Cisco Systems D200 manual 19-70

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Chapter 19 DLPs D200 to D299

DLP- D264 Provision a J1 Path Trace on Circuit Source and Destination Ports

Note If neither port is on a transmit/receive card, you will not be able to complete this procedure. If one port is on a transmit/receive card and the other is on a receive-only card, you can set up the transmit string at the transmit/receive port and the receive string at the receive-only port, but you will not be able to transmit in both directions.

Step 4 Choose the VC3 or VC4 circuit you want to trace, then click Edit.

Step 5 If you chose a VCAT circuit, complete the following. If not, continue with Step 6.

a.In the Edit Circuit window, click the Members tab.

b.Click Edit Member and continue with Step 6.

Step 6 In the Edit Circuit window, click the Show Detailed Map check box at the bottom of the window. A detailed map of the source and destination ports appears.

Step 7 Provision the circuit source transmit string:

a.On the detailed circuit map, right-click the circuit source port (the square on the left or right of the source node icon) and choose Edit J1 Path Trace (port) from the shortcut menu.

b.Choose the format of the transmit string by clicking either the 16 byte or the 64 byte selection button.

c.In the New Transmit 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 Transmit String field is left blank, the J1 transmits a string of null characters.

d.Click Apply, then click Close.

Step 8 Provision the circuit destination transmit string:

a.On the detailed circuit map, right-click the circuit destination port and choose Edit Path Trace from the shortcut menu.

b.In the New Transmit String field, enter the string that you want the circuit destination to transmit. Enter a string that makes the destination port easy to identify, such as the node IP address, node name, circuit name, or another string. If the New Transmit String field is left blank, the J1 transmits a string of null characters.

c.Click Apply.

Step 9 Provision the circuit destination expected string:

a.In the Circuit Path Trace window, enable the path trace expected string by choosing Auto or Manual from the Path Trace Mode drop-down list:

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 Current Expected String is the baseline. An alarm is raised when a string that differs from the Current Expected String is received.

b.If you set the Path Trace Mode field to Manual, enter the string that the circuit destination should receive from the circuit source in the New Expected String field. If you set Path Trace Mode to Auto, skip this step.

c.Click the Disable AIS and RDI if TIM-P is detected check box if you want to suppress the AIS and remote defect indication (RDI) when the VC3 or VC4 High-Order Path Trace Identifier Mismatch (HP-TIM) or Low-Order Path Trace Identifier Mismatch (LP-TIM) alarm appears. Refer to the Cisco ONS 15454 SDH Troubleshooting Guide for descriptions of alarms and conditions.

 

Cisco ONS 15454 SDH Procedure Guide, R7.2

19-70

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Contents DLP-D201 Apply a Lock-On 19-1Required/As Needed DLP-D202 Apply a LockoutPurpose 19-2DLP-D203 Clear a Lock-On or Lockout 19-3DLP-D205 Clean Fiber Connectors with Cletop 19-4Click the Provisioning Server Trails tabs DLP-D206 Clean the Fiber AdaptersDLP-D207 Delete a Server Trail 19-5Click the Provisioning External Alarms tabs DLP-D208 Change External Alarms Using the AIC-I CardDLP-D209 Change External Controls Using the AIC-I Card 19-6DLP-D210 Change AIC-I Card Orderwire Settings 19-7Click the Performance Ether Ports Statistics tabs DLP-D211 Provision CE-1000-4 Ethernet PortsClick the Provisioning Ether Ports tabs 19-8Network view, click the Provisioning Overhead Circuits tabs DLP-D212 Create a User Data Channel Circuit19-9 Click the Provisioning Card tabs DLP-D214 Change the Service State for a Port19-10 DLP-D215 Consolidate Links in Network View 19-111shows a network view with unconsolidated DCC and PPC links 19-1219-13 Consolidated Links in Network ViewDLP-D216 Change the STM-N Card ALS Maintenance Settings 19-14Manual Restart for Test -Manually 19-15Click the Provisioning MS-SPRing tabs DLP-D217 MS-SPRing Exercise Ring Test19-16 19-17 19-18 Security DLP-D219 Provision a Low-Order Tunnel RouteDLP-D220 Provision E-Series Ethernet Ports Click the Provisioning Port tabsClick the Provisioning Vlan tabs 19-20Setting Description 19-21Click the Performance Statistics tabs DLP-D222 Provision G-Series Ethernet Ports19-22 DLP-D223 Download an Alarm Severity Profile 19-23Click OK DLP-D224 Adjust the Java Virtual Memory Heap Size19-24 DLP-D225 Enable Alarm Filtering 19-25DLP-D229 View Circuits on a Span DLP-D227 Disable Alarm Filtering19-26 DLP-D230 Change a Circuit State 19-27DLP-D231 Edit a Circuit Name 19-28DLP-D232 Change Active and Standby Span Color 19-29DLP-D233 Edit Sncp Circuit Path Selectors Click Reset to Defaults19-30 19-31 19-32 Selecting Single Roll Attributes19-33 Selecting a New Endpoint19-34 Viewing the Rolls TabClick Finish 19-3519-36 19-37 10 Selecting Dual Roll Attributes11 Setting Roll Routing Preferences 19-3819-39 Click the Circuits tab 19-4019-41 19-42 19-43 Click the Circuits Rolls tabs DLP-D240 Cancel a RollDLP-D239 Delete a Roll 19-44DLP-D241 Clear an MS-SPRing Manual Ring Switch 19-45DLP-D242 Create an MS-SPRing on a Single Node 19-46DLP-D243 Create a Vlan 19-4719-48 12 Reinitialization Tool19-49 19-50 DLP-D246 Provision E-Series Ethernet Card Mode 19-51DLP-D247 Change an STM-N Card Click the Maintenance Protection tabs19-52 DLP-D248 Delete VLANs DLP-D249 Provision IP Settings19-53 Click the Provisioning Network General tabs 19-5419-55 Active TCC2/TCC2P LEDs Standby TCC2/TCC2P LEDs 19-56Type-ChooseSimple Password DLP-D250 Set Up or Change Open Shortest Path First ProtocolClick the No Authentication button 19-5719-58 DLP-D251 Set Up or Change Routing Information Protocol 19-59DLP-D254 TCC2/TCC2P Card Active/Standby Switch Test 19-60DLP-D255 Cross-Connect Card Side Switch Test 19-61DLP-D256 View Ethernet Statistics PM Parameters Click the Maintenance Cross-Connect tabs19-62 Click the Performance Utilization tabs DLP-D257 View Ethernet Utilization PM Parameters19-63 DLP-D258 View Ethernet History PM Parameters 19-64DLP-D260 Set Auto-Refresh Interval for Displayed PM Counts 19-65DLP-D262 Filter the Display of Circuits DLP-D261 Refresh PM Counts for a Different Port19-66 19-67 19-68 J1 Function Cards 19-6919-70 19-71 DLP-D265 Change the Login Legal Disclaimer 19-72DLP-D266 Change IP Settings 19-73DLP-D268 Apply a Custom Network View Background Map 19-74DLP-D271 Change Node Security Policy on a Single Node DLP-D269 Enable Dialog Box Do-Not-Display Option19-75 19-76 DLP-D272 Change Node Security Policy on Multiple Nodes 19-77DLP-D273 Modify Snmp Trap Destination 19-78DLP-D303 Initiate an MS-SPRing Force Ring Switch task on 19-79Change Card 19-80DLP-D295 Perform a Manual Span Upgrade on an Sncp 19-8119-82 19-83 DLP-D298 Check the Network for Alarms and Conditions 19-84DLP-D299 Initiate an MS-SPRing Span Lockout 19-8519-86

D200 specifications

Cisco Systems has long been a leader in networking technology, and one of its standout products is the Cisco D200. Designed to meet the demands of modern businesses, the D200 is a versatile and robust device that facilitates seamless connectivity and effective network management.

The Cisco D200 is primarily known for its performance and reliability in various deployment scenarios. It is equipped with dual-band Wi-Fi capabilities, supporting both 2.4 GHz and 5 GHz frequencies. This allows users to optimize their wireless network, reducing interference and providing the flexibility to support a wide range of devices in an increasingly wireless world.

One of the standout features of the D200 is its advanced security protocols. Featuring integrated firewalls and support for VPNs, the device ensures that data remains protected against potential cyber threats. With the rise in remote work and digital collaboration, the D200 provides businesses with secure access control, ensuring that sensitive information is safeguarded from unauthorized access.

Another key characteristic of the D200 is its ease of management. With Cisco's user-friendly interface, network administrators can easily configure and monitor the device. The D200 is also compatible with Cisco's DNA Center, enabling businesses to leverage automation and AI-driven insights to optimize their networks and improve operational efficiency.

Performance-wise, the D200 boasts impressive throughput capabilities, making it suitable for high-traffic environments such as offices and educational institutions. Its robust hardware allows for multiple concurrent connections, ensuring that even during peak usage times, network performance remains uninterrupted. Quality of Service (QoS) features also prioritize critical applications, enhancing the overall user experience.

In terms of scalability, the D200 is designed to grow with a business. Whether an organization is expanding its device fleet or increasing bandwidth demands, the D200 can adapt to these changes without compromising performance. Moreover, ongoing firmware updates from Cisco ensure that the device remains current with the latest technologies and security enhancements.

In summary, the Cisco D200 is an essential tool for any business seeking to enhance its networking capabilities. With its advanced features, secure architecture, and ease of management, it stands out as a reliable choice for organizations looking to future-proof their networking infrastructure. As technology continues to evolve, the D200 remains a stalwart in enabling connectivity and efficiency in the digital age.
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