C H A P T E R 18 DLPs F300 to F399 DLP-F300 Install Fiber-Optic Cables for SNCP Configurations Purpose This task installs the fiber-optic cables to the SNCP ports at each node. See Chapter 5, “Turn Up a Network.” to provision and test SNCP configurations.
Chapter 18 DLPs F300 to F399 DLP- F301 Edit SNCP Dual-Ring Interconnect Circuit Hold-Off Timer DLP-F301 Edit SNCP Dual-Ring Interconnect Circuit Hold-Off Timer Purpose This task changes the amount of time a path selector switch is delayed for circuits routed on an SNCP dual-ring interconnect (DRI) topology. Setting a switch hold-off time (HOT) prevents unnecessary back and forth switching when a circuit is routed through multiple SNCP selectors.
Chapter 18 DLPs F300 to F399 DLP- F303 Delete Overhead Circuits Step 1 From the View menu, choose Go to Network View. Step 2 Click the Provisioning > Overhead Circuits tabs. Step 3 Click the circuit tunnel that you want to convert. Step 4 Click Edit. Step 5 In the Edit Circuit window, click the Tunnel tab.
Chapter 18 DLPs F300 to F399 DLP- F304 Repair an IP Tunnel DLP-F304 Repair an IP Tunnel Purpose This task repairs circuits that are in the PARTIAL status as a result of node IP address changes. Tools/Equipment None Prerequisite Procedures See Chapter 6, “Create Circuits.” for circuit creation procedures. Required/As Needed As needed Onsite/Remote Onsite or remote Security Level Provisioning or higher Step 1 Obtain the original IP address of the node in question.
Chapter 18 DLPs F300 to F399 DLP- F305 Provision Path Trace on Circuit Source and Destination Ports Table 18-1 ONS 15600 SDH Cards for Path Trace J1 Function Cards Transmit and Receive ASAP (Gigabit Ethernet ports) Receive Only ASAP (Optical ports) OC48/STM16 LR/LH 16 Port 1550 OC48/STM16 SR/SH 16 Port 1310 OC192/STM64 LR/LH 4 Port 1550 OC192/STM64 SR/SH 4 Port 1310 OC192/STM64 4 Port ITU C-Band Step 4 Choose the VC circuit you want to trace, then click Edit.
Chapter 18 DLPs F300 to F399 DLP- F305 Provision Path Trace on Circuit Source and Destination Ports Figure 18-1 Step 7 Step 8 Selecting the Edit Path Trace Option b. In the New Expected String field, enter the circuit source transmit string. Enter a string that makes the source port easy to identify, such as the node IP address, node name, circuit name, or another string. If the New Expected String field is left blank, the J1 transmits a string of null characters. c. Click Apply, then click Close.
Chapter 18 DLPs F300 to F399 DLP- F305 Provision Path Trace on Circuit Source and Destination Ports • Auto—The first string received from the source port is automatically provisioned as the current expected string. An alarm is raised when a string that differs from the baseline is received. • Manual—The string entered in the Current Expected String field is the baseline. An alarm is raised when a string that differs from the Current Expected String is received. b.
Chapter 18 DLPs F300 to F399 DLP- F306 Provision Path Trace on STM-N Ports • Caution Click Default to return to the path trace default settings (Path Trace Mode is set to Off and the New Transmit and New Expected Strings are null). Clicking Default will generate alarms if the port on the other end is provisioned with a different string. The expect and receive strings are updated every few seconds if the Path Trace Mode field is set to Auto or Manual. Step 11 Click Close.
Chapter 18 DLPs F300 to F399 DLP- F307 Create Login Node Groups • Auto—Uses the first string received from the port at the other path trace end as the current expected string. An alarm is raised when a string that differs from the baseline is received. For STM-N ports, Auto is recommended because Manual mode requires you to trace the circuit on the Edit Circuit window to determine whether the port is the source or destination path. • Manual—Uses the Current Expected String field as the baseline string.
Chapter 18 DLPs F300 to F399 DLP- F308 Delete a Node from the Current Session or Login Group Figure 18-2 Login Node Group Laptop PC IP Address 192.168.106.100 LAN/WAN (Ethernet) Node 1 IP Address 192.168.106.143 Node 4 IP Address 192.168.105.119 Node 5 IP Address 192.168.104.109 Two node ring Node 2 Step 8 Single Node 3 Node 6 IP Address 192.168.103.199 83116 Three node ring Return to your originating procedure (NTP).
Chapter 18 DLPs F300 to F399 DLP- F309 Configure the CTC Alerts Dialog Box for Automatic Popup DLP-F309 Configure the CTC Alerts Dialog Box for Automatic Popup Purpose This task sets up the CTC Alerts dialog box to open for all alerts, for circuit deletion errors only, or never. The CTC Alerts dialog box displays information about network disconnection, Send-PDIP inconsistency, circuit deletion status, condition retrieval errors, and software download failure.
Chapter 18 DLPs F300 to F399 DLP- F311 Remove Pass-through Connections Step 4 Choose the JRE version. Step 5 Click OK. Step 6 From the File menu, choose Exit. Step 7 In the confirmation dialog box, click Yes. Step 8 Return to your originating procedure (NTP). DLP-F311 Remove Pass-through Connections Purpose This task removes pass-through connections from a node deleted from a ring.
Chapter 18 DLPs F300 to F399 DLP- F312 Delete a Node from a Specified Login Node Group DLP-F312 Delete a Node from a Specified Login Node Group Purpose This task removes a node from a login node group. Tools None Prerequisite Procedures DLP-F181 Log into CTC, page 16-34 Required/As Needed As needed Onsite/Remote Onsite or remote Security Level Provisioning or higher Step 1 From the CTC Edit menu, choose Preferences. Step 2 In the Preferences dialog box, click the Login Node Groups tab.
Chapter 18 DLPs F300 to F399 DLP- F314 Provision MS-DCC Terminations • Note Locked,maintenance—Puts the circuit cross-connects in the Locked-enabled,maintenance service state. The maintenance state does not interrupt traffic flow; it suppresses alarms and conditions and allows loopbacks to be performed on the circuit. Use Locked,maintenance for circuit testing or to suppress circuit alarms temporarily.
Chapter 18 DLPs F300 to F399 DLP- F314 Provision MS-DCC Terminations Note When MS-DCC is provisioned, an RS-DCC termination is allowed on the same port, but is not recommended. RS-DCC and MS-DCC are only needed on the same port during a software upgrade if the software version does not support MS-DCC. Changing configuration of a port having MS-DCC termination to RS-DCC termination is allowed. During this procedure both MS-DCC and RS-DCC terminations can be present on the same port.
Chapter 18 DLPs F300 to F399 DLP- F315 Provision a Proxy Tunnel – 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 seconds. The range is 10 to 1000 seconds. – IIH—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.
Chapter 18 DLPs F300 to F399 DLP- F316 Provision a Firewall Tunnel Step 4 Click OK. Step 5 Continue with your originating procedure (NTP). DLP-F316 Provision a Firewall Tunnel Purpose This task provisions destinations that will not be blocked by the firewall. Firewall tunnels are only necessary when the proxy server is enabled and a foreign DCC termination exists, or if static routes exist so that the DCC network is used to access remote networks or devices.
Chapter 18 DLPs F300 to F399 DLP- F317 Delete a Proxy Tunnel DLP-F317 Delete a Proxy Tunnel Purpose This task removes a proxy tunnel. Tools/Equipment None Prerequisite Procedures DLP-F181 Log into CTC, page 16-34 Required/As Needed As needed Onsite/Remote Onsite or remote Security Level Superuser only Step 1 Click the Provisioning > Network > Proxy subtabs. Step 2 Click the proxy tunnel that you want to delete. Step 3 Click Delete. Step 4 Return to your originating procedure (NTP).
Chapter 18 DLPs F300 to F399 DLP- F319 Change an RS-DCC Termination DLP-F319 Change an RS-DCC Termination Purpose This task modifies an RS-DCC termination. You can enable or disable Open Shortest Path First (OSPF) and enable or disable the foreign node setting. Tools/Equipment None Prerequisite Procedures DLP-F181 Log into CTC, page 16-34 Required/As Needed As needed Onsite/Remote Onsite or remote Security Level Provisioning or higher Step 1 Click the Provisioning > Comm Channels > RS-DCC tabs.
Chapter 18 DLPs F300 to F399 DLP- F321 Delete an RS-DCC Termination • Far End is Foreign—Check this box to specify that the MS-DCC termination is a non-ONS node. • Far end IP—If you checked the Far End is Foreign check box, type the IP address of the far-end node or leave the 0.0.0.0 default. An IP address of 0.0.0.0 means that any address can be used by the far end. Step 5 Click OK. Step 6 Return to your originating procedure (NTP).
Chapter 18 DLPs F300 to F399 DLP- F323 Use the Reinitialization Tool to Clear the Database and Upload Software (UNIX) Caution Deleting a DCC termination can cause you to lose visibility of nodes that do not have other DCCs or network connections to the CTC computer. Step 1 Click the Provisioning > Comm Channel > MS-DCC tabs. Step 2 Click the MS-DCC termination to be deleted and click Delete. The Delete MS-DCC Termination dialog box appears. Step 3 Click Yes in the confirmation dialog box.
Chapter 18 DLPs F300 to F399 DLP- F324 Provision ASAP Ethernet Ports Step 5 Caution Step 6 • Password—Enter the password for the user ID. • Upload Package—Check this box to send the software package file to the node. If unchecked, the software stored on the node is not modified. • Force Upload—Check this box to send the software package file to the node even if the node is running the same software version.
Chapter 18 DLPs F300 to F399 DLP- F325 Provision ASAP POS Ports Step 3 For each port, provision the following parameters: • Port Name—If you want to label the port, type the port name. • Admin State—Choose Unlocked to put the port in service. • Enable Flow Control—Check this check box to enable flow control on the port (default). If you do not want to enable flow control, uncheck the box. The ASAP attempts to negotiate symmetrical flow control with the attached device. Step 4 Click Apply.
Chapter 18 DLPs F300 to F399 DLP- F326 View ASAP STM-N PM Parameters Note An Encapsulation Mismatch Path (ENCAP-MISMATCH-P) alarm appears when a point-to-point circuit is created between two Ethernet card ports with incompatible encapsulation payload types. Step 4 Click Apply. Step 5 Refresh the POS statistics: Step 6 a. Click the Performance > Ethernet > POS Ports > Statistics tabs. b. Click Refresh. Return to your originating procedure (NTP).
Chapter 18 DLPs F300 to F399 DLP- F327 View ASAP Ether Ports Statistics PM Parameters Figure 18-3 Viewing ASAP Card Performance Monitoring Information Card View Performance tab Optical tab 159525 Directions radio button Intervals radio button Port drop-down list Refresh button Autorefresh menu Baseline Clear Help button button button Step 3 In the Port drop-down list, choose the port that you want to monitor. Step 4 Click Refresh.
Chapter 18 DLPs F300 to F399 DLP- F327 View ASAP Ether Ports Statistics PM Parameters Step 1 In node view, double-click the card where you want to view PM counts. The card view appears. Step 2 Click the Performance > Ethernet > Ether Ports > Statistics tabs (Figure 18-4).
Chapter 18 DLPs F300 to F399 DLP- F328 View ASAP Ether Ports Utilization PM Parameters DLP-F328 View ASAP Ether Ports Utilization PM Parameters Purpose This task enables you to view line utilization PM counts on an ASAP card and port to detect possible performance problems.
Chapter 18 DLPs F300 to F399 DLP- F329 View ASAP POS Ports Statistics PM Parameters Step 6 Return to your originating procedure (NTP). DLP-F329 View ASAP POS Ports Statistics PM Parameters Purpose This task enables you to view POS port PM counts at selected time intervals on an ASAP card and port to detect possible performance problems.
Chapter 18 DLPs F300 to F399 DLP- F330 View ASAP POS Ports Utilization PM Parameters Note Step 5 To refresh, reset, or clear PM counts, see the “NTP-F184 Change the PM Display” procedure on page 8-2. Return to your originating procedure (NTP). DLP-F330 View ASAP POS Ports Utilization PM Parameters Purpose This task enables you to view POS port utilization PM counts on an ASAP card and ports to detect possible performance problems.
Chapter 18 DLPs F300 to F399 DLP- F331 View ASAP POS Ports History PM Parameters Step 4 View the Port # column for the port that you want to monitor. Step 5 The Tx and Rx bandwidth utilization values for the previous time intervals appear in the Prev-n columns. For PM parameter definitions, refer to the “Performance Monitoring” chapter in the Cisco ONS 15600 SDH Reference Manual. Note Step 6 To refresh, reset, or clear PM counts, see the “NTP-F184 Change the PM Display” procedure on page 8-2.
Chapter 18 DLPs F300 to F399 DLP- F332 Change Node Access and PM Clearing Privilege Figure 18-8 Ethernet POS Ports History in the Card View Performance Window Card View Performance tab POS tab 159564 History tab Interval menu Port menu Refresh Help button button Step 3 Click Refresh. Performance monitoring statistics appear for each port on the card. Step 4 View the PM parameter names that appear in the Param column. The PM parameter values appear in the Prev-n columns.
Chapter 18 DLPs F300 to F399 DLP- F332 Change Node Access and PM Clearing Privilege Step 1 In node view, click the Provisioning > Security > Access tabs. Step 2 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 TSC RJ-45 port and backplane is not permitted.
Chapter 18 DLPs F300 to F399 DLP- F333 Install the ASAP Carrier Modules Step 10 Return to your originating procedure (NTP). DLP-F333 Install the ASAP Carrier Modules Purpose This procedure explains how to install the carrier modules in the ONS 15600 SDH shelf.
Chapter 18 DLPs F300 to F399 DLP- F334 Verify Pass-Through Circuits Step 4 Verify the LED activity on the card faceplate: 1. The STAT, SRV, and LASER ON LEDs turn on for 20 seconds. 2. The STAT LED blinks and the other LEDs turn on for 30 to 50 seconds. 3. All LEDs blink once and the SRV and LASER ON LEDs illuminate. Note If the LEDs do not turn on, check that the power breakers on the power distribution unit (PDU) are on. Refer to the Cisco ONS 15600 SDH Troubleshooting Guide.
Chapter 18 DLPs F300 to F399 DLP- F335 Preprovision an SFP DLP-F335 Preprovision an SFP Purpose This procedure preprovisions Small Form-factor Pluggables (SFPs), which are referred to as pluggable port modules (PPMs) in CTC. Cisco-approved STM-1, STM-4, STM-16, Ethernet, and multirate PPMs are compatible with the ONS 15600 SDH. See the Cisco ONS 15600 SDH Reference Manual for a list of acceptable SFPs.
Chapter 18 DLPs F300 to F399 DLP- F336 Print CTC Data Only the parameters that are editable for the PPMs on a particular platform type are provisionable. For example, some platforms may not have PPMs with configurable wavelengths or reaches. In this case, wavelength and reach are not provisionable. Note Step 10 Repeat Steps 1 to 10 create a second PPM. Step 11 Click OK. Step 12 When you are ready to install the SFP, complete the “DLP-F387 Install an SFP/XFP” task on page 18-100.
Chapter 18 DLPs F300 to F399 DLP- F337 View ASAP Ether Ports History PM Parameters • Maintenance > Protection window • Maintenance > Diagnostic window • Maintenance > Preferred Copy window • Maintenance > Timing > 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.
Chapter 18 DLPs F300 to F399 DLP- F338 Create a Two-Fiber MS-SPRing Using the MS-SPRing Wizard Figure 18-10 Ethernet Ether Ports History on the Card View Performance Window unlocked-disabled, auto Card View Performance tab 159561 Ethernet tab History tab Interval menu Port menu Refresh Help button button Step 3 Click Refresh. Performance monitoring statistics for each port on the card appear. Step 4 View the PM parameter names that appear in the Param column.
Chapter 18 DLPs F300 to F399 DLP- F338 Create a Two-Fiber MS-SPRing Using the MS-SPRing Wizard Onsite/Remote Onsite or remote Security Level Provisioning or higher Step 1 From the View menu, choose Go to Network View. Step 2 Click the Provisioning > MS-SPRing tabs. Step 3 Click Create MS-SPRing. Step 4 In the MS-SPRing Creation dialog box, set the MS-SPRing properties: Step 5 • Ring Type—Choose two-fiber. • Speed—Choose the MS-SPRing ring speed: STM-4, STM-16, or STM-64.
Chapter 18 DLPs F300 to F399 DLP- F339 Create a Two-Fiber MS-SPRing Manually • On the network view graphic, a green span line appears between all MS-SPRing nodes. • All E-W-MISMATCH, RING-MISMATCH, APSCIMP, APSCDFLTK, and MSSP-OOSYNC alarms are cleared. See the Cisco ONS 15600 SDH Troubleshooting Guide for alarm troubleshooting procedures. Note Step 9 The numbers in parentheses after the node name are the MS-SPRing node IDs assigned by CTC.
Chapter 18 DLPs F300 to F399 DLP- F340 Change an MS-SPRing Node ID • Step 5 East Line—Assign the east MS-SPRing port for the node from the drop-down list. Click OK. Note Some or all of the following alarms will appear until all the MS-SPRing nodes are provisioned: E-W MISMATCH, RING MISMATCH, APSCIMP, APSDFLTK, and MSSP-OOSYNC. The alarms will clear after you configure all the nodes in the MS-SPRing. Step 6 From the View menu, choose Go to Other Node.
Chapter 18 DLPs F300 to F399 DLP- F341 MS-SPRing Exercise Ring Test DLP-F341 MS-SPRing Exercise Ring Test Purpose This task tests the MS-SPRing ring functionality without switching traffic. Ring exercise conditions (including the K-byte pass-through) are reported and cleared within 10 to 15 seconds.
Chapter 18 DLPs F300 to F399 DLP- F342 MS-SPRing Switch Test If you do not see any MS-SPRing exercise conditions, click the Filter button and verify that filtering is not turned on. Also, check that alarms and conditions are not suppressed for a node or MS-SPRing drop cards. See the “NTP-F195 Suppress and Restore Alarm Reporting” procedure on page 9-7 for more information. Step 7 Click the Alarms tab. a. Verify that the alarm filter is not on.
Chapter 18 DLPs F300 to F399 DLP- F342 MS-SPRing Switch Test Step 5 Verify the conditions: a. Click the Conditions tab. b. Click Retrieve. c. Verify that the following conditions are reported on the node where you invoked the Force Ring switch on the west port: • FORCE-REQ-RING—A Force Switch Request On Ring condition is reported against the span’s working slot on the west side of the node.
Chapter 18 DLPs F300 to F399 DLP- F342 MS-SPRing Switch Test Step 11 Clear the switch on the west port: a. Right-click the west port of the MS-SPRing node where you invoked the Force Ring switch and choose Set West Protection Operation. b. In the Set West Protection Operation dialog box, choose CLEAR from the drop-down list. c. Click OK. d. Click Yes in the Confirm MS-SPRing Operation dialog box.
Chapter 18 DLPs F300 to F399 DLP- F342 MS-SPRing Switch Test • RING-SW-EAST—A Ring Switch Active on the east side condition is reported against the working span on the west side of the node. Step 16 (Optional) If you remapped the K3 byte to run an ONS 15600 SDH MS-SPRing through third-party equipment, verify a FULLPASSTHR-BI condition reported on other nodes that are not connected to the west side of the node where you invoked the Force Ring switch.
Chapter 18 DLPs F300 to F399 DLP- F343 Provision an STM-N Circuit Route DLP-F343 Provision an STM-N Circuit Route Purpose This task provisions the circuit route for manually routed STM-N circuits. Tools/Equipment None Prerequisite Procedures DLP-F181 Log into CTC, page 16-34 The Circuit Creation Wizard must be open.
Chapter 18 DLPs F300 to F399 DLP- F345 Clear an MS-SPRing Manual Ring Switch Caution Onsite/Remote Onsite Security Level Provisioning or higher Traffic is not protected during a manual ring protection switch. Step 1 From the View menu, choose Go To Network View. Step 2 Click the Provisioning > MS-SPRing tabs. Step 3 Choose the MS-SPRing and click Edit.
Chapter 18 DLPs F300 to F399 DLP- F346 Create an MS-SPRing on a Single Node Tip To move an icon to a new location, for example, to see MS-SPRing channel (port) information more clearly, click an icon on the Edit MS-SPRing network graphic and while pressing Ctrl, drag the icon to a new location. Step 4 Right-click the MS-SPRing node channel (port) where the manual ring switch was applied and choose Set West Protection Operation or Set East Protection Operation, as applicable.
Chapter 18 DLPs F300 to F399 DLP- F347 Initiate an MS-SPRing Force Ring Switch Note Step 5 The MS-SPRing is incomplete and alarms are present until the node is connected to other MS-SPRing nodes. Return to your originating procedure (NTP). DLP-F347 Initiate an MS-SPRing Force Ring Switch Purpose Use this task to perform an MS-SPRing Force switch on an MS-SPRing port.
Chapter 18 DLPs F300 to F399 DLP- F348 View Circuit Information On the network graphic, an F appears on the working MS-SPRing channel where you invoked the protection switch. The span lines change color to reflect the forced traffic. Green span lines indicate the new MS-SPRing path, and the lines between the protection switch are purple. Performing a Force switch generates several conditions including FORCED-REQ-RING and WKSWPR. Step 5 To apply a Force switch to the east line: a.
Chapter 18 DLPs F300 to F399 DLP- F348 View Circuit Information Note Step 2 In node or card view, you can change the scope of the circuits that are displayed by choosing Card (in card view), Node, or Network from the Scope drop-down list in the bottom right corner of the Circuits window. Click the Circuits tab. The Circuits tab has the following information: • Name—Name of the circuit. The circuit name can be manually assigned or automatically generated.
Chapter 18 DLPs F300 to F399 DLP- F348 View Circuit Information Table 18-3 ONS 15600 SDH Circuit Status Status Definition/Activity CREATING CTC is creating a circuit. DISCOVERED CTC created a circuit. All components are in place and a complete path exists from circuit source to destination. DELETING CTC is deleting a circuit.
Chapter 18 DLPs F300 to F399 DLP- F349 Install Fiber-Optic Cables for MS-SPRing Configurations Table 18-3 ONS 15600 SDH Circuit Status (continued) Status Definition/Activity PENDING_MERGE Any new circuits created to represent an alternate path in a topology upgrade are set to this status to indicate that it is a temporary circuit. These circuits can be deleted if a topology upgrade fails. For more information about topology upgrades, refer to the Cisco ONS 15600 SDH Reference Manual.
Chapter 18 DLPs F300 to F399 DLP- F349 Install Fiber-Optic Cables for MS-SPRing Configurations Caution Do not provision the MS-SPRing east and west ports on the same STM-N card. Note To avoid error, connect fiber-optic cable so that the farthest slot to the right represents the east port, and the farthest slot to the left represents the west port. Fiber connected to an east port at one node must plug into the west port on an adjacent node.
Chapter 18 DLPs F300 to F399 DLP- F350 Delete an MS-SPRing from a Single Node Step 4 Return to your originating procedure (NTP). DLP-F350 Delete an MS-SPRing from a Single Node Purpose This task deletes an MS-SPRing from a node after you remove the node from the MS-SPRing.
Chapter 18 DLPs F300 to F399 DLP- F351 Roll the Source or Destination of One Optical Circuit Step 4 From the Tools menu, choose Circuits > Roll Circuit. Step 5 In the Roll Attributes area, complete the following (Figure 18-12): a. From the Circuit Roll Mode drop-down list, choose Auto to create an automatic roll (required for a 1-way source roll) or Manual to create a manual roll (required for a 1-way destination roll). b.
Chapter 18 DLPs F300 to F399 DLP- F351 Roll the Source or Destination of One Optical Circuit Figure 18-13 Selecting a Path Step 8 Click Next. Step 9 In the Select New End Point area, choose the Slot, Port, and VC3 or VC4 from the drop-down lists to select the Roll To facility (Figure 18-14). Figure 18-14 Step 10 Selecting a New Endpoint Click Finish. On the Circuits tab, the circuit status for the Roll From port changes from DISCOVERED to ROLL_PENDING. Cisco ONS 15600 SDH Procedure Guide, R8.
Chapter 18 DLPs F300 to F399 DLP- F351 Roll the Source or Destination of One Optical Circuit Step 11 Click the Rolls tab (Figure 18-15). For the pending roll, view the Roll Valid Signal status. When one of the following conditions are met, continue with Step 12. • If the Roll Valid Signal status is true, a valid signal was found on the new port. • If the Roll Valid Signal status is false, a valid signal was not found. Wait until the signal is found before continuing with the next step.
Chapter 18 DLPs F300 to F399 DLP- F352 Roll One Cross-Connect from an Optical Circuit to a Second Optical Circuit DLP-F352 Roll One Cross-Connect from an Optical Circuit to a Second Optical Circuit Purpose This task reroutes a cross-connect on one circuit onto another circuit resulting in a new destination.
Chapter 18 DLPs F300 to F399 DLP- F352 Roll One Cross-Connect from an Optical Circuit to a Second Optical Circuit Figure 18-16 Selecting Roll Attributes for a Single Roll onto a Second Circuit Step 6 Click Next. Step 7 In the Pivot/Fixed Point 1 window, click the square representing the facility that you want to keep (Figure 18-13 on page 18-58). This facility is the fixed location in the cross-connect involved in the roll process. The identifier appears in the text box below the graphic image.
Chapter 18 DLPs F300 to F399 DLP- F353 Roll Two Cross-Connects on One Optical Circuit Using Automatic Routing Step 12 If you selected Manual in Step 5, click the roll on the Rolls tab and click Complete to route the traffic to the new port. If you selected Auto, continue with Step 13. Step 13 For both manual and automatic rolls, click Finish to complete the circuit roll process. The roll is cleared from the Rolls tab and the new rolled circuit on Circuits tab returns to the DISCOVERED status.
Chapter 18 DLPs F300 to F399 DLP- F353 Roll Two Cross-Connects on One Optical Circuit Using Automatic Routing Figure 18-17 Selecting Dual Roll Attributes Step 6 Click Next. Step 7 In the Pivot/Fixed Point 1 window, click the square representing the fixed path of the first connection to be rolled (Figure 18-13 on page 18-58). This path is a fixed point in the cross connection involved in the roll process. The path identifier appears in the text box below the graphic image.
Chapter 18 DLPs F300 to F399 DLP- F353 Roll Two Cross-Connects on One Optical Circuit Using Automatic Routing Figure 18-18 Step 13 Step 14 Step 15 Setting Roll Routing Preferences To route the circuit over a protected path, check Fully Protected Path. (If you do not want to route the circuit on a protected path, continue with Step 14.) CTC creates a primary and alternate circuit route (virtual SNCP) based on the following nodal diversity options.
Chapter 18 DLPs F300 to F399 DLP- F353 Roll Two Cross-Connects on One Optical Circuit Using Automatic Routing Step 16 Step 17 If you checked Review Route Before Creation in Step 12: a. In the Roll Route Review and Edit area, review the circuit route. To add or delete a circuit span, select a node on the circuit route. Blue arrows show the circuit route. Green arrows indicate spans that you can add. Click a span arrowhead, then click Include to include the span or Remove to remove the span. b.
Chapter 18 DLPs F300 to F399 DLP- F354 Roll Two Cross-Connects on One Optical Circuit Using Manual Routing DLP-F354 Roll Two Cross-Connects on One Optical Circuit Using Manual Routing Purpose This task reroutes a network path of an optical circuit using manual routing.
Chapter 18 DLPs F300 to F399 DLP- F354 Roll Two Cross-Connects on One Optical Circuit Using Manual Routing Step 14 Step 15 • To route the circuit on a protected path, leave Fully Protected Path checked and continue with Step 14. • To create an unprotected circuit, uncheck Fully Protected Path and continue with Step 15.
Chapter 18 DLPs F300 to F399 DLP- F355 Roll Two Cross-Connects from One Optical Circuit to a Second Optical Circuit DLP-F355 Roll Two Cross-Connects from One Optical Circuit to a Second Optical Circuit Purpose This task reroutes a network path using two optical circuits by allowing CTC to select the Roll To path on the second circuit automatically.
Chapter 18 DLPs F300 to F399 DLP- F356 Delete a Roll Step 11 Click Next. Step 12 Click Finish. In the Circuits tab, the Roll From and Roll To circuits change from the DISCOVERED status to ROLL RENDING. Step 13 Click the Rolls tab. Two new rolls now appear on the Rolls tab. For each pending roll, view the Roll Valid Signal status. When one of the following conditions are met, continue with Step 14. • If the Roll Valid Signal status is true, a valid signal was found on the new port.
Chapter 18 DLPs F300 to F399 DLP- F357 Cancel a Roll Step 3 Click the rolled circuit that you want to delete. Step 4 From the Tools menu, choose Circuits > Delete Rolls. Step 5 In the confirmation dialog box, click Yes. Step 6 Return to your originating procedure (NTP). DLP-F357 Cancel a Roll Purpose This task cancels a roll. When the roll mode is Manual, you can only cancel a roll before you click the Complete button.
Chapter 18 DLPs F300 to F399 DLP- F359 Change the Optical Line Rate Note The ASAP card hosts up to four 4PIO modules. Each 4PIO hosts four SFPs, which provide a fiber interface that must be provisioned as STM-1, STM-4, STM-16, or Gigabit Ethernet. SFPs are called pluggable port modules (PPMs) in CTC. Step 1 In node view, double-click the ASAP card where you want to provision PPM settings. Step 2 Click the Provisioning > Pluggable Port Modules tabs.
Chapter 18 DLPs F300 to F399 DLP- F360 Delete a PPM Step 6 Click Yes in the Confirm Port Rate Change dialog box. Step 7 Return to your originating procedure (NTP). DLP-F360 Delete a PPM Purpose This task deletes PPM provisioning for SFPs/XFPs on the ASAP card. Tools/Equipment None Prerequisite Procedures DLP-F181 Log into CTC, page 16-34 Step 1 Required/As Needed As needed Onsite/Remote Onsite or remote Security Level Provisioning or higher Determine if you can delete the PPM.
Chapter 18 DLPs F300 to F399 DLP- F361 Provision OSI Routing Mode Step 7 Return to your originating procedure (NTP). DLP-F361 Provision OSI Routing Mode Purpose This task provisions the Open System Interconnection (OSI) routing mode. Complete this task when the ONS 15600 SDH is connected to networks with third party network elements (NEs) that use the OSI protocol stack for data communications network (DCN) communication.
Chapter 18 DLPs F300 to F399 DLP- F362 Provision or Modify TARP Operating Parameters • Intermediate System Level 1/Level 2—The ONS 15600 SDH 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.
Chapter 18 DLPs F300 to F399 DLP- F362 Provision or Modify TARP Operating Parameters • TARP PDUs Origination—If checked (default), the node performs all TARP origination functions including: – TID to 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) Note • TARP Data Cache—If checked (default), the node maintains a TARP data cache (TDC).
Chapter 18 DLPs F300 to F399 DLP- F363 Add a Static TID-to-NSAP Entry to the TARP Data Cache • LDB Flush—Sets the frequency period for flushing the LDB. The default is 5 minutes. The range is 0 to 1440 minutes. • 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. • T2—Sets the amount of time to wait for a response to a Type 2 PDU.
Chapter 18 DLPs F300 to F399 DLP- F364 Remove a Static TID-to-NSAP Entry from the TARP Data Cache DLP-F364 Remove a Static TID-to-NSAP Entry from the TARP Data Cache Purpose This task removes a static TID-to-NSAP entry from the TDC. Tools/Equipment None Prerequisite procedures DLP-F181 Log into CTC, page 16-34 Required/As needed As needed Onsite/Remote Onsite or remote Security Level Provisioner or higher Step 1 In node view, click the Provisioning > OSI > TARP > Static TDC tabs.
Chapter 18 DLPs F300 to F399 DLP- F366 Provision OSI Routers Step 5 Return to your originating procedure (NTP). DLP-F366 Provision OSI Routers Purpose This task enables an OSI router and edits its primary manual area address.
Chapter 18 DLPs F300 to F399 DLP- F367 Provision Additional Manual Area Addresses DLP-F367 Provision Additional Manual Area Addresses Purpose This task provisions the OSI manual area addresses. One primary and two additional manual areas can be created for each virtual router.
Chapter 18 DLPs F300 to F399 DLP- F369 Create an IP-Over-CLNS Tunnel Step 1 Complete the “DLP-F181 Log into CTC” task on page 16-34 at the node whose OSI routers you want to provision. Step 2 Click the Provisioning > OSI > Routers > Subnet tabs. Step 3 Click Enable LAN Subnet. Step 4 In the Enable LAN Subnet dialog box, complete the following fields: • ESH—Sets the End System Hello (ESH) propagation frequency on ONS nodes that can be provisioned as end system NEs.
Chapter 18 DLPs F300 to F399 DLP- F370 Remove a TARP Manual Adjacency Table Entry Step 3 Click Create. Step 4 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.
Chapter 18 DLPs F300 to F399 DLP- F371 Change the OSI Routing Mode Step 2 Click the MAT entry that you want to delete. Step 3 Click Remove. Step 4 In the Delete TDC Entry dialog box, click OK. Step 5 Return to your originating procedure (NTP). DLP-F371 Change the OSI Routing Mode Purpose This task changes the OSI routing mode.
Chapter 18 DLPs F300 to F399 DLP- F372 Edit the OSI Router Configuration Note Step 4 Step 5 Changing a routing mode should be carefully considered. Additional information about OSI systems and protocols are provided in the “Management Network Connectivity” chapter of the Cisco ONS 15600 SDH Reference Manual.
Chapter 18 DLPs F300 to F399 DLP- F373 Edit the OSI Subnetwork Point of Attachment DLP-F373 Edit the OSI Subnetwork Point of Attachment Purpose This task allows you to view and edit the OSI subnetwork point of attachment parameters. The parameters are initially provisioned when you create a regenerator section DCC (RS-DCC) or multiplex section DCC (MS-DCC), or when you enable the LAN subnet.
Chapter 18 DLPs F300 to F399 DLP- F375 Delete an IP-Over-CLNS Tunnel 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 Click the Provisioning > OSI > Tunnels tabs. Step 2 Click Edit.
Chapter 18 DLPs F300 to F399 DLP- F376 View IS-IS Routing Information Base Caution Deleting an IP-over-CLNS tunnel might cause the nodes to lose 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 Click the Provisioning > OSI > Tunnels tabs. Step 2 Choose the IP-over-CLNS tunnel that you want to delete. Step 3 Click Delete. Step 4 Click OK.
Chapter 18 DLPs F300 to F399 DLP- F377 View ES-IS Routing Information Base DLP-F377 View ES-IS Routing Information Base Purpose This task allows you to view the End System to Intermediate System (ES-IS) protocol 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 IS used to access the OSI network.
Chapter 18 DLPs F300 to F399 DLP- F379 Export CTC Data • NSAP/NET—The Network Service Access Point or Network Element Title of the originating NE. • Type—Indicates how the TDC entry was created: – Dynamic—The entry was created through the TARP propagation process. – Static—The entry was manually created and is a static entry. Step 3 If you want to query the network for an NSAP that matches a TID, complete the following steps. Otherwise, continue with Step 4.
Chapter 18 DLPs F300 to F399 DLP- F379 Export CTC Data Step 3 From the CTC File menu, click Export. Step 4 In the Export dialog box choose a format for the data (Figure 18-19): • As HTML—Saves the data as an HTML file. The file can be viewed with a web browser without running CTC. • As CSV—Saves the CTC table values as text, separated by commas. You can import CSV data into spreadsheets and database management programs. • As TSV—Saves the CTC table values as text, separated by tabs.
Chapter 18 DLPs F300 to F399 DLP- F380 Configure the Node for RADIUS Authentication • Maintenance > Database window • Maintenance > Protection window • Maintenance > Diagnostic window • Maintenance > Preferred Copy window • Maintenance > Timing > Source window Step 7 Click OK. Step 8 In the Save dialog box, enter a file name in one of the following formats: • filename.htm for HTML files • filename.csv for CSV files • filename.
Chapter 18 DLPs F300 to F399 DLP- F380 Configure the Node for RADIUS Authentication 1 for Maintenance User 2 for Provisioning User 3 for Super User Step 1 In node view, click the Provisioning > Security > RADIUS Server tabs (Figure 18-20). Figure 18-20 Step 2 Click Create to add a RADIUS server to the list of authenticators. The Create RADIUS Server Entry window appears (Figure 18-21).
Chapter 18 DLPs F300 to F399 DLP- F381 Delete a Server Trail Step 4 Enter the shared secret in the Shared Secret field. A shared secret is a text string that serves as a password between a RADIUS client and RADIUS server. Step 5 Enter the RADIUS authentication port number in the Authentication Port field. The default port is 1812. If the node is an ENE, set the authentication port to a number within the range of 1860 to 1869. Step 6 Enter the RADIUS accounting port in the Accounting Port field.
Chapter 18 DLPs F300 to F399 DLP- F382 Grant Superuser Privileges to a Provisioning User Step 6 Return to your originating procedure (NTP). DLP-F382 Grant Superuser Privileges to a Provisioning User Purpose This task enables a provisioning-level user to perform tasks such as retrieving audit logs, restoring databases, and activating and reverting software loads.
Chapter 18 DLPs F300 to F399 DLP- F383 Download an Alarm Severity Profile Step 1 To access the alarm profile editor from network view, click the Provisioning > Alarm Profiles tabs Step 2 To access the profile editor from node view, click the Provisioning > Alarm Profiles > Alarm Profile Editor tabs. Step 3 To access the profile editor from a card view, click the Provisioning > Alarm Profiles > Alarm Profile Editor tabs. Step 4 Click Load.
Chapter 18 DLPs F300 to F399 DLP- F384 Install the ASAP 1PIO and 4PIO (PIM) Modules DLP-F384 Install the ASAP 1PIO and 4PIO (PIM) Modules Purpose This procedure explains how to install the 4-port I/O modules (4PIOs) and 1-port I/O modules (1PIOs), also known as Pluggable Interface Modules (PIMs), in the carrier modules of the ASAP card.
Chapter 18 DLPs F300 to F399 DLP- F384 Install the ASAP 1PIO and 4PIO (PIM) Modules Figure 18-22 1PIO Module Faceplate ASAP 1P IO 151941 Hand tighten, or remove the label to tighten using a Phillips screwdriver Figure 18-23 shows the 4PIO module faceplate.
Chapter 18 DLPs F300 to F399 DLP- F385 Consolidate Links in Network View Step 5 After you have logged into CTC, verify that the card appears in the card view. See Chapter 3, “Connect the PC and Log into the GUI” for CTC information and setup instructions. Step 6 Return to your originating procedure (NTP). DLP-F385 Consolidate Links in Network View Purpose This task consolidates the data communications channel (DCC), GSS, OTS, and server trail links in the CTC network view.
Chapter 18 DLPs F300 to F399 DLP- F385 Consolidate Links in Network View Note The links consolidate by class. For example, if you select a DCC link for consolidation only the DCC links will consolidate, leaving any other link classes expanded. Figure 18-24 shows a network view with unconsolidated DCC and PPC links. Figure 18-24 Unconsolidated Links in Network View Figure 18-25 shows a network view with globally consolidated links.
Chapter 18 DLPs F300 to F399 DLP- F385 Consolidate Links in Network View Figure 18-26 Network View with Local Link Consolidation Step 6 To view information about the consolidated link, move the mouse over the link (the tooltip displays the number of links and the link class), or click the link to display detailed information on the left side of the window. Step 7 To access an individual link within a consolidated link (for example, if you need to perform a span upgrade): a.
Chapter 18 DLPs F300 to F399 DLP- F386 Adjust the Java Virtual Memory Heap Size DLP-F386 Adjust the Java Virtual Memory Heap Size Purpose This task allows you to adjust the Java Virtual Memory (JVM) heap size from the default 256 MB to the maximum of 512 MB in order to improve CTC performance.
Chapter 18 DLPs F300 to F399 DLP- F388 Remove an SFP/XFP Step 2 If you are installing an SFP, orient the SFP so that the Cisco serial number label is facing away from the shelf (to the right). If you are installing an XFP, orient the XFP to the left. Step 3 Unlatch the bail clasp before inserting it into the slot. Step 4 Slide the SFP or XFP into the slot on the 1PIO or 4PIO (as appropriate) and move the bail clasp to secure the SFP or XFP.
Chapter 18 DLPs F300 to F399 DLP- F389 Remove a 1PIO or 4PIO (PIM) Module DLP-F389 Remove a 1PIO or 4PIO (PIM) Module Purpose This procedure explains how to remove the 1PIO or 4PIO (PIM) in the carrier modules of the ASAP card.
Chapter 18 DLPs F300 to F399 DLP- F390 Provision an Optical Line Rate and Wavelength DLP-F390 Provision an Optical Line Rate and Wavelength Purpose This task provisions the line rate and wavelength of a multirate PPM. Single-rate SFPs and XFPs do not need line rate provisioning.
Chapter 18 DLPs F300 to F399 DLP- F391 Install Alarm Wires on the CAP/CAP2 Step 12 Return to your originating procedure (NTP). DLP-F391 Install Alarm Wires on the CAP/CAP2 Purpose This task installs the alarm wires on the customer access panel (CAP/CAP2).
Chapter 18 DLPs F300 to F399 DLP- F391 Install Alarm Wires on the CAP/CAP2 Rear of the ONS 15600 SDH, Including the CAP/CAP2 78398 Figure 18-27 Figure 18-28 shows the CAP/CAP2 faceplate in detail. Cisco ONS 15600 SDH Procedure Guide, R8.
Chapter 18 DLPs F300 to F399 DLP- F391 Install Alarm Wires on the CAP/CAP2 Figure 18-28 CAP/CAP2 Faceplate and Connections Serial Number Label Part Number Label Bar Code and Country of Origin Labels LAN RJ-45 Craft DB-9 BITS IN BNC Wire wrap pins BITS OUT BNC BITS OUT BNC LAN RJ-45 BITS IN BNC Backplane connectors Audible Alarm DB-15 Craft DB-9 78485 Visual Alarm DB-15 Figure 18-29 shows alarm pin assignments. Cisco ONS 15600 SDH Procedure Guide, R8.
Chapter 18 DLPs F300 to F399 DLP- F392 Change Line Transmission Settings for STM-N Cards Figure 18-29 Alarm Pin Assignments on the CAP/CAP2 EXTERNAL 16 15 14 13 12 11 ALARMS 10 9 8 7 6 5 4 3 2 1 BITS - A 5 BITS - B Normally closed Common Normally open 5 4 4 3 3 2 2 1 1 10 9 8 7 6 4 3 2 1 GROUND 78510 FRAME 5 Alarm IN 48 VDC provided short contacts Short for alarm, -48 VDC provided See Chapter 9, “Manage Alarms” for instructions about assigning alarms to these pins.
Chapter 18 DLPs F300 to F399 DLP- F392 Change Line Transmission Settings for STM-N Cards Step 1 On the shelf graphic, double-click the STM-N card that you want to provision. The card view appears. Step 2 For STM-16 or STM-64 cards, click the Provisioning > Line tabs. For the ASAP card, click the Provisioning > Optical > Line tabs. Step 3 As needed, provision the options in Table 18-6 for each STM-N port. (Some options might not be available on every card.
Chapter 18 DLPs F300 to F399 DLP- F392 Change Line Transmission Settings for STM-N Cards Table 18-6 STM-N Card Line Settings (continued) Heading Description Admin State Sets the port service state unless network conditions prevent the change. Options • Unlocked—Puts the port in service. The port service state changes to Unlocked-enabled. • Unlocked,automaticInService—Puts the port in automatic in-service. The port service state changes to Unlocked-disabled,automaticInService.
Chapter 18 DLPs F300 to F399 DLP- F392 Change Line Transmission Settings for STM-N Cards Table 18-6 STM-N Card Line Settings (continued) Heading Description Service State 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. SyncStatusMsg Allows you to view the incoming synchronization status message by clicking Show. Reach (ASAP card only) Provisions the reach value.
Chapter 18 DLPs F300 to F399 DLP- F393 Change Threshold Settings for STM-N Ports Table 18-6 STM-N Card Line Settings (continued) Heading Description Options Band (STM-64-4-DWDM card only) Sets C the ITU band (in this case, C-band) for this card. Wavelength (ASAP and STM-64-4-DWDM card only) Sets the wavelength frequency (nm).
Chapter 18 DLPs F300 to F399 DLP- F393 Change Threshold Settings for STM-N Ports Step 1 On the shelf graphic, double-click the STM-16, STM-64, or ASAP card that you want to provision. The card view appears. Step 2 As needed, complete the following: a. Click Line, Section, Path, or Physical to provision the line, section, path, and physical options in Table 18-7 for each STM-N port. b. Change the selection to Near End/Far End, 15 Min/1Day as necessary. c.
Chapter 18 DLPs F300 to F399 DLP- F394 Change Optics Threshold Settings for STM-N Ports Table 18-7 SDH Threshold Options (Line, Section, and Path) (continued) Heading Description Options PSD-W Protection Switch Duration (Working Line) Numeric. Can be set for 15-minute or one-day intervals for Line (Near End). Select the bullet and click Refresh. PSC-S (Line) Sets the threshold for the span Numeric. Can be set for 15-minute or one-day protection switching count.
Chapter 18 DLPs F300 to F399 DLP- F394 Change Optics Threshold Settings for STM-N Ports c. Select a 15 Min or 1 Day performance monitoring interval radio button (available for TCA only), and then click Refresh. d. Click Refresh to view or modify the thresholds for each selection. Table 18-8 Optics Threshold Options Heading Description Options Port Port number 1–16 for an STM-16 card, 1–4 for an STM-64 card, 1-1-1 to 4-4-1 for an ASAP port number LBC-HIGH Laser bias current–maximum.
Chapter 18 DLPs F300 to F399 DLP- F395 Change the STM-N Port ALS Maintenance Settings DLP-F395 Change the STM-N Port ALS Maintenance Settings Purpose This task changes the automatic laser shutdown (ALS) maintenance settings for the STM-N ports. This feature is available for STM-16, STM-64, and ASAP cards.
Chapter 18 DLPs F300 to F399 DLP- F396 Clear All PM Thresholds Table 18-9 STM-N Maintenance Settings (continued) Parameter Description Recovery Pulse Duration Sets the recovery laser pulse duration, in Numeric. For the default values and seconds, for the initial, recovery optical domains of user-provisionable card power pulse following a laser shutdown. settings, refer to the “Network Element Defaults” appendix in the Cisco ONS 15600 SDH Reference Manual.
Chapter 18 DLPs F300 to F399 DLP- F397 Provision the Designated SOCKS Servers Step 4 Click Yes in the Reset to default dialog box. Step 5 Verify that the PM thresholds have been reset. Step 6 Return to your originating procedure (NTP). DLP-F397 Provision the Designated SOCKS Servers Purpose This task identifies the ONS 15600 SDH SOCKS servers in SOCKS-proxy-enabled networks.
Chapter 18 DLPs F300 to F399 DLP- F398 Install the CTC Launcher Application from a Release 8.0 Software CD Step 4 Click Add. The node is added to the SOCKS server list. If you need to remove a node on the list, click Remove. Step 5 Repeat Steps 3 and 4 to add all qualified ONS 15600 SDH nodes within the network. All ONS nodes that have SOCKS proxy enabled and are connected to the LAN should be added. Step 6 Click Check All Servers.
Chapter 18 DLPs F300 to F399 DLP- F399 Install the CTC Launcher Application from a Release 8.0 Node Step 1 Required/As Needed As needed Onsite/Remote Onsite or remote Security Level None Using a web browser, go to the following address, where node name is the DNS name of a node you are going to access: http:///fs/StartCTC.exe The browser File Download window opens. Step 2 Click Save and navigate to the location where you want to save the StartCTC.exe file to a local hard drive.
Chapter 18 DLPs F300 to F399 DLP- F399 Install the CTC Launcher Application from a Release 8.0 Node Cisco ONS 15600 SDH Procedure Guide, R8.