Cisco Systems ONS 15454 manual 22-62

Page 62

Chapter 22 DLPs A500 to A599

DLP- A553 Upgrade DS3XM-6 Cards in a 1:1 Configuration to High-Density DS3XM-12 Electrical Cards

b.Choose the new high-density card type from the Change to drop-down list.

c.Click OK.

Step 13 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.

Step 14 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 > 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 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.

Step 15 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

22-62

November 2007

Image 62
Contents DLP-A507 View OC-N PM Parameters 22-122-2 Card ViewClick the Performance Ether Ports Statistics tabs DLP-A509 Provision CE-1000-4 Ethernet PortsClick the Provisioning Ether Ports tabs 22-3DLP-A510 Provision a DS-3 Circuit Source and Destination 22-4DLP-A512 Change Node Access and PM Clearing Privilege 22-5DLP-A513 Provision CE-100T-8 Ethernet Ports 22-622-7 22-8 DLP-A514 Provision CE-100T-8 and CE-1000-4 POS PortsClick the Performance POS Ports Statistics tabs 22-9 DLP-A517 View Alarm or Event HistoryClick the History Shelf tabs 22-10 DLP-A518 Create a New or Cloned Alarm Severity ProfileAlarm Profile Editor tabs Figure Node View Alarm Profile Editor 22-1122-12 22-13 Store Profiles Dialog Box22-14 DLP-A519 Apply Alarm Profiles to PortsClick the Provisioning Alarm Profiles Alarm Behavior tabs DLP-A520 Delete Alarm Severity Profiles 22-1522-16 Select Node/Profile Combination For Delete Dialog BoxAlarm Filter Dialog Box General Tab 22-17Alarm Filter Dialog Box Conditions Tab 22-18DLP-A522 Suppress Alarm Reporting 22-19DLP-A523 Discontinue Alarm Suppression 22-20DLP-A524 Download an Alarm Severity Profile 22-2122-22 Click OKOr Sonet Thresholds subtab Parameter Description Options 22-23IS-NR 22-2422-25 DLP-A527 Change the OC-N Card ALS Maintenance Settings 22-26Cisco ONS 15454 Reference Manual 22-2722-28 DLP-A528 Change the Default Network View Background MapDLP-A529 Delete Ethernet Rmon Alarm Thresholds DLP-A530 Install the Tie-Down Bar 22-29DLP-A531 Print CTC Data 22-3022-31 Selecting CTC Data For PrintDLP-A532 Export CTC Data 22-3222-33 DLP-A533 Create Ethernet Rmon Alarm Thresholds 22-34Variable Definition 22-3522-36 22-37 22-38 22-39 DLP-A534 Provision OSI Routing Mode 22-4022-41 Node view, click the Provisioning OSI Tarp Config tabsDLP-A535 Provision or Modify Tarp Operating Parameters 22-42 22-43 Node view, click the Provisioning OSI Tarp Static TDC tabsClick Add Static Entry 22-44 DLP-A538 Add a Tarp Manual Adjacency Table EntryClick Delete Static Entry DLP-A539 Provision OSI Routers 22-4522-46 DLP-A541 Enable the OSI Subnet on the LAN InterfaceDLP-A540 Provision Additional Manual Area Addresses 22-47 DLP-A542 Create an IP-Over-CLNS Tunnel 22-4822-49 DLP-A544 Change the OSI Routing ModeDLP-A543 Remove a Tarp Manual Adjacency Table Entry 22-50 Node view, click the Provisioning OSI Routers Subnet tabs DLP-A545 Edit the OSI Router ConfigurationDLP-A546 Edit the OSI Subnetwork Point of Attachment 22-51DLP-A547 Edit an IP-Over-CLNS Tunnel 22-52DLP-A548 Delete an IP-Over-CLNS Tunnel 22-53DLP-A549 View IS-IS Routing Information Base 22-54DLP-A551 Manage the Tarp Data Cache Node view, click the Maintenance OSI ES-IS RIB tabsDLP-A550 View ES-IS Routing Information Base 22-55DLP-A552 Adjust the Java Virtual Memory Heap Size 22-5622-57 22-58 22-59 22-60 22-61 22-62 22-63 Click the Maintenance Protection tabs 22-6422-65 22-66
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ONS 15454 specifications

Cisco Systems ONS 15454 is a versatile optical networking platform designed to enable service providers and enterprises to deploy and manage robust optical networks efficiently. The ONS 15454 serves as a cornerstone in the evolution of transport networks, featuring various technologies that meet the increasing demand for bandwidth and service quality.

One of the standout features of the ONS 15454 is its support for multiple service types, including TDM, Ethernet, and Wavelength Division Multiplexing (WDM). This capability allows service providers to maximize network resources while delivering a wide range of services, from traditional voice to high-speed data and video.

The ONS 15454 leverages Dense Wavelength Division Multiplexing (DWDM) technology, enabling the transmission of multiple data streams over a single optical fiber. This effectively expands the network's capacity without the need for additional infrastructure, a crucial benefit in today's ever-growing data landscape. The system supports a variety of transponder modules, allowing for flexible scaling and seamless upgrades as bandwidth requirements increase.

Scalability is another key characteristic of the ONS 15454. With its modular architecture, it accommodates a range of interfaces and line cards, making it easier to tailor deployments to specific customer needs. This modularity not only facilitates upgrades but also simplifies maintenance, minimizing downtime and operational costs.

The platform also features advanced management capabilities through Cisco's Optical Network Management system. This allows for real-time monitoring, provisioning, and troubleshooting, ensuring network reliability and performance. The intuitive interface and comprehensive reporting tools enable operators to gain insights into network operations, improving decision-making processes.

Furthermore, the ONS 15454 is built to support optical layer protection features, enhancing network resilience. Technologies such as Automatic Protection Switching (APS) and Optical Supervisory Channel (OSC) ensure that connectivity is maintained even in the event of a failure, crucial for mission-critical applications.

In conclusion, the Cisco ONS 15454 is a powerful optical networking solution that combines flexibility, scalability, and advanced management features. Its support for various services and technologies positions it as an essential asset for organizations looking to build a future-proof network capable of handling increasing data traffic while maintaining high service standards.