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Table Of Contents

Turn Up Network

Before You Begin

NTP-G51 Verify DWDM Node Turn Up

NTP-G52 Verify Node-to-Node Connections

NTP-G53 Set Up Timing

DLP-G95 Set Up External or Line Timing

DLP-G96 Set Up Internal Timing

NTP-G54 Provision and Verify a DWDM Network

DLP-G99 Create a Provisionable Patchcord

NTP-G56 Verify the OSNR

NTP-G142 Perform a Protection Switch Test

NTP-G57 Create a Logical Network Map


Turn Up Network


This chapter explains how to turn up and test a Cisco ONS 15454 dense wavelength division multiplexing (DWDM) network. For DWDM topology reference information and span loss tables, see Chapter 17, "Network Reference."

There are two main DWDM network types, metro core, where the channel power is equalized and dispersion compensation is applied, and metro access, where the channels are not equalized and dispersion compensation is not applied. The DWDM network topologies supported are hubbed rings, multihubbed rings, meshed rings, linear configurations, and single-span links. The DWDM node types supported are hub, terminal, optical add/drop multiplexing (OADM), reconfigurable optical add/drop multiplexing (ROADM) anti-amplified spontaneous emissions (ASE), and line amplifier. For DWDM and hybrid node turn up procedures, see Chapter 3, "Turn Up a Node."


Note Unless otherwise specified, "ONS 15454" refers to both ANSI and ETSI shelf assemblies.


Before You Begin

This section lists the chapter procedures (NTPs). Turn to a procedure for applicable tasks (DLPs).

1. G51 Verify DWDM Node Turn Up—Complete this procedure before beginning network turn up.

2. G52 Verify Node-to-Node Connections—Complete this procedure next.

3. G53 Set Up Timing—Complete this procedure next.

4. G54 Provision and Verify a DWDM Network—Complete this procedure next.

5. G56 Verify the OSNR—Complete as needed.

6. G57 Create a Logical Network Map—Complete as needed.

NTP-G51 Verify DWDM Node Turn Up

Purpose

This procedure verifies that each ONS 15454 is ready for DWDM network turn up before adding nodes to a network. This procedure applies to all ROADM, OADM, or line amplifier locations.

Tools/Equipment

None

Prerequisite Procedures

Chapter 3, "Turn Up a Node"

Required/As Needed

Required

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 Log into an ONS 15454 on the network that you will test. See the "DLP-G46 Log into CTC" task on page 2-24. If you are already logged in, proceed to Step 2.

Step 2 Click the Alarms tab.

a. Verify that the alarm filter is not turned on. See the "DLP-G128 Disable Alarm Filtering" task on page 8-27 as necessary.

b. Verify that no equipment (EQPT) alarms appear. If equipment failure alarms appear, investigate and resolve them before continuing. Refer to the Cisco ONS 15454 Troubleshooting Guide or the Cisco ONS 15454 SDH Troubleshooting Guide for procedures.

Step 3 Verify that the software version shown in the node view status area matches your site plan. (The status area is located to the left of the shelf graphic.) If the software is not the correct version, install the correct version from the ONS 15454 software CD. Upgrade procedures are located in the release-specific software upgrade document. Follow the upgrade procedures appropriate to the software currently installed on the node. TCC2/TCC2P cards can also be ordered with the latest software release.

Step 4 Click the Provisioning > General tabs. Verify that all general node information settings are correct according to documentation provided by the network administrator. If not, see the "NTP-G80 Change Node Management Information" procedure on page 10-6.

Step 5 Click the Provisioning > Network tabs. Ensure that the IP settings and other Cisco Transport Controller (CTC) network access information is correct according to documentation provided by the network administrator. If not, see the "NTP-G81 Change CTC Network Access" procedure on page 10-9.

Step 6 Click the Provisioning > Protection tabs. Verify that all required protection groups have been created according to documentation provided by the network administrator. If not, see the "NTP-G33 Create a Y-Cable Protection Group" procedure on page 3-36 or the "NTP-G83 Modify or Delete Card Protection Settings" procedure on page 10-21.

Step 7 Click the Provisioning > Security tabs. Verify that all users have been created and that their security levels are correct according to documentation provided by the network administrator. If not, see the "NTP-G88 Modify Users and Change Security" procedure on page 10-35.

Step 8 If Simple Network Management Protocol (SNMP) is provisioned on the node, click the Provisioning > SNMP tabs. Verify that all SNMP settings are correct according to documentation provided by the network administrator. If not, see the "NTP-G89 Change SNMP Settings" procedure on page 10-46.

Step 9 Repeat this procedure at each node in the network.

Stop. You have completed this procedure.


NTP-G52 Verify Node-to-Node Connections

Purpose

This procedure verifies OSC terminations between nodes and checks span attenuation. This procedure applies to all ROADM, OADM, or line amplifier locations.

Tools/Equipment

None

Prerequisite Procedures

G51 Verify DWDM Node Turn Up

Required/As Needed

Required

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 Check to see if fiber is connected to the OPT-BST or OSC-CSM LINE RX and TX ports. If yes, continue with Step 2. If not, complete the following tasks:

a. Clean the fiber using the "NTP-G115 Clean Fiber Connectors" procedure on page 12-22.

b. Install the fiber using the "DLP-G65 Install Fiber-Optic Cables for OSC Link Terminations Between Two Adjacent Nodes" task on page 3-42.

Step 2 Verify the network fiber connections:

The east Line TX and Line RX ports connect to the west Line RX and TX ports of the adjacent node.

The west Line TX and Line RX ports connect to the east Line RX and TX ports of the adjacent node.

Step 3 Complete the "DLP-G46 Log into CTC" task on page 2-24 at a network node.

Step 4 Click the Provisioning > Comm Channels > OSC tab. Verify that OSC terminations were created for the east and west OSC-CSM or OSCM cards and the port state is In-Service and Normal (IS-NR [ANSI])/Unlocked-enabled (ETSI). If so, continue with Step 5. If OSC terminations are not created, complete the "NTP-G38 Provision OSC Terminations and Ring ID" procedure on page 3-74.

Step 5 Complete the "DLP-G155 Verify Optical Span Loss Using CTC" task on page 10-2. If the measured span loss is within the minimum and maximum expected span loss values, continue with Step 6. If not, clean the fiber connected to the OPT-BST or OSC-CSM on both ends of the span, then repeat the "DLP-G155 Verify Optical Span Loss Using CTC" task on page 10-2. If the span loss is within the minimum and maximum expected span loss values, continue with Step 6. If not, contact your next level of support.

Step 6 Repeat Steps 2 through 5 at each network node.

Stop. You have completed this procedure.


NTP-G53 Set Up Timing

Purpose

This procedure provisions the ONS 15454 timing.

Tools/Equipment

None

Prerequisite Procedures

G51 Verify DWDM Node Turn Up

Required/As Needed

Required

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 Complete the "DLP-G46 Log into CTC" task on page 2-24 at the node where you will set up timing. If you are already logged in, continue with Step 2.

Step 2 Complete the "DLP-G95 Set Up External or Line Timing" task if an external building integrated timing supply (BITS) source is available. This is the common ONS 15454 timing setup procedure.

Step 3 If an external BITS source is not available, complete the "DLP-G96 Set Up Internal Timing" task. This task can only provide Stratum 3 timing.

Step 4 Repeat this procedure at each node in the network.

Stop. You have completed this procedure.


DLP-G95 Set Up External or Line Timing

Purpose

This task defines the ONS 15454 timing source (external or line).

Tools/Equipment

None

Prerequisite Procedures

DLP-G46 Log into CTC, page 2-24

Required/As Needed

Required

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 In node view, click the Provisioning > Timing > General tabs.

Step 2 In the General Timing area, complete the following information:

Timing Mode—Choose External if the ONS 15454 derives its timing from a BITS source wired to the backplane pins (ANSI) or a MIC-C/T/P FMEC (ETSI); choose Line if timing is derived from an OSC-CSM or OSCM card that is optically connected to the timing node. A third option, Mixed, allows you to set external and line timing references.


Note Because Mixed timing might cause timing loops, Cisco does not recommend its use. Use this mode with care.


SSM Message Set—For DWDM nodes, choose the Generation 2 synchronization status messaging (SSM) option. Generation 1 is used only by SONET or SDH ONS 15454s that are connected to equipment that does not support Generation 2.

Quality of RES—If your timing source supports the reserved S1 byte, set the timing quality here. (Most timing sources do not use RES.) Qualities are displayed in descending quality order as ranges. For example, ST3<RES<ST2 means the timing reference is higher than a Stratum 3 and lower than a Stratum 2. See Chapter 19, "Security and Timing Reference" for more information about SSM, including definitions of the SONET timing levels.

Revertive—Select this check box if you want the ONS 15454 to revert to a primary reference source after the conditions that caused it to switch to a secondary timing reference are corrected.

Revertive Time—If Revertive is checked, choose the amount of time the ONS 15454 will wait before reverting to its primary timing source. Five minutes is the default.

Step 3 In the Reference Lists area, complete the following information:


Note Reference Lists defines up to three timing references for the node and up to six BITS Out references. BITS Out references define the timing references used by equipment that can be attached to the node's BITS Out pins on the backplane (ANSI) or FMEC (ETSI). If you attach equipment to BITS Out pins, you normally attach it to a node with Line mode because equipment near the external timing reference can be directly wired to the reference.


NE Reference—Allows you to define three timing references (Ref 1, Ref 2, Ref 3). The node uses Reference 1 unless a failure occurs to that reference, in which case the node uses Reference 2. If Reference 2 fails, the node uses Reference 3, which is typically set to Internal Clock. Reference 3 is the Stratum 3 clock provided on the TCC2/TCC2P card. The options displayed depend on the Timing Mode setting.

If the Timing Mode is set to External, your options are BITS-1, BITS-2, and Internal Clock.

If the Timing Mode is set to Line, your options are the node's working OSCM, OSC-CSM, or MXP cards and Internal Clock. Choose the cards/ports that are directly or indirectly connected to the node wired to the BITS source. Set Reference 1 to the card that is closest to the BITS source. For example, if Slot 5 is connected to the node wired to the BITS source, choose Slot 5 as Reference 1.

If the Timing Mode is set to Mixed, both BITS and OSC or MXP cards are available, allowing you to set a mixture of external BITS and OSC or MXP cards as timing references.

BITS-1 Out/BITS-2 Out—Sets the timing references for equipment wired to the BITS Out backplane (ANSI) or FMEC (ETSI) pins. BITS-1 Out and BITS-2 Out are enabled when BITS-1 Out and BITS-2 Out facilities are put in service. If Timing Mode is set to external, choose the OSC or MXP card used to set the timing. If Timing Mode is set to Line, you can choose an OSC or MXP card or choose NE Reference to have the BITS-1 Out and/or BITS-2 Out follow the same timing references as the NE.


Note All MXP card client ports are available for timing regardless of the card's termination mode. MXP trunk ports can be a timing reference when G.709 is set to OFF and the Termination Mode is set to LINE.


Step 4 Click Apply.

Step 5 Click the BITS Facilities tab.

Step 6 In the BITS Facilities area, complete the following information:


Note The BITS Facilities section sets the parameters for your BITS-1 and BITS-2 timing references. Many of these settings are determined by the timing source manufacturer. If equipment is timed through BITS Out, you can set timing parameters to meet the requirements of the equipment.


BITS In State—If Timing Mode is set to External or Mixed, set the BITS In State for BITS-1 and/or BITS-2 to IS (in service) depending whether one or both BITS input pin pairs on the backplane (ANSI) or FMEC (ETSI) are connected to the external timing source. If Timing Mode is set to Line, set the BITS In State to OOS (out of service).

BITS Out State—If equipment is connected to the node's BITS output pins on the backplane (ANSI) or FMEC (ETSI) and you want to time the equipment from a node reference, set the BITS Out State for BITS-1 and/or BITS-2 to IS, depending on which BITS Out pins are used for the external equipment. If equipment is not attached to the BITS output pins, set the BITS Out State to OOS.

Step 7 If the BITS In State for BITS-1 and BITS-2 is set to OOS, continue with Step 3. If the BITS In State is set to IS for either BITS-1 or BITS-2, complete the following information:

Coding—Set to the coding used by your BITS reference, either B8ZS (binary 8-zero substitution) or AMI (alternate mark inversion).

Framing—Set to the framing used by your BITS reference, either ESF (Extended Super Frame) or SF (D4) (Super Frame).

Sync Messaging—Check to enable SSM. SSM is not available if Framing is set to SF (D4).

AIS Threshold—If SSM is disabled or SF (D4) is used, set the quality level where a node sends an alarm indication signal (AIS) from the BITS-1 Out and BITS-2 Out backplane (ANSI) or FMEC (ETSI) pins. An AIS is raised when the optical source for the BITS reference falls to or below the SSM quality level defined in this field.

LBO—If you are timing an external device connected to the BITS Out pins, set the distance between the device and the ONS 15454. Options are: 0-134 ft. (default), 124-266 ft., 267-399 ft., 400-533 ft., and 534-655 ft. Line build out (LBO) relates to the BITS cable length.

Step 8 Click Apply.


Note Refer to the Cisco ONS 15454 Troubleshooting Guide or the Cisco ONS 15454 SDH Troubleshooting Guide for timing-related alarms.


Step 9 Return to your originating procedure (NTP).


DLP-G96 Set Up Internal Timing

Purpose

This task sets up internal timing (Stratum 3) for an ONS 15454.

Tools/Equipment

None

Prerequisite Procedures

DLP-G46 Log into CTC, page 2-24

Required/As Needed

As needed (use only if a BITS source is not available)

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Caution Internal timing is Stratum 3 and not intended for permanent use. All ONS 15454 SONET or SDH nodes should be timed to a Stratum 2 or better primary reference source. Internal timing is appropriate for DWDM nodes.


Step 1 In node view, click the Provisioning > Timing > General tabs.

Step 2 In the General Timing area, enter the following:

Timing Mode—Set to External.

SSM Message Set—Set to Generation 1.

Quality of RES—Does not apply to internal timing.

Revertive—Does not apply to internal timing.

Revertive Time—Does not apply to internal timing.

Step 3 In the Reference Lists area, enter the following information:

NE Reference

Ref 1—Set to Internal Clock.

Ref 2—Set to Internal Clock.

Ref 3—Set to Internal Clock.

BITS-1 Out/BITS-2 Out—Set to None.

Step 4 Click Apply.

Step 5 Click the BITS Facilities tab.

Step 6 In the BITS Facilities area, change the BITS In State and BITS Out State to OOS for BITS 1 and BITS 2 Disregard the other BITS Facilities settings; they are not relevant to internal timing.

Step 7 Click Apply.

Step 8 Return to your originating procedure (NTP).


NTP-G54 Provision and Verify a DWDM Network

Purpose

This procedure verifies the performance of all cable connections and cards in a network topology. You can also use this procedure to troubleshoot any problems with DWDM network setup.

Tools/Equipment

Test set or protocol analyzer

Cisco MetroPlanner Traffic Matrix

Prerequisite Procedures

DLP-G46 Log into CTC, page 2-24

DLP-G277 Provision a Multirate PPM, page 5-3

DLP-G278 Provision the Optical Line Rate, page 5-3

NTP-G96 Modify Line Settings and PM Parameter Thresholds for TXP_MR_10G and TXP_MR_10E Cards, page 5-8

NTP-G97 Modify Line Settings and PM Parameter Thresholds for MXP_2.5G_10G and MXP_2.5G_10E Cards, page 5-25

NTP-G98 Modify Line Settings and PM Parameter Thresholds for TXP_MR_2.5G and TXPP_MR_2.5G Cards, page 5-39

NTP-G99 Modify Line Settings and PM Parameter Thresholds for MXP_MR_2.5G and MXPP_MR_2.5G Cards, page 5-53

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Step 1 Complete the "DLP-G46 Log into CTC" task on page 2-24 to log into an ONS 15454 on the network.

Step 2 Click the Alarms tab:

a. Verify that the alarm filter is not turned on. See the "DLP-G128 Disable Alarm Filtering" task on page 8-27 as necessary.

b. Verify that no equipment (EQPT) alarms appear. If equipment failure alarms appear, investigate and resolve them before continuing. Refer to the Cisco ONS 15454 Troubleshooting Guide or the Cisco ONS 15454 SDH Troubleshooting Guide for procedures.

Step 3 Using the Cisco MetroPlanner Traffic Matrix (see Table 3-1 on page 3-3) for your site, identify the first channel (ITU wavelength) to be provisioned. Use the transponder, muxponder, or line card that corresponds to the selected wavelength.

Step 4 As needed, complete the "DLP-G99 Create a Provisionable Patchcord" task. This is an optional step requiring DCC connectivity between the node and subtended client shelf or GCC connectivity between the transponders.

Step 5 Create the optical channels at all sites according to the Cisco MetroPlanner Traffic Matrix. Complete the "DLP-G105 Provision DWDM Optical Channel Network Connections" task on page 7-10.


Note The amplifiers automatically calculate the optical output power to maintain a constant power level on each channel every time a channel is created on the DWDM network. Automatic power control (APC) also starts every 60 minutes. If the span length changes, APC modifies amplifier gains and express variable optical attenuation (VOA). For more information about APC, see the "17.4  Automatic Power Control" section on page 17-17.


Step 6 Select one of the nodes and go to node view.

Step 7 If an OPT-PRE is installed, complete the following steps. If not, continue with Step 8.

a. Display the OPT-PRE card in card view.

b. Click the Provisioning > Opt.Ampli.Line > Parameters tabs.

c. Locate the Port 2 Signal Output Power. Verify that this value is equal to or higher than the Channel Power Ref value, which you can view by scrolling to the right. If so, continue with Step d. If the value is lower, contact your next level of support.


Note If the OPT-PRE is not carrying traffic, the values will not match.


d. Repeat Steps a through c for the second OPT-PRE, if one is installed. If not, continue with Step 8.

Step 8 If an OPT-BST is installed, complete the following steps. If not, continue with Step 9.

a. Display the OPT-BST card in card view.

b. Click the Provisioning > Opt.Ampli.Line > Parameters tabs.

c. Locate the Port 6 Signal Output Power. Verify that this value is equal to or higher than the Channel Power Ref value, which you can view by scrolling to the right. If so, continue with Step d. If the value is lower, contact your next level of support.


Note If the OPT-BST is not carrying traffic, the values will not match.


d. Repeat Steps a through c for the second OPT-BST, if one is installed. If not, continue with Step 9.

Step 9 If the node is a fixed OADM with AD-xC-xx.x or AD-xB-xx.x cards installed with a new circuit carrying traffic for the first time, complete one of the procedures. If not, continue with Step 10.

If the circuit is terminated inside the node, change to node view and click the Provisioning > WDM-ANS > Provisioning tabs. In the Selector area, click West Pin field and then Pin AD Stage. Verify that the value matches the value for the first OADM card in your circuit heading west to east shown in the COM RX port, ±2 dB. If the values are outside of the error margins, contact your next level of support.

If the circuit passes through the node, change to node view and click the Provisioning > WDM-ANS > Provisioning tabs. Click West Pin field and then Pin AD Stage. Verify that the value matches the value for the first OADM card in your circuit heading west to east shown in the COM RX port, ±2 dB. Click East Pin and Pout AD Stage. Verify the value matches the value for the first OADM card in your circuit heading west to east shown in the COM TX port, ±1 dB. If the values are outside of the error margins, contact your next level of support.

If the circuit starts from the node, change to node view and click the Provisioning > WDM-ANS > Provisioning tabs. Click East Pin field and then Pin AD Stage. Verify the value matches the value for the first OADM card in your circuit heading west to east shown in the COM TX port, ±1 dB. If the values are outside of the error margins, contact your next level of support.

Step 10 Check the received power range:

a. Navigate to the node where the first TXP, MXP, or line card is installed

b. Display the TXP, MXP, or line card in card view.

c. Complete the "DLP-G136 Clear Selected PM Counts" task on page 9-6.

d. Click the Performance > Optics PM tab.

e. Record the values shown in the RX Optical Pwr field.

f. Click the Provisioning > Optics Thresholds tabs.

g. Verify that the value in Step e falls between the values shown for the RX Power High and RX Power Low. If so, continue with Step 11. If not, complete one of the following.

Power lower than range—clean the trunk fiber at the patch panel and on the TXP or MXP and repeat Steps e through g. If the power is still too low, contact your next level of support.

Power higher than range—add attenuation to the fiber and repeat Steps e through g.

Step 11 Perform a short-term bit error rate (BER) test:

a. Complete the "DLP-G136 Clear Selected PM Counts" task on page 9-6 for the transponder, muxponder, or line card.

b. Display the TXP, MXP, or line card in card view.

c. Click the Performance > Payload PM tabs, or, if OTN is provisioned, the Performance > OTN PM tabs.

d. Perform a short-term BER test using a test signal from a test set or protocol analyzer.

e. Monitor the payload PM for at least 10 minutes for errors.


Note To see an accurate performance monitoring count, the BER test results must be consistent with the transmitted bit rate for at least 10 minutes.



Note For information about using a test set or protocol analyzer, refer to the test set or protocol analyzer user guide.


Step 12 Repeat Steps 7 through 11 for all sites that have add/drop traffic.

Step 13 If a node fails any test, repeat the test after verifying correct setup and configuration. If the test fails again, refer to the next level of support.

After all tests are successfully completed and no alarms exist in the network, the network is ready for service.

Stop. You have completed this procedure.


DLP-G99 Create a Provisionable Patchcord

Purpose

This task creates a provisionable patchcord, also called a virtual link. They appear as dashed lines in CTC network view.

For the specific situations in which a patchcord is necessary, see the "20.3  Provisionable Patchcords" section on page 20-22.

Tools/Equipment

OC-N, transponder/muxponder, optical add/drop multiplexer, and multiplexer/demultiplexer cards

Prerequisite Procedures

DLP-G46 Log into CTC, page 2-24

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Provisioning or higher



Note This task requires DCC connectivity between the node and subtended client shelves or GCC connectivity between the transponders. To provision DCC/GCC, perform the "DLP-G76 Provision GCC Terminations" task on page 7-13.



Note An optical port requires two patchcords when the remote end is Y-cable protected or is an add/drop multiplexer or multiplexer/demultiplexer port.



Step 1 In node view, click the Provisioning > Comm Channels > PPC tabs. If you are in network view, click the Provisioning > Provisionable Patchcords tabs.

Step 2 Click Create. The Provisionable Patchcord dialog box appears.

Step 3 In the Origination Node area, complete the following:

a. If you are in node view, the Origination Node defaults to the current node. If you are in network view, click the desired origination node from the drop-down list.

b. Type a patchcord identifier (0 through 32767) in the TX and RX ID fields.

c. Click the desired origination slot/port from the list of available slots/ports.

Step 4 In the Termination Node area, complete the following:

a. Click the desired termination node from the drop-down list. If the remote node has not previously been discovered by CTC but is accessible by CTC, type the name of the remote node.

b. Type a patchcord identifier (0 through 32767) in the TX and RX ID fields. The origination and termination IDs must be different if the patchcord is set up between two cards on the same node.

c. Click the desired termination slot/port from the list of available slots/ports. The origination port and the termination port must be different.

Step 5 If you need to provision transmit and receive separately for multiplexer/demultiplexer cards, check the Separate Tx/Rx check box. If not, continue with Step 6. The origination and termination TX ports are already provisioned. Complete the following to provision the RX ports:

a. In the Origination Node area, type a patchcord identifier (0 through 32767) in the RX ID field. The origination Tx and Rx and termination Tx and Rx IDs must be different.

b. Click the desired origination slot/port from the list of available slots/ports.

c. In the Termination Node area, type a patchcord identifier (0 through 32767) in the RX ID field. The origination Tx and Rx and termination Tx and Rx IDs must be different.

d. Click the desired termination slot/port from the list of available slots/ports.

Step 6 Click OK.

Step 7 If you provisioned a patchcord on a port in a 1+1 protection group, a dialog box appears to ask if you would like to provision the peer patchcord. Click Yes. Repeat Steps 3 through 6.

Step 8 Return to your originating procedure (NTP).


NTP-G56 Verify the OSNR

Purpose

This procedure verifies the OSNR. The OSNR is the ratio between the signal power level and the noise power level.

Tools/Equipment

Optical spectrum analyzer

Prerequisite Procedures

DLP-G46 Log into CTC, page 2-24

Required/As Needed

As needed

Onsite/Remote

Onsite

Security Level

Provisioning or higher



Step 1 Complete the "DLP-G46 Log into CTC" task on page 2-24 at an ONS 15454 on the network.

Step 2 Using an optical spectrum analyzer, check the received OSNR for each transmitted channel on both ends of the span. Identify the last OSC-CSM, OPT-PRE, or OPT-BST MON port before the channel is dropped. If OPT-PRE cards are installed with an OPT-BST or OSC-CSM card, use the OPT-PRE MON port.


Note For OSNR values for each card class, refer to Chapter 15, "Card Reference."


Step 3 If the OSNR is too low, check the following, depending on your node configuration:


Note The purpose of this step is not to improve the signal-to-noise ratio (SNR), but to match the per-channel power level within the receive (RX) port power range.


Check the fiber connections between the OPT-BST amplifier or the OSC-CSM and the OPT-PRE amplifier and if needed, clean the connectors. See the "NTP-G115 Clean Fiber Connectors" procedure on page 12-22.

On the near-end OPT-BST amplifier, check the equalization of the added channels at the monitor output.

On the OPT-PRE amplifier, check the output power on both COM TX and DC TX ports.

On the far-end OPT-PRE amplifier, check the amplifier gain tilt at the monitor output.

If the OSNR is still too low, contact your next level of support.

Step 4 Repeat Steps 2 and 3 for all traffic in the network.

Stop. You have completed this procedure.


NTP-G142 Perform a Protection Switch Test

Purpose

This procedure tests the optical path, client transponders, and Y-cable protection groups in your system for proper operation. The test signals might be generated by either the actual client device or a test set, whichever is available. Cisco recommends that you repeat this test at each node in the network where protection group traffic is dropped.

Tools/Equipment

A list of protection groups. This information is provided in the Cisco MetroPlanner Traffic Matrix

A test set or actual client device that provides the required payload for the circuits that are provisioned.

Prerequisite Procedures

 

Required/As Needed

As needed

Onsite/Remote

Onsite; personnel are required onsite at each end of the circuit under test.

Security Level

Provisioning or higher



Step 1 Complete the "DLP-G46 Log into CTC" task on page 2-24 at an ONS 15454 on the network.

Step 2 Identify the Y-cable circuit to be tested by viewing the Traffic Matrix for your site. Locate the transponders in the ONS 15454 node that will be used for the protection group.

Step 3 Verify that the Y-cable protection group is provisioned:

a. In node view, click the Provisioning > Protection tabs.

b. In the Protect and Working column headings area, confirm the correct transponders are in the Y-cable protection group by viewing the slot number and card type.

c. If the required protection group is not provisioned, stop and perform "NTP-G33 Create a Y-Cable Protection Group" procedure on page 3-36. Otherwise continue with Step 4.

Step 4 Repeat Step 3 for each Y-cable protection group at this node. When all protection groups are verified, proceed to Step 5.

Step 5 Physically connect the transmitter of the client or test set to either Port 10 or Port 12 of the Y-cable module protecting the circuit under test. (See Table 3-5 on page 3-69 and Table 3-6 on page 3-70.)

Step 6 If you connected the transmitter to Port 10, connect the client or test set receiver to Port 5 on the Y-cable module. If not, connect the client or test set receiver to Port 11 of the Y-cable module.

Step 7 At the far-end site for the circuit under test, physically loop the Y-cable module as follows:

a. If this is the first client on the Y-cable module, loop Port 10 to Port 5 on the far end Y-cable module.

b. If this is the second client on the Y-cable module, loop Ports 11 and 12 on the far end Y-cable module.

Step 8 At the near-end site for the circuit under test, place the client device or test set into service and begin transmitting the required payload.

Step 9 In CTC, display the near-end site in node view.

Step 10 Click the Maintenance > Protection tabs ( Figure 6-1).

Figure 6-1 Maintenance > Protection Tabs

Step 11 In the Protection Groups area, highlight the protection group to be tested.

Step 12 In the Selected Group area, identify the slot that is Active and the slot that is Standby.

Step 13 Verify the LED display on the physical cards in the shelf match the following:

a. For the Active TXP card, record the slot number_____. Verify the port LEDs below:

DWDM port is green.

Client port is green.

b. For the Standby TXP card, record the slot number_____. Verify port LEDs below:

DWDM Port is green.

Client Port is not illuminated.

Step 14 In the Selected Group area highlight the Active transponder slot.

Step 15 From the Switch Commands area below the selected group area, click Manual, then click YES.

Step 16 From the Selected Group area, record the following information and verify the active and standby transponder slots are the opposite of Step 13.

Active TXP card slot number_____

Standby TXP card slot number_____

Step 17 Verify the LED display on the physical cards in the shelf match the following:

a. Active transponder slot LEDs:

DWDM port is green.

Client port is green.

b. For the Standby transponder slot LEDs:

DWDM Port is green.

Client Port is not illuminated.

Step 18 Confirm the client or test set at the local site is operating normally with no alarms. If the test set is reporting active alarms, contact your next level of support. (Note: It is normal to see a traffic hit on the test set during a protection switch)

Step 19 From the Switch Commands area below the selected group area, click Clear, then click YES to return the protection group to the original state.

Step 20 Repeat Steps 5 through 19, for each protection group at your site.

Stop. You have completed this procedure.


NTP-G57 Create a Logical Network Map

Purpose

This procedure allows a Superuser to create a consistent network view for all nodes on the network.

Tools

None

Prerequisite Procedures

This procedure assumes that network turn up is complete.

Required/As Needed

As needed

Onsite/Remote

Onsite or remote

Security Level

Superuser



Step 1 Complete the "DLP-G46 Log into CTC" task on page 2-24 at a node on the network where you want to create the network map. If you are already logged in, continue with Step 2.

Step 2 From the View menu, choose Go to Network View.

Step 3 Change the position of the nodes in the network view according to your site plan.

a. Click a node to select it, then press the Ctrl key while you drag and drop a node icon to a new location.

b. Repeat Step a for each node you need to position.

Step 4 On the network view map, right-click and choose Save Node Position.

Step 5 Click Yes in the Save Node Position dialog box.

CTC opens a progress bar and saves the new node positions.


Note Retrieve, Provisioning, and Maintenance users can move nodes on the network map, but only Superusers can save new network map configurations. To restore the view to a previously saved version of the network map, right-click on the network view map and choose Reset Node Position.


Stop. You have completed this procedure.



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Posted: Tue Oct 9 08:51:33 PDT 2007
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