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Cisco ONS 15310-CL and Cisco ONS 15310-MA Troubleshooting Guide, Release 9.0

78-18394-01

Chapter 2 Alarm Troubleshooting

Alarm Procedures

Step 9 If the alarm does not clear and the “TPTFAIL” alarm on page 2-149 is also reported, complete the “Clear

the TPTFAIL Alarm” procedure on page 2-149. If the TPTFAIL alarm is not raised, continue with the

next step.

Note When the CARLOSS and the TPTFAIL alarms are reported, the reason for the condition could

be the CE-Series card's end-to-end link integrity feature taking action on a remote failure

indicated by the TPTFAIL alarm.

Step 10 If the TPTFAIL alarm was not raised, determine whether a terminal (inward) loopback has been

provisioned on the port by completing the following steps:

a. In node view, click the card to go to card view.

b. Click the Maintenance > Loopback tabs.

c. If the service state is listed as OOS-MA,LPBK&MT, a loopback is provisioned. Go to Step 11.

Step 11 If a loopback was provisioned, complete the “Clear an Ethernet Card Loopback Circuit” procedure on

page 2-166.

On the CE-100T-8, provisioning a terminal (inward) loopback causes the transmit laser to turn off. If an

attached Ethernet device detects the loopback as a loss of carrier, the attached Ethernet device shuts off

the transmit laser to the CE-100T-8 card. Terminating the transmit laser could raise the CARLOSS alarm

because the loopbacked CE-100T-8 port detects the termination. For more information about CE-100T-8

cards, refer to the Cisco ONS 15310-CL and Cisco ONS 15310-MA Ethernet Card Software Feature and

Configuration Guide.

If the port or card does not have a loopback condition, continue with Step 12.

Step 12 If a CARLOSS alarm repeatedly appears and clears, the reappearing alarm could be a result of

mismatched STS circuit sizes in the setup of the manual cross-connect. Perform the following steps if

the Ethernet circuit is part of a manual cross-connect by completing the following steps:

Note An Ethernet manual cross-connect is used when another vendor’s equipment sits between

ONS nodes, and the Open System Interconnection/Target Identifier Address Resolution Protocol

(OSI/TARP)-based equipment does not allow tunneling of the TCP/IP-based DCC. To

circumvent a lack of continuous DCC, the Ethernet circuit is manually cross connected to an STS

channel riding through the non-ONS network.

a. Right-click anywhere in the row of the CARLOSS alarm.

b. Right-click or left-click Select Affected Circuits in the shortcut menu that appears.

c. Record the information in the type and size columns of the highlighted circuit.

d. Examine the layout of your network and determine which node and card are hosting the Ethernet

circuit at the other end of the Ethernet manual cross-connect using the following substeps:

• Log into the node at the other end of the Ethernet manual cross-connect.

• Double-click the Ethernet card that is part of the Ethernet manual cross-connect.

• Click the Circuits tab.

• Record the information in the type and size columns of the circuit that is part of the Ethernet

manual cross-connect. The cross-connect circuit connects the Ethernet port to an OC-N port at

the same node.

e. Determine whether the two Ethernet circuits on each side of the Ethernet manual cross-connect have

the same circuit size from the circuit size information you recorded.

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Cisco 15310-MA Guida alla Risoluzione dei Problemi Pagina 168

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