Table Of Contents
Basic Network Verification Procedures
Before You Begin
NTP-23 Verify the Optical Power Budget Between Nodes
NTP-24 Verify the Connectivity Between OSC Modules
NTP-25 Verify the Topology Neighbor Connectivity
NTP-26 Verify the Power Levels
NTP-27 Test the Optical Transmission Quality
DLP-72 Test 2.5-Gbps Transponder Module Transmission Quality
DLP-73 Test 10-GE Transponder Module Transmission Quality
NTP-28 Verify the Optical Signal Protection Configuration
DLP-74 Verify the APS Configuration
DLP-75 Verify the Splitter Protection Operation
DLP-76 Verify the Y-Cable Protection Operation
DLP-77 Verify the Trunk Fiber Based Protection Operation
Basic Network Verification Procedures
This chapter describes the procedures for basic network-level verification.
Note 
Before performing the procedures in this chapter, the nodes must have been installed and configured. All cabling must be complete.
Note This chapter contains preliminary procedures for network installation and setup verification and does not cover the final turn-up procedures for an entire network.
Before You Begin
This section lists the chapter non-trouble procedures (NTPs). Turn to a procedure for applicable tasks or detailed level procedures (DLPs).
Step 1 23 Verify the Optical Power Budget Between Nodes—Complete this procedure to verify the power of the signal between two nodes.
Step 2 24 Verify the Connectivity Between OSC Modules—Complete this procedure to verify the connectivity between the OSC modules on separate nodes.
Step 3 25 Verify the Topology Neighbor Connectivity—Complete this procedure to verify the network topology connectivity on the network.
Step 4 26 Verify the Power Levels—Complete this procedure to verify the channel power levels on the node.
Step 5 27 Test the Optical Transmission Quality—Complete this procedure to verify the status of the optical signal transmission between nodes.
Step 6 28 Verify the Optical Signal Protection Configuration—Complete this procedure to verify the correct configuration and functioning of APS on the network.
You need the following test equipment:
•OSA (optical spectrum analyzer)
•BER test set (for 2.5-Gbps traffic)
•SONET analyzer or Ethernet analyzer (for 2.5-Gbps traffic)
•Native 10-GE traffic generator and traffic analyzer set (for 10-GE traffic)
NTP-23 Verify the Optical Power Budget Between Nodes
Purpose
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This procedure verifies the optical power budget between the nodes.
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Tools/Equipment
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Traffic generator
OSA (optical spectrum analyzer)
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Prerequisite Procedures
|
NTP-14 Verify the System Configuration, page 3-31
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
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Security Level
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Privileged
|
Note Record the test measurements in Table A-4 in "Node Data Record."
Note Prior to performing this procedure, each node must be installed and configured and all cabling must be completed. To optimize the power budget, OADM module cabling should be done to minimize insertion loss.
Step 1 Set the data rate on the traffic generator based on the protocol rate or clock rate configured on the interfaces.
Step 2 Connect a traffic generator to the client ports on the local node and loop back the client TX and RX ports at the remote peer node.
Step 3 Use an OSA to measure and record the wavelengths and the optical power of the band added and dropped on the shelf. Take measurements at the TRUNK_OUT port on the OADM module local node, and at the TRUNK_IN port on the OADM module on the remote peer node.
Step 4 On systems with splitter protected configurations, perform a shutdown command on the active interface on node 1, and a no shutdown command on the standby interface. For example:
Switch# configure terminal
Switch(config)# interface wavepatch 2/0/0
Switch(config-if)# shutdown
Switch(config-if)# exit
Switch(config)# interface wavepatch 2/0/1
Switch(config-if)# no shutdown
Repeat Step 3.
Step 5 For 2.5-Gbps transponder modules, issue show interfaces wave commands on each node for all wave interfaces and record wavelength and power displayed in the command outputs.
Step 6 For 10-GE transponder modules, issue show interfaces waveethernetphy commands on each node for all waveethernetphy interfaces and record wavelength and power displayed in the command outputs.
Step 7 Compare the expected results from the network design, the results recorded in Step 3, and the results from the command outputs.
If the results for a particular wavelength do not match, make sure the connectors are fully inserted and the transponder modules are correctly installed. Clean the fibers and connectors, if necessary. Rerun the test.
If the results still do not match, there might be a hardware problem or incorrect calibration in the transponder module IDPROM.
Step 8 Go to the remote peer node and repeat Step 2 through Step 7 for the opposite direction.
NTP-24 Verify the Connectivity Between OSC Modules
Purpose
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This procedure verifies the connectivity between the OSC modules on two adjacent nodes.
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Tools/Equipment
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None
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Prerequisite Procedures
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NTP-14 Verify the System Configuration, page 3-31
|
Required/As Needed
|
As needed
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Onsite/Remote
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Onsite or remote
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Security Level
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Privileged
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Step 1 Use the show oscp interface command to display OSCP (Optical Supervisory Channel Protocol) status information for the OSC interfaces.
Switch# show oscp interface wave 0
Codes: Bndl - bundling identifier, Pri - OSCP selection priority
OSCP - dedicated wavelength channel, CDL - in-band wavelength channel
OSCP Interface(s)
Local Port Port ID Type Status OSCP St Bndl Pri Rem Port ID Rem Node Id
~~~~~~~~~~~~~ ~~~~~~~ ~~~~ ~~~~~~ ~~~~~~~ ~~~~ ~~~ ~~~~~~~~~~~ ~~~~~~~~~~~~~~
Wave0 1000000 OSCP Active 2way 0 0 1000000 0000.1644.28fb
Step 2 Verify that Active is displayed in the Status column. This indicates that the local port status is active.
If the status is not active, the interface is not enabled. Perform a no shutdown command on the OSC wave interface.
Step 3 Verify that 2way is displayed in the OSCP St column. This indicates that the local node has received Hello messages from the neighbor node and verifies that the neighbor has received Hello packets from the local node.
NTP-25 Verify the Topology Neighbor Connectivity
Purpose
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This procedure verifies connectivity of neighboring nodes in the network topology.
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Tools/Equipment
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None
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Prerequisite Procedures
|
NTP-14 Verify the System Configuration, page 3-31
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Required/As Needed
|
Required
|
Onsite/Remote
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Onsite or remote
|
Security Level
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Privileged
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Step 1 Use the show topology neighbor detail command to verify network neighbors in the topology.
Switch# show topology neighbor detail
Physical Topology:
Local Port: Wdm0/0
Neighbor Node : node3
Neighbor Port : Wdm1/0
Neighbor Agent Address: 172.20.50.21
Neighbor Discovery : Via CDP (Proxy Port: Wave1)
Link Direction : Both
Local Port: Wdm1/0
Neighbor Node : node1
Neighbor Port : Wdm0/0
Neighbor Agent Address: 172.20.42.27
Neighbor Discovery : Via CDP (Proxy Port: Wave0)
Link Direction : Both
Step 2 Use the ping command on the IP addresses listed for the network neighbors to verify connectivity.
Step 3 If the ping command fails, recheck the IP configuration on each node.
NTP-26 Verify the Power Levels
Step 1 Connect the OSA to the TAP.
Step 2 Use the wavelength spectrum application to verify the channel count and power on the wavelength screen of the OSA.
Step 3 Verify the channel power equalization. The wavelength screen displays the power peaks and the table format screen displays the measurements.
Step 4 Verify the optical signal-to-noise ratio (OSNR) of each channel on each line fiber. The OSNR figures are listed in the table format screen on the OSA.
Step 5 Repeat these steps for all nodes in the topology.
NTP-27 Test the Optical Transmission Quality
Step 1 As needed, complete the "DLP-72 Test 2.5-Gbps Transponder Module Transmission Quality" task.
Step 2 As needed, complete the "DLP-73 Test 10-GE Transponder Module Transmission Quality" task.
DLP-72 Test 2.5-Gbps Transponder Module Transmission Quality
Step 1 Connect the BER test set transmit port and receive port to the client RX port and client TX port, respectively, on the 2.5-Gbps transponder module on the local node.
Step 2 Loop back the client TX port to the client RX port on the 2.5-Gbps transponder module supporting the same channel on the remote node with appropriate attenuation. See the example setup in Figure 5-1.
Note Determine the attenuation using the power values recorded in the "DLP-66 Verify the Power Levels on the 2.5-Gbps Transponder Module Client Interfaces" task on page 4-18.
Figure 5-1 Example Setup for 2.5-Gbps Transponder Modules
Step 3 Clear all errors on the BER test set.
Step 4 Start the traffic with the BER test set.
Step 5 Verify that the test runs error free for 15 minutes.
Step 6 If the 2.5-Gbps transponder module has splitter protection, perform the following steps:
a. Issue shutdown commands on the active wavepatch interfaces on both nodes.
b. Issue no shutdown commands on the standby wavepatch interfaces on both nodes.
c. Perform Step 3 through Step 5 on the client interface.
Step 7 Verify that the test runs error free for 15 minutes.
Step 8 Repeat Step 1 through Step 7 for all client interfaces on every node in the network.
DLP-73 Test 10-GE Transponder Module Transmission Quality
Step 1 Connect the traffic generator transmit port to the 10-GE transponder module client RX port on the local node.
Step 2 Connect the traffic analyzer receive port to the 10-GE transponder module client TX port on the local node.
Step 3 Loop back the client TX port to the client RX port on the 10-GE transponder module supporting the same channel on the remote node with appropriate attenuation. See the example setup in Figure 5-2.
Note Determine the attenuation using the power values recorded in the "DLP-67 Verify the Power Levels on the 10-GE Transponder Module Client Interfaces" task on page 4-22.
Figure 5-2 Example Setup for 10-GE Transponder Modules
Step 4 Clear all errors on the traffic analyzer.
Step 5 Start the traffic generator.
Step 6 Verify that the test runs error free for 15 minutes.
Step 7 If the 10-GE transponder module has splitter protection, perform the following steps:
a. Issue shutdown commands on the active wavepatch interfaces on both nodes.
b. Issue no shutdown commands on the standby wavepatch interfaces on both nodes.
c. Perform Step 3 through Step 5 on the client interface.
Step 8 Verify that the test runs error free for 15 minutes.
Step 9 Repeat Step 1 through Step 7 for all client interfaces on every node in the network.
NTP-28 Verify the Optical Signal Protection Configuration
Purpose
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This procedure describes how to verify that APS configuration is correctly configured and that it is operating properly.
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Tools/Equipment
|
SONET analyzer
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Prerequisite Procedures
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NTP-14 Verify the System Configuration, page 3-31
|
Required/As Needed
|
As needed
|
Onsite/Remote
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Onsite or remote
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Security Level
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Privileged
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Step 1 Complete the "DLP-74 Verify the APS Configuration" task.
Step 2 As needed, complete the "DLP-75 Verify the Splitter Protection Operation" task.
Step 3 As needed, complete the "DLP-76 Verify the Y-Cable Protection Operation" task.
Step 4 As needed, complete the "DLP-77 Verify the Trunk Fiber Based Protection Operation" task.
DLP-74 Verify the APS Configuration
Step 1 Issue a show aps group command for each APS group on both nodes in the topology.
Switch# show aps group sonet-group
APS Group sonet-group :
architecture.: 1+1, remote prov: 1+1
span.........: end-to-end
prot. mode...: client side y-cable
direction....: prov: bi, current: bi, remote prov: bi
revertive....: no
aps state....: enabled (associated)
request timer: holddown: 5000 ms, max: 15000 ms, count 2
msg-channel..: auto (up on osc)
created......: 17 hours, 10 minutes
auto-failover: enabled
transmit k1k2: reverse-request, 1, 1, 1+1, bi
receive k1k2: forced-switch, 1, 1, 1+1, bi
switched chan: 1
protection(0): Transparent2/0/0 (ACTIVE - UP), Wave2/0 (UP)
: channel request: no-request
: switchover count: 2
: last switchover: 15 hours, 14 minutes
working...(1): Transparent4/0/0 (STANDBY - UP), Wave4/0 (UP)
: channel request: no-request
: switchover count: 3
: last switchover: 14 hours, 41 minutes
Step 2 Check the prot. mode field for the state of the protection switching. For each APS group, both nodes should be configured with the same type of protection switch, either unidirectional (uni) or bidirectional (bi).
Step 3 Check the aps state field for the status of each APS group. The state should be enabled and associated. If it is not enabled, perform an aps enable command on the APS group.
Step 4 Check the protection and working fields for the state of the interfaces. Both should be UP. If they are not up, perform no shutdown commands on the interfaces on both nodes.
Step 5 Check the msg-channel field for the state of the message channel for the APS channel messages. The state should be up. If the message channel is not up, check the status of the OSC and OSCP, and the configuration of the patch connections for the OSC modules and OADM modules on both nodes.
DLP-75 Verify the Splitter Protection Operation
Purpose
|
This task verifies the operation of the splitter protection configuration on your network.
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Tools/Equipment
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SONET analyzer or Ethernet analyzer (for 2.5-Gbps traffic)
10-GE traffic analyzer (for 10-GE traffic)
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Prerequisite Procedures
|
NTP-14 Verify the System Configuration, page 3-31
26 Verify the Power Levels
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Required/As Needed
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As needed
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Onsite/Remote
|
Onsite or remote
|
Security Level
|
Privileged
|
Note To perform these measurements with a SONET analyzer, you must have SM transponder modules or MM transponder modules configured to SONET OC-3 or OC-12 protocol encapsulation. Otherwise, use an Ethernet analyzer, measure how many frames are lost, and divide by the frame rate to determine the restoration time.
Step 1 To verify restoration time after a fiber break on the trunk, perform these steps:
a. Connect a SONET analyzer (with service time disruption measurement) to the client side.
b. Disconnect the active trunk fiber.
c. Verify that the restoration time is less than 50 ms.
Step 2 To verify protection switching from the working path to the protection path, perform these steps:
a. Connect a SONET analyzer (with service time disruption measurement) to the client side.
b. Perform a manual switch command through the CLI to verify manual protection switch functionality. Enter the following command:
aps switch group-name manual working-to-protection
c. Verify that the restoration time is less than 50 ms.
Step 3 To verify protection switching from the protection path to the working path, perform these steps:
a. Connect a SONET analyzer (with service time disruption measurement) to the client side.
b. Perform a manual switch command through the CLI to verify manual protection switch functionality. Enter the following command:
aps switch group-name manual protection-to-working
c. Verify that the restoration time is less than 50 ms.
Step 4 Enter an aps clear group-name to remove all APS switchover requests.
Step 5 For bidirectional switching configurations, repeat Step 1 through Step 4 on the remote node.
DLP-76 Verify the Y-Cable Protection Operation
Purpose
|
This task verifies the operation of the y-cable protection configuration on your network.
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Tools/Equipment
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SONET analyzer or Ethernet analyzer (for 2.5-Gbps traffic)
10-GE traffic analyzer (for 10-GE traffic)
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Prerequisite Procedures
|
NTP-14 Verify the System Configuration, page 3-31
26 Verify the Power Levels
|
Required/As Needed
|
As needed
|
Onsite/Remote
|
Onsite or remote
|
Security Level
|
Privileged
|
Note To perform these measurements with a SONET analyzer, you must have SM transponder modules or MM transponder modules configured to SONET OC-3 or OC-12 protocol encapsulation. Otherwise, use an Ethernet analyzer, measure how many frames are lost, and divide by the frame rate to determine the restoration time.
Step 1 To verify restoration time after removing an active transponder module, perform these steps:
a. Connect a SONET analyzer (with service time disruption measurement) to the client side.
b. Remove the active transponder module.
c. Verify that the restoration time is less than 50 ms.
Step 2 To verify restoration time after a fiber break on the trunk, perform these steps:
a. Connect a SONET analyzer (with service time disruption measurement) to the client side.
b. Disconnect the active trunk fiber.
c. Verify that the restoration time is less than 50 ms.
Step 3 To verify protection switching from the working path to the protection path, perform these steps:
a. Connect a SONET analyzer (with service time disruption measurement) to the client side.
b. Perform a manual switch command through the CLI to verify manual protection switch functionality. Enter the following command:
aps switch group-name manual working-to-protection
c. Verify that the restoration time is less than 50 ms.
Step 4 To verify protection switching from the protection path to the working path, perform these steps:
a. Connect a SONET analyzer (with service time disruption measurement) to the client side.
b. Perform a manual switch command through the CLI to verify manual protection switch functionality. Enter the following command:
aps switch group-name manual protection-to-working
c. Verify that the restoration time is less than 50 ms.
Step 5 Enter an aps clear group-name to remove all APS switchover requests.
Step 6 For bidirectional switching configurations, repeat Step 1 through Step 5 on the remote node.
DLP-77 Verify the Trunk Fiber Based Protection Operation
Note To perform these measurements with a SONET analyzer, you must have 2.5-Gbps transponder modules configured to SONET OC-3 or OC-12 protocol encapsulation. Otherwise, use an Ethernet analyzer, measure how many frames are lost, and divide by the frame rate to determine the restoration time.
Step 1 To verify restoration time after a fiber break on the trunk, perform these steps:
a. Connect a SONET analyzer (with service time disruption measurement) to the client side.
b. Disconnect the trunk fiber the active PSM.
c. Verify that the restoration time is less than 50 ms.
Step 2 To verify protection switching from the working path to the protection path, perform these steps:
a. Connect a SONET analyzer (with service time disruption measurement) to the client side.
b. Perform a manual switch command through the CLI to verify manual protection switch functionality. Enter the following command:
aps switch group-name manual working-to-protection
c. Verify that the restoration time is less than 50 ms.
Step 3 To verify protection switching from the protection path to the working path, perform these steps:
a. Connect a SONET analyzer (with service time disruption measurement) to the client side.
b. Perform a manual switch command through the CLI to verify manual protection switch functionality. Enter the following command:
aps switch group-name manual protection-to-working
c. Verify that the restoration time is less than 50 ms.
Step 4 Enter an aps clear group-name to remove all APS switchover requests.
Step 5 For bidirectional switching configurations, repeat Step 1 through Step 4 on the remote node.
