tab amp Note This parameter is only used when the TARP PDUs Origination parameter is enabled e L2 TARP Data Cache If checked default the TIDs and NSAPs of NEs originating Type 2 requests are added to the TDC before the node propagates the requests to other NEs The TARP Data Cache parameter is designed for Intermediate System Level 1 Level 2 nodes that are connected to other Intermediate System Level 1 Level 2 nodes Enabling the parameter for Intermediate System Level 1 nodes is not recommended e LDB If checked default enables the TARP loop detection buffer The LDB prevents TARP PDUs from being sent more than once on the same subnet The LDP parameter is not used if the Node Routing Mode is provisioned to End System o
92. to distinguish whether the printout applies to the network node or card view To determine the view compare the tabs on the printout The network node and card views are identical except that network view does not contain an Inventory tab or Performance tab Figure 22 9 Selecting CTC Data For Print Print Regions a C Tabbed View Table Contents OK Cancel 34334 Step4 Click OK Step5 In the Windows Print dialog box click a printer and click OK Cisco ONS 15454 Procedure Guide R7 0 November 2007 n Chapter 22 DLPs A500 to A599 E DLP A532 Export CTC Data Step6 Repeat this task for each window that you want to print Step7 Return to your originating procedure NTP DLP A532 Export CTC Data Purpose This task exports CTC table data as delineated text to view or edit the data in text editor word processor spreadsheet database management or web browser applications You can also export data from the Edit Circuits window Tools Equipment None Prerequisite procedures DLP A60 Log into CTC page 17 69 Required As needed As needed Onsite Remote Onsite or remote Security Level Retrieve or higher Step 1 Click the tab containing the information you want to export for example the Alarms tab or the Circuits tab Step2 If you want to export detailed circuit information complete the following a In the Circuits window choose a circuit and click Edit to open it in the Edit Circuits window b
93. traffic Tools Equipment None Prerequisite Procedures DLP A60 Log into CTC page 17 69 Required As Needed As needed Onsite Remote Onsite or remote Security Level Provisioning or higher amp Note You can provision SONET CCAT or VCAT circuits for the CE 100T 8 or CE 1000 4 before or after provisioning the card s Ethernet ports and or POS ports See the NTP A257 Create an Automatically Routed Optical Circuit procedure on page 6 38 or the NTP A264 Create an Automatically Routed VCAT Circuit procedure on page 6 82 as needed Step 1 In node view double click the CE 100T 8 or CE 1000 4 card graphic to open the card Step2 Click the Provisioning gt POS Ports tabs Step3 For each CE 100T 8 or CE 1000 4 port provision the following parameters e Port Name If you want to label the port enter the port name e Admin State Choose IS to put the port in service e Framing Type Choose GPF F POS framing the default or HDLC POS framing The framing type needs to match the framing type of the POS device at the end of the SONET circuit e Encap CRC With GFP F framing the user can configure a 32 bit cyclic redundancy check CRC the default or none no CRC HDLC framing provides a set 32 bit CRC The CRC should be set to match the CRC of the POS device on the end of the SONET circuit S Note For more details about the interoperabilty of Optical Networking System ONS Ethernet cards including information on encapsulatio
94. ts The total number of packets received that were longer than 1518 octets excluding framing bits but including FCS octets and were otherwise well formed etherStatsUndersizePkts Number of packets received with a length less than 64 octets etherStatsFragments Total number of packets that are not an integral number of octets or have a bad FCS and that are less than 64 octets long etherStatsPkts64Octets Total number of packets received including error packets that were 64 octets in length etherStatsPkts65to127Octets Total number of packets received including error packets that were 65 to 172 octets in length etherStatsPkts128to255Octets Total number of packets received including error packets that were 128 to 255 octets in length etherStatsPkts256to511Octets Total number of packets received including error packets that were 256 to 511 octets in length I November 2007 Cisco ONS 15454 Procedure Guide R7 0 E Chapter 22 DLPs A500 to A599 HZ DLP A533 Create Ethernet RMON Alarm Thresholds Table 22 6 Variable Ethernet Threshold Variables MIBs continued Definition etherStatsPkts5 12to1023Octets Total number of packets received including error packets that were 512 to 1023 octets in length etherStatsPkts1024to1518Octets Total number of packets received including error packets that were 1024 to 1518 octets in length etherStatsJabbers Tota
95. ty or best effort treatment Any CoS class higher than the class specified in CTC is mapped to priority which is the treatment geared towards low latency By default the CoS is set to 7 which is the highest CoS value The default results in all traffic being treated as best effort IP ToS The CE 100T 8 can also map any of the 256 priorities specified in IP type of service ToS to either priority or best effort treatment Any ToS class higher than the class specified in CTC is mapped to priority which is the treatment geared towards low latency By default the ToS is set to 255 which is the highest ToS value This results in all traffic being sent to the best effort queue by default Note Untagged traffic is treated as best effort Note If traffic is tagged with both CoS and IP ToS then the CoS value is used unless the CoS value is 7 Step4 Click Apply Step5 Refresh the Ethernet statistics a Click the Performance gt Ether Ports gt Statistics tabs b Click Refresh amp Note Reprovisioning an Ethernet port on the CE 100T 8 card does not reset the Ethernet statistics for that port Step6 Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 November 2007 m Chapter 22 DLPs A500 to A599 E DLP A514 Provision CE 100T 8 and CE 1000 4 POS Ports DLP A514 Provision CE 100T 8 and CE 1000 4 POS Ports Purpose This task provisions CE 100T 8 or CE 1000 4 POS ports to carry
96. ve a Incard view click the Maintenance gt Protection tabs b Select the protection group where the protect card resides If the card status is Protect Active perform a switch so that the protect card becomes standby a Click Switch b Click Yes in the confirmation dialog box Physically insert the new high density electrical card into the new 1 N protect slot Slot 3 for the A Side and Slot 15 for the B Side Be sure to remove the plastic protective covers on rear of the card before installing the card a Open the ejectors on the card b Slide the card into the slot along the guide rails c Close the ejectors For more information about LED behavior during the high density card boot up see the NTP A17 Install the Electrical Cards page 2 10 Allow the card to completely boot up before proceeding Delete the 1 1 EC1 12 low density protection group See the DLP A155 Delete a Protection Group task on page 18 23 a Open the card ejectors b Slide the card out of the slot This raises the IMPROPRMVL alarm which will clear when the upgrade is complete Create a 1 N protection group for the EC1 12 cards and the new DS3 EC1 48 card See the NTP A324 Create Protection Groups task on page 4 11 amp Note Make sure that the new protection group is 1 N and not 1 1 If you upgrading the A side of the shelf make sure the protect card is in Slot 3 and the working cards are Slots 1 and 2 If you are upgrading the B s
97. vel This task enables the OSI subnetwork point of attachment on the LAN interface None DLP A60 Log into CTC page 17 69 As needed Onsite or remote Provisioning or higher Note OSI subnetwork points of attachment are enabled on DCCs when you create DCCs See the DLP A377 Provision Section DCC Terminations task on page 20 69 and the DLP A378 Provision Line DCC Terminations task on page 20 71 Cisco ONS 15454 Procedure Guide R7 0 November 2007 l Chapter 22 DLPs A500 to A599 amp DLP A541 Enable the OSI Subnet on the LAN Interface W Note amp The OSI subnetwork point of attachment cannot be enabled for the LAN interface if the OSI routing mode is set to ES end system Note Step 1 Step 2 Step 3 Step 4 Step 5 If Secure Mode is on the OSI Subnet is enabled on the backplane LAN port not the front TCC2P port In node view click the Provisioning gt OSI gt Routers gt Subnet tabs Click Enable LAN Subnet In the Enable LAN Subnet dialog box complete the following fields ESH Sets the End System Hello ESH propagation frequency End system NEs transmit ESHs to inform other ESs and ISs about the NSAPs it serves The default is 10 seconds The range is 10 to 1000 seconds ISH Sets the Intermediate System Hello PDU propagation frequency Intermediate system NEs send ISHs to other ESs and ISs to inform them about the IS NETs it serves The default is 10 secon
98. vember 2007 l Chapter 22 DLPs A500 to A599 Step 3 Step 4 Step 5 Step 6 Step 7 Step 8 DLP A518 Create a New or Cloned Alarm Severity Profile W Figure 22 2 Node View Alarm Profile Editor File Edit View Tools Help Biel a Sits T l a selze el A a INNES PSY EO ANDES SUAE ps1 ps1 fosa ce Jocas MR tTeczjxew XCVT7 TCC2IUNKN OC4s MWe 012 ETH Booted 9 13 05 7 00 PM oon o L TNN GE 1400 User CISCOLS Act ejAct m Act mNP CyActegqNP Aci aAct a Sbycq SbyojDel Act m INP ojAct Del Authority Superuser E E SW Version 07 00 005I 12 01 E E a E Defaults Factory Defaults BE E PRI Alarms Conditions History Circuits Provisioning inventory Maintenance 4 General Alarm Behavior Alarm Profile Editor Ether Bridge Network ii Profile Suppress Alarms Conn Channels pst Inherited fram Node profile al BLSR 2 Dst Inherited from Node profile D Ene 3 ps3 Inherited from Node profile m SNMP 4 Saal O0T 8 Inherited from Node profile G Alarm Profiles 5 OC48 Inherited from Node profile Vv Protection 6 MXPP_MFR_2 lInherited from Node profile cr min i itec Inherited from Node profile Ia Cross Cannect me geen JO CVT Inherited from Node profile m Defaults __WOM ANS Node Profile Defaut Suppress Alarms To access the profile editor from
99. w Tools Help alal a sle S el gt lelHelzia _4 PET DWDM 1 slot 4 0C12_4 Ept 0C12_4 Status Present State IS oj P1 003 P2 003 P3 15 Unprotected P4 008 z Alarms Conditions History Circuits Provisioning Maintenance Curr 4 gt f Directions r Intervals Baseline Clear Help a NearEnd 15min Poth sTsfi z Refresh Auto refresh 15 Seconds C Far End C 1day 15 minute n ar end registers Port 1 STS 1 at 9 3 2003 14 39 4 z El Ed i 96974 Signal type Sub signal Refresh Auto refresh Baseline Clear Help port drop STS drop button drop down list button button button down list down list In the Port drop down list click the port you want to monitor Click Refresh View the PM parameter names that appear in the Param column The PM parameter values appear in the Curr current and Prev n previous columns For PM parameter definitions refer to the Performance Monitoring chapter in the Cisco ONS 15454 Reference Manual To monitor another port on a multiport card choose another port from the Port drop down list and click Refresh Return to your originating procedure NTP Cisco ONS 15454 Procedure Guide R7 0 P22 E November 2007 l Chapter 22 DLPs A500 to A599 DLP A509 Provision CE 1000 4 Ethernet Ports W DLP A509 Provision CE 1000 4 Ethernet Ports
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