System test procedures

This chapter covers the system level testing procedure to perform on the cards supported on the node.

18.1 Testing HCPULine01 Card

This procedure helps you to perform the traffic interface testing on HCPULine01 card.

18.1.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.1.2 Procedure for testing STM-1/4/16 interfaces

Perform the following steps for testing traffic on STM-1/4/16 interfaces of HCPULine01 card:

NOTE: With HCPXCC03 and HCPXCC04 cross connect cards, all 20 ports of HCPULine01 card supports STM-1/4 rate while STM-16 is supported only on ports 1, 5, 6, 10, 11, 15, 16, and 20.

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPULine01 card in supported slot.

3. Log in to the node WUI and configure the card in Reconfigurable mode.

4. Connect the transmit (Tx) and the receive (Rx) of Test Set to the Rx and Tx of port P1 respectively on HCPULine01 card. Connect the Tx and Rx of port P2 to Rx and Tx of port P4 respectively. Similarly, connect ports P3 and P5, P6 and P8, P7 and P9, P10 and P12, P11 and P13, P14 and P16, P15 and P17, P18 and P19. Provide a physical loopback on the port P20.

An illustrative diagram for the setup is as follows.

Figure 308: Setup for Testing STM-1-4 Interfaces on HCPULine01 Card Setup for testing STM-1/4 interfaces

NOTE: For testing STM-16 capacity ports, connect the Test Set to P1 and provide the loopback on P20. For remaining ports, connect optical cables between P5 and P6, P10 and P11, P15 and P16.

5. In the node UI, perform the following steps:

a. Do the suitable step of the following:

— To test STM-1/4 capacity, set all interfaces to STM-1/4 capacity. Go to Inventory > Node Inventory in the navigation pane on the node GUI and click the Slot number link corresponding to HCPULine01 card. HCPULine01 Port Group Card page appears. Click PortGroups link and configure all four Port Groups in 5xSTM-1/4 configuration.

— To test STM-16 capacity, set the supported port to STM-16 capacity. Go to Inventory > Node Inventory in the navigation pane on the node GUI and click the Slot number link corresponding to HCPULine01 card.The HCPULine01 Port Group Card page appears. Click PortGroups link and configure all four Port Groups in 2xSTM-16 configuration.

b. Go to Configuration > Cross-Connect. The Configure Cross-connects page appears. Click Add Cross-connect and provision a cross connect of VC4 capacity with Source Port as STM-1/4 port P1 and Destination Port as STM-1/4 port P2. Similarly, create other cross connects as mentioned in the following Cross-connects provisioning table.

Table 16: Cross connects provisioning
Port capacity	Cross connects on ports
STM-1/4	P1 and P2
	P3 and P4
	P5 and P6
	P7 and P8
	P9 and P10
	P11 and P12
	P13 and P14
	P15 and P16
	P17 and P18
	P19 and P20
STM-16	P1 and P5
	P6 and P10
	P11 and P15
	P16 and P20

6. Feed and monitor the STM-1/4/16 traffic from the Test Set to the HCPULine01 card. Verify that no packets are lost.

7. Record the result in Test Performance for HCPULine01 card. The result verifies that all the optical ports are functioning correctly.

18.1.3 Procedure for testing GIGE interfaces of HCPULine01 in EoS mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPULine01 and HCPSLine01 card in supported slots.

3. Connect Ethernet test set to port P1 of HCPULine01 card. The test set up is as shown in the following figure Setup for Testing HCPULine01 - GIGE Ports in EoS Mode.

4. Connect optical cables between P2-P3, P4-P6, P7-P8, P9-P11, P12-P13, P14-P16, P17-P18, and terminal loopback for P19 of HCPULine01 card.

5. Connect optical cables between ports STM-P1 and STM-P2 of HCPSLine01 card.

Figure 309: Setup for Testing HCPULine01 - GIGE Ports in EoS Mode

6. Set the supported port groups of HCPULine01 to 4xGIGE capacity. Go to Inventory > Node Inventory in the navigation pane on the node GUI and Click the Slot number link corresponding to HCPULine01 card. The HCPULine01 Port Group Card page appears. Click PortGroups link and configure all four Port Groups in 4xGIGE configuration.

7. Perform port admin-up for the following ports of HCPULine01 card: P1, P2, P3, P4, P6, P7, P8, P9, P11, P12, P13, P14, P16, P17, P18, and P19.

8. Perform port admin-up for the following ports of HCPSLine01 Card: STM-P1 and STM-P2.

9. Add VC's of port STM-P1 and STM-P2 of HCPSLine01 card to the respective port VCG group. To configure and provision VCG ports refer to Configuring VCG Ports and Adding New VC To VCG. The following table gives the VCG association with the port STM-P1 and STM-P2 of HCPSLine01 card.

10. Feed and monitor the Ethernet traffic from the Test Set to the HCPULine01 card. Verify that the no packets are lost.

11. Record the result in Test Performance for HCPULine01 card. The result verifies that all the optical ports are functioning correctly.

Table 17: VCG Association
Port Number	VCG	STM#
P1	101	1 (P1)
P2	102	1 (P2)
P3	103	2 (P1)
P4	104	2 (P2)
P6	106	3 (P1)
P7	107	3 (P2)
P8	108	4 (P1)
P9	109	4 (P2)
P11	111	5 (P1)
P12	112	5 (P2)
P13	113	6 (P1)
P14	114	6 (P2)
P16	116	7 (P1)
P17	117	7 (P2)
P18	118	8 (P1)
P19	119	8 (P2)

Table 18: Test Performance - HCPULine01 Card
Port Number	Result
Port Number	STM-1	STM-4	STM-16	GIGE
P1
P2			Not Applicable
P3			Not Applicable
P4			Not Applicable
P5				Not Applicable
P6
P7			Not Applicable
P8			Not Applicable
P9			Not Applicable
P10				Not Applicable
P11
P12			Not Applicable
P13			Not Applicable
P14			Not Applicable
P15				Not Applicable
P16
P17			Not Applicable
P18			Not Applicable
P19			Not Applicable
P20				Not Applicable

18.2 Testing HCPSLine01 Card

This procedure helps you to perform the testing traffic on interfaces of HCPSLine01.

18.2.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.2.2 Procedure for testing STM-64 interfaces

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine01 card in supported slot.

3. Connect test set to port P1. The test set up is as shown in the following figure:

4. Connect terminal loopback at port P2 of HCPSLine01 card.

Figure 310: Setup for testing STM-64 interfaces

5. In the node UI,

a. Go to Inventory > Node Inventory in the navigation pane and click the Slot number link corresponding to HCPSLine01 card. The HCPSLine01 Aggregate Card page appears. Click Configure STM64/Ethernet mode link and select the port configuration as 2xSTM-64.

b. Admin-up the interfaces P1 and P2 of HCPSLine01 card.

c. Create a cross connect between interface P1 and P2 of VC4_64C capacity. Go to Configuration > Cross-Connect, the configure cross-connects page appears. Click Add Cross-connect and provision a cross connect of VC4_64c capacity with source port as P1 and destination port as P2.

6. Feed and monitor the STM-64 traffic from the Test Set to the HCPSLine01 card. Verify that the no frames are lost.

7. Record the result in Test Performance - HCPSLine01 card. The result verifies that all the optical ports are functioning correctly.

Table 19: Test Performance - HCPSLine01 Card
Port Number	Result
P1
P2

18.2.3 Procedure for testing in EoS mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine01 card in supported slot.

3. Connect test set to port P1. The test set up is as shown in the following figure.

4. Connect terminal loopback at port P2 of HCPSLine01 card.

Figure 311: Setup for Testing HCPSLine01 Card in EoS mode Setup for testing in EoS mode

5. In the node UI,

a. Go to Inventory > Node Inventory in the navigation pane and click the slot number link corresponding to HCPSLine01 card. The HCPSLine01 Aggregate Card page appears. Click Configure STM64/Ethernet mode link and select the port configuration as 1x10GIGE + 1xSTM-64.

b. Admin-up the interfaces P1 and P2 of HCPSLine01 Card.

c. Add VC's of interface P2 to the interface P1 VCG group (VCG1-<slot number>-101). To configure and provision VCG interfaces refer Configuring VCG Ports and Adding New VC To VCG.

6. Feed and monitor the Ethernet traffic from the Test Set to the HCPSLine01 card. Verify that the no packets are lost.

7. Record the result in Test Performance for HCPSLine01 card. The result verifies that all the optical ports are functioning correctly.

Table 20: Test Performance - HCPSLine01 Card
Port Number	Result
P1
P2

18.3 Test HCPSLine03 card

This procedure helps you perform the testing traffic on interfaces of HCPSLine03 card.

18.3.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.3.2 Procedure for testing in SDH GATEWAY card mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine03 card in supported slot.

3. Connect the Test Set to the port P1 of HCPSLine03 card as shown in the set up below.

4. Connect optical fiber between ports P3 and P4.

5. Connect Loopback at port P2.

The overall setup diagram is as follows:

Figure 312: Setup for Testing HCPSLine03 Card in SDH Gateway SDH FEC Mode Setup for testing in SDH Gateway/SDH FEC mode

6. In the node UI, perform the following steps:

a. Configure HCPSLine03 in SDH GATEWAY Card mode.

Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine03 card.The HCPSLine03 Aggregate Card page appears. Click Configure Card and select Card Configuration as SDH GATEWAY Card or SDH FEC Card from the drop down menu.

NOTE: If the card configuration is selected as SDH FEC Card, then enable FEC on ports.

b. Admin-up the interfaces on HCPSLine03 Card.

c. Provision cross-connects between interfaces P1 and P3, between interfaces P2 and P4.

Go to Configuration > Cross-Connect, the Configure Cross-connects page appears. Click Add Cross-connect and provision a cross connect of VC4_64c capacity with Source Port as P1 and Destination Port as P3. Similarly, create other cross-connects of VC4_64c capacity with Source Port as P2 and Destination Port as P4.

7. Feed the STM-64 traffic from the Test Set to interface P1 on HCPSLine03 card.

8. Monitor the traffic on Test Set and verify that there are no frame drops in the traffic feed.

9. Record the result in Test Performance- HCPSLine03 card. The result verifies that all the optical ports are functioning correctly.

18.3.3 Testing Procedure in OTN FlexiCard Mode

Follow this procedure to test the HCPSLine03 card:

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine03 card in supported slot.

3. Connect the test set to the port P1.

4. Loopback at port P2.

5. Connect optical fiber cables between ports, P3 and P4.

The overall setup is shown in the following diagram.

Figure 313: Setup for Testing HCPSLine03 Card in OTN FlexiCard Mode

6. In the node UI, go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine03 card, HCPSLine03 Aggregate Card page appears. Perform the following steps on this page:

— Configure card in OTN FlexiCard mode. Click Configure Card and select OTN FlexiCard under the drop down menu of Card Configuration. Click Submit and accept modifications.

— Configure ports P1 and P2 to STM-64 and ports P3 and P4 to OTU2. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

— Configure the ports P1 and P2 in Timing-Transparent-Mapped to ODU. Click Ports, and Click port P1. Select Timing-Transparent-Mapped to ODU under the drop down menu of Timing Transparent Mode parameter. Similarly configure for port P2. Click Submit and accept modifications.

7. In the node UI create ODU connections between the ports P1 to P3 and P2 to P4. Go to OTN > ODU Connections and Click Create New Connection. Select Capacity as ODU2, enter the name of Circuit Identifier, Directionality as 2WAY, Source ODU as port P1 (ODU2k-<Chassis>-<slot>-<port>-0) and Destination ODU as port P3 (ODU2k-<Chassis>-<slot>-<port>-0). Similarly create ODU connections between port P2 and port P4. Click Submit and accept modifications.

8. Feed the STM-64/OC-192 traffic from the Test set to the port P1

9. Monitor the Rx signal at port P1. Verify that no frames are lost.

10. Record the result in Test Performance for HCPSLine03 card. The result verifies that all the optical ports are functioning correctly.

Table 21: Test performance- HCPSLine03 card
Port Number	Result
Port Number	STM-64	OTU2
P1		Not Applicable
P2		Not Applicable
P3	Not Applicable
P4	Not Applicable

18.3.4 Testing Procedure in IntraCard transponder mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine03 card in supported slot.

3. Connect the test set to the port P1.

4. Loopback at port P2.

5. Connect optical fiber cables between ports P3 and P4.

The overall setup is shown in the following diagram.

Figure 314: Setup for Testing HCPSLine03 Card in Intra Card TRANS MUXPONDER Mode Setup for testing in IntraCard TRANS/MUXPONDER mode

6. In the node UI, perform the following steps:

a. Go to Inventory > Node Inventory in the navigation pane and click the slot number link corresponding to HCPSLine03 card, the HCPSLine03 Aggregate Card page appears. Perform the following steps on this page:

— Configure card in IntraCard TRANS/MUXPONDER mode. Click Configure Card and select IntraCard TRANS/MUXPONDER under the drop down menu of Card Configuration. Click Submit and accept modifications.

— Configure interface P1 and P2 to STM-64/10GE-LAN, P3 and P4 to OTU2/OTU2e. Click Ports Configuration and select the desired configuration for each interface. Click Submit and accept modifications.

NOTE: If the interfaces P1 and P2 are configured to STM-64, configure interfaces P3 and P4 to OTU2. If the interfaces P1and P2 are configured to 10GE-LAN, configure interfaces P3 and P4 to OTU2e.

b. Admin up all the interfaces.

c. Create Transponder configuration.

Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link. Select the Type as transponder option from the drop down menu, The Network Port as OTU2/OTU2e, and Client Port as STM-64/ETH respectively.

7. Feed the STM-64/10GE traffic from the Test set to the interface P1.

8. Monitor the Rx signal at interface P1. Verify that no frames are lost.

9. Record the result in Test Performance - HCPSLine03 card. The result verifies that all the optical ports are functioning correctly.

Table 22: Test Performance- HCPSLine03 Card
Port Number	Result
P1
P2
P3
P4

18.4 Test HCPSLine08 card

This procedure helps you to perform the testing traffic on interfaces of HCPSLine08 card.

18.4.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.4.2 Procedure for Testing in SDH Gateway card mode

Follow this procedure to test the HCPSLine08 card:

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine08 card in supported slot.

3. Connect the Test set to the port P3.

4. Loopback at port P1 and P2.

5. Connect optical fiber cables between ports.

The overall setup is as follows:

Figure 315: Setup for Testing HCPSLine08 Card in SDH Gateway Card mode Setup for testing in SDH Gateway card mode

6. In the node UI, perform the following steps:

a. Configure HCPSLine08 card in SDH GATEWAY Card mode.

Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine08 card. HCPSLine08 Aggregate Card page appears. Click Configure Card and Select SDH GATEWAY Card under the drop down menu of Card Configuration.

b. Admin Up the required ports.

c. Provision bulk cross-connects (that is 16 cross-connects) between interfaces P1 and P3.

Go to Configuration > Cross-Connect. The Configure Cross-connects page appears. Click Add Cross-connect, Add Cross-connects page appears. Enter the value of Number of Connections as 16 and provision a cross connect of VC4 capacity with 'Source Port' as P3 and 'Destination Port' as P1. Similarly, create other cross-connects as mentioned in the Cross-connects Provisioning- HCPSLine08 (SDH GATEWAY Card) table below.

7. Feed the STM-16/OC-48 traffic from the Test set to the interface P3 of HCPSLine08 card.

8. Monitor the Rx signal from interface P10 of HCPSLine08 card. Verify that the no frames are lost.

9. Record the result in Test Performance - HCPSLine08 card. The result verifies that all the optical ports are functioning correctly.

Table 23: Cross-connects Provisioning - HCPSLine08 (SDH GATEWAY Card)
Cross-Connects on Ports	STM#
P1 and P3	1-16
P1 and P4	17-32
P1 and P5	33-48
P1 and P6	49-64
P2 and P7	1-16
P2 and P8	17-32
P2 and P9	33-48
P2 and P10	49-64

Table 24: Test Performance- HCPSLine08 Card
Port Number	Result
Port Number	STM-64/OC-192	STM-16/OC-48
P1		Not Applicable
P2		Not Applicable
P3	Not Applicable
P4	Not Applicable
P5	Not Applicable
P6	Not Applicable
P7	Not Applicable
P8	Not Applicable
P9	Not Applicable
P10	Not Applicable

18.4.3 Procedure for Testing in OTN FlexiCard mode

Follow this procedure to test the HCPSLine08 card;

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine08 card in supported slot.

NOTE: For more details, refer to TJ1600 R5.4.3.2 Hardware Description Guide, TPN: 170-DOC000154-E.

3. Connect the Ethernet test set to the port P3.

4. Connect optical fiber cables between ports P1-P2, P4-P5, P6-P7, P8-P9, P10-P11, P12-P13, P14-P15, and P16-P17.

5. Loopback at port P18.

The overall setup is shown in the following figure:

Figure 316: Setup for testing in OTN Configuration

Setup for Testing HCPSLine08 Card in OTN Configuration

6. In the node UI, perform following steps:

a. Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine08 card.The HCPSLine08 Aggregate Card page appears. On this page perform following configurations:

1. Configure card in OTN FlexiCard mode. Click Configure Card and select OTN FlexiCard under the drop down menu of Card Configuration. Click Submit and accept modifications.

2. Configure ports P1 and P2 to OTU2 and ports P3 to P18 to GE. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

3. Admin Up the required ports.

4. Configure the ports P3 to P18 in Timing-Transparent-Mapped to ODU. Click Ports, and click port P3. Select Timing-Transparent-Mapped to ODU under the drop down menu of Timing Transparent Mode parameter. Similarly configure for other ports also.

5. Create eight channels for each port of P1 and P2 with bit rate of ODU0. Click Ports, and Click port P1. Click ODU2k-1-2-1-0 and then click Create channel. Select bit rate as ODU0 and select one Source Tributary Slot and one Sink Tributary Slot for each channel. Similarly, create eight channels for port P2 also.

b. Create ODU connections between the SDH ports (P3 to P10) and OTU ports (P1 and P2). Go to OTN > ODU Connections and Click Create New Connection. Select Capacity as ODU0, enter the name of Circuit Identifier, Directionality as 2WAY, Source ODU and Destination ODU for eight ODU connections is provided in the table ODU Connections.

NOTE: For more details on configuring card or ODU connections, refer to TJ1600 Product Family User Interface Guide.

7. Feed the Ethernet traffic from the test set to the port P3.

8. Monitor the Rx signal at port P3. Verify that no frames are lost.

9. Record the result in Test Performance - HCPSLine08 card. The result verifies that all the optical ports are functioning correctly.

Table 25: ODU connections
ODU Connection	Source ODU	Destination ODU
P3 to P1	ODU0k-1-2-3-0	ODU0j-1-2-1-1
P4 to P2	ODU0k-1-2-4-0	ODU0j-1-2-2-1
P5 to P1	ODU0k-1-2-5-0	ODU0j-1-2-1-2
P6 to P2	ODU0k-1-2-6-0	ODU0j-1-2-2-2
P7 to P1	ODU0k-1-2-7-0	ODU0j-1-2-1-3
P8 to P2	ODU0k-1-2-8-0	ODU0j-1-2-2-3
P9 to P1	ODU0k-1-2-9-0	ODU0j-1-2-1-4
P10 to P2	ODU0k-1-2-10-0	ODU0j-1-2-2-4
P11 to P1	ODU0k-1-2-11-0	ODU0j-1-2-1-5
P12 to P2	ODU0k-1-2-12-0	ODU0j-1-2-2-5
P13 to P1	ODU0k-1-2-13-0	ODU0j-1-2-1-6
P14 to P2	ODU0k-1-2-14-0	ODU0j-1-2-2-6
P15 to P1	ODU0k-1-2-15-0	ODU0j-1-2-1-7
P16 to P2	ODU0k-1-2-16-0	ODU0j-1-2-2-7
P17 to P1	ODU0k-1-2-17-0	ODU0j-1-2-1-8
P18 to P2	ODU0k-1-2-18-0	ODU0j-1-2-2-8

Table 26: Test Performance- HCPSLine08 Card
Port Number	Result
STM-16		OTU2
P1	Not Applicable
P2	Not Applicable
P3		Not Applicable
P4		Not Applicable
P5		Not Applicable
P6		Not Applicable
P7		Not Applicable
P8		Not Applicable
P9		Not Applicable
P10		Not Applicable
P11		Not Applicable
P12		Not Applicable
P13		Not Applicable
P14		Not Applicable
P15		Not Applicable
P16		Not Applicable
P17		Not Applicable
P18		Not Applicable

18.4.4 Procedure for testing HCPSLine08 interfaces in Intra Card MUXPONDER mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine08 card in supported slot.

3. Connect the Tx of the Test set to the port Rx of port P3 and Rx of the Test set to the port Tx of port P14.

4. Connect optical fiber cables between ports as shown in the set up.

The overall setup is shown in the following figure:

Figure 317: Setup for Testing HCPSLine08 Card in Intra Card Muxponder Mode Setup for testing in Intra Card Muxponder Mode

5. In the node UI, perform following steps:

a. Go to Inventory > Node Inventory in the navigation pane and click the slot number link corresponding to HCPSLine08 card. The HCPSLine08 Aggregate Card page appears. On this page perform following configurations:

1. Configure card in Intra Card TRANS/MUXPONDER mode. Click Configure Card and select Intra Card TRANS/MUXPONDER under the drop down menu of Card Configuration. Click Submit and accept modifications.

2. Configure ports P1 and P2 to OTU2 and ports P3 to P18 to STM1/4/GE. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

b. Admin up the required ports.

c. Create Muxponder configuration.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

» Select the Type as muxponder and Network Port as OTU2 from the drop down menu options.

» Click Add a Client Port to add 16 client ports that is P3 to P18. Select the client port from drop down menu and select the TS (Time Slot) and the TPN (Tributary Port Number) to be used by the client port as given in the table Time slots and TPN - HCPSLine08 (Muxponder mode).

NOTE: Follow the time slot mentioned for the corresponding port number in the table and they cannot be interchanged. For example, the Time slot mentioned for port P3 cannot be interchanged with port P4.

6. Feed the SDH/Ethernet traffic from the test set to the port P3.

7. Monitor the Rx signal at port P14. Verify that no frames are lost.

8. Record the result in Test Performance - HCPSLine08 card. The result verifies that all the optical ports are functioning correctly.

Table 27: Time slots and TPN - HCPSLine08 (Muxponder mode)
Port No.	Time Slot	TPN
P3	P1 - 1	1
P4	P1 - 2	2
P5	P1 - 3	3
P6	P1 - 4	4
P7	P2 - 1	1
P8	P2 - 2	2
P9	P2 - 3	3
P10	P2 - 4	4
P11	P1 - 5	5
P12	P1 - 6	6
P13	P1 - 7	7
P14	P1 - 8	8
P15	P2 - 5	5
P16	P2 - 6	6
P17	P2 - 7	7
P18	P2 - 8	8

Table 28: Test performance- HCPSLine08 card
Port Number	Result
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13
P14
P15
P16
P17
P18

18.5 Test HCPSLine12 card

This procedure helps you to perform the testing traffic on interfaces of HCPSLine12 card.

Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.5.1 Procedure for testing in Muxponder mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine12 card in supported slot.

3. Connect the Tx of the Ethernet test set to the Rx of port P4 and Rx of Ethernet test set to the Tx of port P13 as shown in the set up.

4. Connect optical fiber cables between the ports as shown in the following setup:

5. Do the following as appropriate:

— For testing card in 10x10G TO 1xOTU4 MUXPONDER, connect physical loopback at port P1.

— For testing card in 10x10G TO 1xOTU4 MUXPONDER QSFP_NP, connect physical loopback at port P2.

Following is the set for testing card in card in 10x10G TO 1xOTU4 MUXPONDER mode.

Figure 318: Setup for testing HCPSLine12 card

6. In the node UI, perform following steps:

a. Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine12 card. The HCPSLine12 Intelligent Card page appears. On this page perform following configurations:

» Configure card in desired muxponder mode. Click Configure Card and select 10x10G TO 1xOTU4 MUXPONDER or 10x10G TO 1xOTU4 MUXPONDER QSFP_NP under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Configure interfaces P4 to P13 to the desired capacity and interface P1 or P2 to OTU4 based on the muxponder mode selected. Note that only one port can be changed at a time. Click Ports Configuration and select the desired configuration for each interface. Click Submit and accept modifications.

b. Create Muxponder configuration.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

» Select the Type as muxponder and Network Port as OTU4 from the drop down menu options.

» Click Add a Client Port to add 10 client interfaces that is P4 to P13. Select the client interface from drop down menu and select the TS (Time Slot) and the TPN (Tributary Port Number) to be used by the client interface as given in the table Time slots and TPN - HCPSLine12 (Muxponder mode).

7. Feed the traffic from the Test set to the interface P4.

8. Monitor the traffic on the Ethernet test set received from interface P13. Verify that no frames are lost.

9. Record the result in Test Performance for HCPSLine12 card. The result verifies that all the optical interfaces are functioning correctly.

Table 29: Time slots and TPN - HCPSLine12 (Muxponder mode)
Port No.	Time Slot & TPN
P4	1 to 8
P5	9 to 16
P6	17 to 24
P7	25 to 32
P8	33 to 40
P9	41 to 48
P10	49 to 56
P11	57 to 64
P12	65 to 72
P13	73 to 80

Table 30: Test Performance- HCPSLine12 Card
Port Number	Result
P1/P2
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13

18.5.2 Procedure for testing in Flexi 100G plus 10x10G to 1x OTU4

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine12 card in supported slot.

Case 1: With Mapping type- GMP Mapping, configure port P2 to 100GE.

Connect the Ethernet test set to port P2.

1. Loopback at port P1. The setup is as follows:

Figure 319: Setup- Flexi 100G plus 10x10G to OTU4 Muxponder

2. In the node UI, perform following steps:

a. Go to Inventory > Node Inventory in the navigation pane and click the Slot number link corresponding to HCPSLine12 card.The HCPSLine12 Intelligent Card page appears. On this page perform following configurations:

b. Configure card in Flexi 100G plus 10x10G TO 1xOTU4 MUXPONDER mode. Click Configure Card and select Flexi 100G plus 10x10G TO 1xOTU4 MUXPONDER under the drop down menu of Card Configuration. Click Submit and accept modifications.

c. Configure interface P2 to 100GE and interface P1 to OTU4. Note that only one port can be changed at a time. Click Ports Configuration and select the desired configuration for each interface. Click Submit and accept modifications.

NOTE: When Port P2 is configured to 100GE, other client ports that is P4 to P13 cannot be used.

d. Create Muxponder configuration.

Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

» Select the Type as muxponder and Network Port as OTU4 from the drop down menu options.

» Click Add a Client Port to add client interfaces that is P2. Select the client interface from drop down menu and select the TS (Time Slot) and the TPN (Tributary Port Number) to be used by the client interface.

3. Feed the traffic from the Test set to the interface P1.

4. Monitor the traffic on the Ethernet test set received. Verify that no frames are lost.

Table 31: Test Performance- HCPSLine12 Card
Port Number	Result
P1
P2

Case 2: With Mapping type- ODU Flex, user can configure port P2 to 100GE and any 9 ports between P4 to P13 to 10GE by choosing the minimum time slots 1-8 for 100GE port. The procedure is explained for 40 time slots for 100GE port, where P2 can be configured as 100GE and 5 ports that is, P4 to P8 as 10GE.

You can choose the desired time slots between 1 to 80.

Figure 320: Test setup 2- Flexi 100G plus 10x10G to OTU4 Muxponder

In the node UI, perform following steps:

1. Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine12 card.The HCPSLine12 Intelligent Card page appears. On this page perform following configurations:

2. Configure card in Flexi 100G plus 10x10G TO 1xOTU4 MUXPONDER mode. Click Configure Card and select Flexi 100G plus 10x10G TO 1xOTU4 MUXPONDER under the drop down menu of Card Configuration. Click Submit and accept modifications.

3. Configure interface P2 to 100GE, After P2 configured as 100GE, P4-P13 cannot be configured.

To configure P4 to P8 as 10GE, the ODUflex channel must be created as per following steps:

For port P3, click Facility > Ethernet, configure 100GE mapping type as "Mapping_GFP_F_ODUFlex", click Submit.

Click ODU4, create channel and provide PayLoad Capacity as 40, Bit Rate as ODUflex, click Submit. The ODUflex channel is created.

4. Click Ports Configuration and select the desired configuration for each interface. Click Submit and accept modifications.

5. Create Muxponder configuration.

Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

a. Select the Type as muxponder and Network Port as OTU4 from the drop down menu options.

b. To add a client port, perform the following steps.

» Click Add a Client Port to add client interface P2. Select the client interface from drop down menu and select 40 TS (Time Slot) to be used by the client interface and Click Submit.

» Click Add a Client Port to add 5 client interfaces that is P4 to P8. Select the client interface from drop down menu and select the remaining TS (Time Slot) and the TPN (Tributary Port Number) to be used by the client interface and click Submit.

6. Feed the 100GE traffic from the Test set-1 to the interface P2 and 10GE from test set -2 to P4.

7. Monitor the traffic on the test set received. Verify that no frames are lost.

Table 32: Time slots and TPN - HCPSLine12 card
Port No.	Time Slot
P2	1 to 40
P4	41 to 48
P5	49 to 56
P6	57 to 64
P7	65 to 72
P8	73 to 80

Table 33: Test Performance- HCPSLine12 card
Port Number	Result
P1
P2
P4
P5
P6
P7
P8

18.5.3 Procedure for testing in Flexi 2x40G plus 10x10G to 1x OTU4

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine12 card in supported slot

Case 1: Configure port P2, P3 to 40GE, P4, P5 to 10GE and port 1 to OTU4. The overall setup is as follows:

Figure 321: Test setup- Flexi 2x40G plus 10x10G to OTU4 Muxponder

In the node UI, perform following steps:

1. Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine12 card. HCPSLine12 Intelligent Card page appears. On this page perform following configurations:

a. Configure card in Flexi 2x40G plus 10x10G TO 1xOTU4 MUXPONDER mode. Click Configure Card and select Flexi 2x40G plus 10x10G TO 1xOTU4 MUXPONDER under the drop down menu of Card Configuration. Click Submit and accept modifications.

b. Configure interface P2, P3 to 40GE, P4, P5 to 10GE and port P1 to OTU4. Note that only one port can be changed at a time. Click Ports Configuration and select the desired configuration for each interface. Click Submit and accept modifications.

2. Create Muxponder configuration.

a. Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

b. Select the Type as muxponder and Network Port as OTU4 from the drop down menu options.

c. Click Add a Client Port to add client interfaces that is P2, P3, P4 and P5. Select the client interface from drop down menu and select the TS (Time Slot) and the TPN (Tributary Port Number) to be used by the client interface.

3. Feed the 40GE traffic from the Test set-1 to the interface P2 and 10GE traffic from Test set-2 to port P4.

4. Monitor the traffic on the test set received. Verify that no frames are lost.

Table 34:

Port Number	Result
P1
P2
P4
P5
P6
P7
P8

Test performance- HCPSLine12 card

Case 2: User can configure port P2, P3 to 40GE and any 8 ports between P4 to P13 to 10GE by choosing the minimum time slots for 40GE port. The procedure is explained for 8 time slots for each port P2 and P3, user can choose the desired time slots between 1 to 31.

Figure 322: Test setup 2- Flexi 2x40G plus 10x10G to OTU4 Muxponder

In the node UI, perform following steps:

b. Configure interface P2, P3 to 40GE. After P2 and P3 configured as 40GE, only two 10G ports can be configured. To configure P4 to P11 as 10GE, ODUflex channel must be created as per the following steps:

2. For Port P2, click Facility >Ethernet, configure 40GE mapping type as "Mapping_GFP_F_ODUFlex", click Submit. Click ODU3, create channel and provide PayLoad Capacity as 8, Bit Rate as ODUflex, click Submit. The ODUflex channel is created. Perform the same steps for Port P3.

a. Click Ports Configuration and select the desired configuration for each interface. Click Submit and accept modifications.

3. Create Muxponder configuration.

a. Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

b. Select the Type as muxponder and Network Port as OTU4 from the drop down menu options.

c. To Add a client port, perform the following steps.

» Click Add a Client Port to add client interface P2 and P3. Select the client interface from drop down menu, select 8 TS (Time Slot) to be used by the each client interface and click Submit.

» Click Add a Client Port to add 8 client interfaces that is P4 to P11. Select the client interface from drop down menu, select the remaining TS (Time Slot) and the TPN (Tributary Port Number) to be used by the client interface and click Submit.

4. Feed the 40GE traffic from the Test set-1 to the interface P2 and 10GE from test set -2 to P4.

5. Monitor the traffic on the test set received. Verify that no frames are lost.

Table 35:

Port Number	Result
P1
P2
P4
P5
P6
P7
P8
P9
P10
P11

Test performance- HCPSLine12 card

18.6 Testing HCPSLine20 Card

This procedure helps you to perform the testing traffic on interfaces of HCPSLine20 card.

18.6.1 Before you start

The following precautionary measures have to be taken:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.6.2 Procedure for testing STM-16 Interfaces in SDH only mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine20 card in supported slot.

3. Connect the test set up as shown in the following figure.

Figure 323: Test setup for Testing HCPSLine20 card

— Connect the Test set to the port P1.

— Connect optical fiber cables between ports P2 and P3, P4 and P5, P6 and P7, P8 and P9, P10 and P11, P12 and P13, P14 and P15, P16 and P17, P18 and P19, P20 and P21, P22 and P23, P24 and P25, P26 and P27, P28 and P29, P30 and P31.

— Loopback at P32.

4. In the node UI, perform the following steps:

a. Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine20 card, the HCPSLine20 Aggregate Card page appears. Perform the following configurations on this page.

» Configure card in SDH Only mode. Click Configure Card and select SDH only under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Click Port Configuration and configure all ports to STM-16 mode. Click Submit and accept modifications.

» Admin Up the required ports.

b. Provision cross-connects between ports P1 and P2, P3 and P4, P5 and P6, P7 and P8, P9 and P10 and so on for all the 32 ports.

» Go to Configuration > Cross-Connect, the Configure Cross-connects page appears. Click Add Cross-connect and provision a cross connect of VC4/ VC4_4c/ VC4_16c capacity with 'Source Port' as port P1 and 'Destination Port' as port P2. Similarly, create cross-connects for other ports also.

5. Feed the STM-16 traffic from the Test set to the port P1.

6. Monitor the Rx signal at port P1 connected to the Test set. Verify that no traffic is lost.

7. Record the result in Test Performance - HCPSLine20 card. The result verifies that all the optical ports are functioning correctly.

Table 36:

Port Number	Result
P1
P2
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13
P14
P15
P16
P17
P18
P19
P20
P21
P22

Test Performance- HCPSLine20 Card

18.7 Test HCPSLine22 card

This procedure helps you perform the testing traffic on interfaces of HCPSLine22 card.

18.7.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.7.2 Procedure for testing 10x10G 1x100G tributary and cross-connect

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine22 card in supported slot.

3. Connect the test set up as shown in the following figure:

The overall setup is as follows:

Figure 324: Test Setup 10x10G 1x100G TRUBUTARY AND CROSS-CONNECT Test Setup: 10x10G 1x100G TRUBUTARY AND CROSS-CONNECT

— Connect the Tx of Test set to the Rx of port P1 and Rx of Test set to the Tx of port P10.

— Connect optical fiber cables between user-network interface (UNI) the ports in Tandem connection as shown in set up.

— Connect physical loopbacks at network-network interface (NNI) ports as shown.

4. In the node UI, perform following steps:

a. Go to Inventory > Node Inventory in the navigation pane and click the Slot number link corresponding to HCPSLine22 card,the HCPSLine22 Aggregate Card page appears. Perform the following configurations on this page.

» Configure card in 10x10G 1x100G TRIBUTARY AND CROSS-CONNECT mode.

» Click Configure Card and select 10x10G 1x100G TRIBUTARY AND CROSS-CONNECT under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Configure UNI ports as STM-64/10GE LAN/OTU2/OTU2e/8G FC.

» Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

» Admin Up the required ports.

» Configure the UNI ports in Timing-Transparent-Mapped to ODU.

» Click Ports, and click port P1. Select Timing-Transparent-Mapped to ODU under the drop down menu of Timing Transparent Mode parameter. Similarly, configure for other ports also.

b. Create ODU connections between the UNI and NNI ports of HCPSLine22 card.

» Go to OTN > ODU Connections and Click Create New Connection. Select Capacity based on the UNI port capacity, enter the name of Circuit Identifier, Directionality as 2WAY, Source ODU and Destination ODU.

5. Feed the desired traffic from the Test set to the port P1.

6. Monitor the Rx signal at port P10 connected to the Test set. Verify that no traffic is lost.

7. Record the result in Test Performance for HCPSLine22 card. The result verifies that all the optical ports are functioning correctly.

Table 37:

Port Number	Result

Test Performance - HCPSLine22 card

18.7.3 Procedure for testing 10x10G flexi tributary and cross-connect

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine22 card in supported slot.

3. Connect the test set up as shown in the following figure.

The overall setup is as follows:

Figure 325: Test Setup 10x10G FLEXI TRIBUTARY AND CROSS-CONNECT mode Test setup: 10x10G FLEXI TRIBUTARY AND CROSS-CONNECT mode

— Connect the Tx of Test set to the Rx of port P3 and Rx of Test set to the Tx of port P8.

— Connect optical fiber cables between user-network interface (UNI) the ports in Tandem connection as shown in set up.

— Connect physical loopbacks at network-network interface (NNI) ports as shown.

4. In the node UI, perform following steps:

a. Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine22 card, HCPSLine22 Aggregate Card page appears. Perform the following configurations on this page.

» Configure card in 10x10G FLEXI TRIBUTARY AND CROSS-CONNECT mode.

» Click Configure Card and select 10x10G FLEXI TRIBUTARY AND CROSS-CONNECT under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Configure UNI ports as STM1/4/16/64/10GE/1GE/1GFC/2GFC/8GFC

» Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

» Admin Up the required ports.

» Configure the UNI ports in Timing-Transparent-Mapped to ODU.

» Click Ports, and Click port P3. Select Timing-Transparent-Mapped to ODU under the drop down menu of Timing Transparent Mode parameter. Similarly configure for other ports also.

b. Create ODU connections between the UNI and NNI ports of HCPSLine22 card.

5. Feed the desired traffic from the Test set to the port P3.

6. Monitor the Rx signal at port P8 connected to the Test set. Verify that no traffic is lost.

7. Record the result in Test Performance for HCPSLine22 card. The result verifies that all the optical ports are functioning correctly.

18.7.4 Procedure for testing in MUXPONDER mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine22 card in supported slot.

3. Connect the test set up as shown in the following figure.

Figure 326: Setup for testing HCPSLine22 in MUXPONDER mode

— Connect the Tx of Test set to the Rx of port P1 and Rx of Test set to the Tx of port P10.

— Connect optical fiber cables between ports in Tandem connection as shown in set up.

— Connect Loopback at port P11.

4. In the node UI, perform following steps:

» Configure card in 10x10G TO 1xOTU4 MUXPONDER mode. Click Configure Card and select 10x10G TO 1xOTU4 MUXPONDER under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Configure ports P1 to P10 to STM-64/10GE-LANOTU2/OTU2e. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

» Admin Up the required ports.

b. Create Muxponder configuration.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

» Select the Type as muxponder and Network Port as OTU4 from the drop down menu options.

» Click Add a Client Port to add 10 client ports i.e ports P1 to P10. Select the client port from drop down menu and select the TS (Time Slot) and the TPN (Tributary Port Number) to be used by the client port as given in the following table Time slots and TPN - HCPSLine22 (Muxponder mode).

5. Feed the traffic from the Test set to the port P1.

6. Monitor the Rx signal at Test set connected to port P10. Verify that no traffic is lost.

7. Record the result in Test Performance - HCPSLine22 card. The result verifies that all the optical ports are functioning correctly.

Table 38: Time slots and TPN - HCPSLine22 (Muxponder mode)
Port No.	Time Slot & TPN
P1	1 to 8
P2	9 to 16
P3	17 to 24
P4	25 to 32
P5	33 to 40
P6	41 to 48
P7	49 to 56
P8	57 to 64
P9	65 to 72
P10	73 to 80

Table 39: Test Performance - HCPSLine22 card
Port Number	Result
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11

18.7.5 Procedure for testing HCPSLine22 in TRANSPONDER mode

1. Insert a working controller card in supported slot.

2. Insert a working HCPSLine22 card in supported slot.

3. Connect the test set up as shown in the following figure.

Figure 327: Setup for testing HCPSLine22 in TRANSPONDER mode

— Connect the Tx of Test set to the Rx of port P6 and Rx of Test set to the Tx of port P10.

— Connect optical fiber cables between ports in Tandem connection as shown in set up.

— Connect Loopback on ports P1 to P5.

4. In the node UI, perform following steps:

» Configure card in 5 10G TRANSPONDER mode. Click Configure Card and select 5 10G TRANSPONDER under the drop down menu of Card Configuration. Click Submit and accept modifications.

» To configure NNI ports, Click Ports Configuration and configure ports P1 to P5 to OTU2/OTU2e/OTU1f.

» To configure ports P6 to P10 to STM-64/10GE-LAN/OTU2/OTU2e/8GFC/12GFC/ OTU1f. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

» Admin Up the required ports.

b. Create Transponder configuration.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

» Select the Type as transponder, and Network Port as OTU2/OTU2e/ OTU1f from drop down.

» Select the Client Port from the drop down menu. Click Create.

5. Feed the traffic from the Test set to the port P6.

6. Monitor the Rx signal at Test set connected to port P10. Verify that no traffic is lost.

7. Record the result in Test Performance - HCPSLine22 card. The result verifies that all the optical ports are functioning correctly.

Table 40: Test Performance - HCPSLine22 card
Port Number	Result
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10

18.7.6 Procedure for testing STM-64 interfaces in 10x10G SDH Flexi Mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine22 card in supported slot.

3. Connect the test set up as shown in the following figure.

Figure 328: Setup for Testing HCPSLine22 in SDH Flexi Mode

— Connect the Test set to the port P1.

— Connect optical fiber cables between ports P2 and P3, P4 and P5, P6 and P7, P8 and P9.

— Loopback at port P10.

4. In the node UI, perform the following steps:

a. Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine22 card, the HCPSLine22 Aggregate Card page appears. Perform the following configurations on this page.

» Configure card in 10x10G SDH FLEXI mode. Click Configure Card and select 10x10G SDH FLEXI under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Configure ports P1 to P10 to STM-64. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

» Admin Up the required ports.

b. Provision cross-connects between ports P1 and P2, P3 and P4, P5 and P6, P7 and P8, P9 and P10.

» Go to Configuration > Cross-Connect, the Configure Cross-connects page appears. Click Add Cross-connect and provision a cross connect of VC4_64c capacity with Source Port as port P1 and Destination Port as port P2. Similarly, create cross-connects for other ports also.

5. Feed the STM-64 traffic from the Test set to the port P1.

6. Monitor the Rx signal at port P1 connected to the Test set. Verify that no traffic is lost.

7. Record the result in Test Performance - HCPSLine22 card. The result verifies that all the optical ports are functioning correctly.

18.7.7 Procedure for Testing HCPSLine22 in 10x10G OTN and 1x100G OTN

1. Insert a working cross connect card in supported slot.

2. Insert a two working HCPSLine22 card in supported slot (for example, the explanation is given for cards in slot 1 and 2).

3. Connect the test set up as shown in the following figure:

Figure 329: Setup for Testing HCPSLine22 in OTN TRIBUTARY Mode

— Connect the Tx of Test set to the Rx of port P1 and Rx of Test set to the Tx of port P10 on 1st slot card.

— Connect optical fiber cables between ports in Tandem connection on 1st slot card as shown in set up.

— Connect Loopback at port P11 on 2nd slot card.

4. In the node UI, perform the following steps:

a. Go to Inventory > Node Inventory in the navigation pane and click Slot 1 number link corresponding to HCPSLine22 card in 1st slot, HCPSLine22 Aggregate Card page appears. Perform the following configurations on this page:

» Configure card in 10x10 OTN Tributary mode. Click Configure Card and select 10x10 OTN Tributary under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Configure ports P1 to P10 to 10GE-LAN. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

» Admin Up the required ports.

» Configure the ports P1 to P10 in Timing-Transparent-Mapped to ODU. Click ports, and click port P1. Select Timing-Transparent-Mapped to ODU under the drop down menu of Timing Transparent Mode parameter. Similarly configure for other ports also.

b. Go to Inventory > Node Inventory in the navigation pane and click Slot 2 number link corresponding to HCPSLine22 card in 2nd slot, The HCPSLine22 Aggregate Card page appears. Perform the following configurations on this page.

» Configure card in 1x100G OTN TRIBUTARY mode. Click Configure Card and select 1x100G OTN TRIBUTARY under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Configure ports P11 (will be displayed as Port No 1 in UI) to OTU4. Click Ports Configuration and select the desired port configuration. Click Submit and accept modifications.

» Admin Up the port.

» Create 10 channels on OTU4 port with bit rate of ODU2e capacity. Click Ports, and click port OTU4-1-2-1. Then click ODU4k-1-2-1-0 and then click Create channel. Select bit rate as ODU2e, enter the 'Source and Sink Tributary Port Number', select eight Source Tributary Slot and eight Sink Tributary Slot for each channel.

c. Create ODU connections between the 10GE-LAN ports of HCPSLine22 on 1st slot and OTU4 port of HCPSLine22 on 2nd slot.

» Go to OTN > ODU Connections and click Create New Connection. Select Capacity as ODU2e, enter the name of Circuit Identifier, Directionality as 2WAY, Source ODU and Destination ODU. The Source ODU and Destination ODU selection for ten ODU connections is provided in the following table as ODU Connections.

Table 41: ODU connections - HCPSLine22
Port No.	Source ODU	Destination ODU
1st slot card		2nd slot card
P1	ODU2ek-1-1-1-0	ODU2ej-1-2-1-1
P2	ODU2ek-1-1-2-0	ODU2ej-1-2-1-2
P3	ODU2ek-1-1-3-0	ODU2ej-1-2-1-3
P4	ODU2ek-1-1-4-0	ODU2ej-1-2-1-4
P5	ODU2ek-1-1-5-0	ODU2ej-1-2-1-5
P6	ODU2ek-1-1-6-0	ODU2ej-1-2-1-6
P7	ODU2ek-1-1-7-0	ODU2ej-1-2-1-7
P8	ODU2ek-1-1-8-0	ODU2ej-1-2-1-8
P9	ODU2ek-1-1-9-0	ODU2ej-1-2-1-9
P10	ODU2ek-1-1-10-0	ODU2ej-1-2-1-10

5.     Feed the 10GE traffic from the Test set to the port P1.
6.     Monitor the Rx signal at port P10 connected to the Test set. Verify that no traffic is lost.
7.     Record the result in Test Performance for HCPSLine22 card. The result verifies that all the optical ports are functioning correctly.
Table 42: Test performance - HCPSLine22 card
Port Number	Result
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10

18.8 Test HCPSLine24 card

This procedure helps you to perform the testing traffic on interfaces of HCPSLine24 card

Before you start

The following precautionary measures have to be taken:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.8.1 Procedure for testing HCPSLine24 in Transponder Mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine24 card in supported slot.

3. Connect the test set up as shown in the following figure.

Figure 330: Setup for testing HCPSLine24 in TRANSPONDER mode

— Connect the Test set to the port P1.

— Loopback at port P4.

4. In the node UI, perform the following steps:

a. Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine24 card, HCPSLine24 Intelligent Card page appears. Perform the following steps on this page:

» Click Configure Card and select 1x100G TRANSPONDER OTU4 NP under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Click Ports Configuration and configure interface P1 to OTU4 and P4 (will be displayed as P2 in UI) to OTU4/100GE. Click Submit and accept modifications.

b. Create Transponder configuration.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link. Select the Type as transponder option from the drop down menu, Network Port as OTU4, and Client Port as OTU4/100GE.

5. Feed the OTN traffic from the Test set to the port P1.

6. Monitor the Rx signal at interface P1. Verify that no frames are lost.

7. Record the result in Test Performance - HCPSLine24 card. The result verifies that all the optical interfaces are functioning correctly.

Table 43: Test performance- HCPSLine24 card
Port Number	Result
P1
P4

18.9 Test HCPSLine25 card

This procedure helps you to perform the testing traffic on interfaces of HCPSLine25 card.

18.9.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.9.2 Procedure for testing in TRANSPONDER mode

1. Insert a working controller card in supported slot.

2. Insert a working HCPSLine25 card in supported slot.

3. Connect the test set up as shown in the following figure.

Figure 331: Test set-up for HCPSLine25 card

— Connect the Tx of Test set to the Rx of port P11 and Rx of Test set to the Tx of port P20.

— Connect optical fiber cables between ports in Tandem connection as shown in set up.

— Connect Loopback on ports P1 to P10.

4. In the node UI, perform following steps:

a. Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine25 card, the HCPSLine25 Aggregate Card page appears. Perform the following configurations on this page.

» Configure card in 10 10G TRANSPONDER mode. Click Configure Card and select 10 10G TRANSPONDER under the drop down menu of Card Configuration. Click Submit and accept modifications.

» To configure NNI ports, click Ports Configuration and configure ports P1 to P10 to OTU2/OTU2e

» To configure ports P11 to P20 to STM-64/10GE-LAN/OTU2/OTU2e.Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

» Admin Up the required ports.

b. Create Transponder configuration.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

» Select the Type as transponder, and Network Port as OTU2/OTU2e from drop down.

» Select the Client Port from the drop down menu. Click Create.

5. Feed the traffic from the Test set to the port P11.

6. Monitor the Rx signal at Test set connected to port P20. Verify that no traffic is lost.

7. Record the result in Test Performance - HCPSLine25 card. The result verifies that all the optical ports are functioning correctly.

Table 44: Test Performance - HCPSLine25 card
Port Number	Result
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13
P14
P15
P16
P17
P18
P19
P20

18.10 Test HCPSLine26 card

This procedure helps you perform the testing traffic on interfaces of HCPSLine26 card.

18.10.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.10.2 Procedure for testing in Muxponder mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine26 card in supported slot.

3. Connect the Tx of the Ethernet test set to the Rx of port P2 and Rx of Ethernet test set to the Tx of port P21 as shown in the set up.

4. Connect optical fiber cables between the ports as shown in the following setup:

Figure 332: Setup for Testing HCPSLine26 in MUXPONDER Mode Setup for testing in MUXPONDER Mode

5. Loopback at port P1.

6. In the node UI, perform following steps:

a. Go to Inventory > Node Inventory in the navigation pane and click the Slot number link corresponding to HCPSLine26 card. The HCPSLine26 Intelligent Card page appears. On this page perform following configurations:

» Configure card in 20x10G TO 2 OTU4 MUXPONDER mode. Click Configure Card and select 20x10G TO 2 OTU4 MUXPONDER under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Configure interface P1 to OTUC2 interfaces and P2 to P21 to STM-64/10GE-LAN/OTU/OTU2e. Note that only one port can be changed at a time. Click Ports Configuration and select the desired configuration for each interface. Click Submit and accept modifications.

b. Create two logical OTU4 channels:

To map client port to OTUC2, two logical channels need to be created.

» Click Facilities > ODU2C> Create Channel.

» Enter Source and Sink Tributary Port number, select 20 source and sink tributray slot for two channels. OTU4-<ci>-<si>-22 and OTU4-<ci>-<si>-23 logical channels will be created.

c. Create Muxponder configuration.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

» Select the Type as muxponder and Network Port as OTU4 from the drop down menu options.

» Select the network port as OTU4-<ci>-<si>-22 and corresponding 10 client port i.e., P2 to P11 from the drop down, select the TS (Time Slot) and the TPN (Tributary Port Number) to be used by the client interface. Similarly, select network port as OTU4-<ci>-<si>-23 and remaining 10 client ports that is, P12 to P21 from the drop-down, select the remaining TS (Time Slot) and TPN (Tributary Port Number) to be used by the client interface.

7. Feed the traffic from the Test set to the interface P2.

8. Monitor the traffic on the Ethernet test set received from interface P21. Verify that no frames are lost.

9. Record the result in Test Performance - HCPSLine26 card. The result verifies that all the optical interfaces are functioning correctly.

Table 45: Time slots and TPN - HCPSLine26 (Muxponder mode)
Port No.	Time Slot
P4	1 to 8
P5	9 to 16
P6	17 to 24
P7	25 to 32
P8	33 to 40
P9	41 to 48
P10	49 to 56
P11	57 to 64
P12	65 to 72
P13	73 to 80
P14	81 to 88
P15	89 to 96
P16	96 to 104
P17	105 to 112
P18	113 to 120
P19	121 to 128
P20	129 to 136
P21	137 to 144

Table 46: Test Performance- HCPSLine26 Card
Port Number	Result
P1
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13
P14
P15
P16
P17
P18
P19
P20
P21

18.11 Test HCPSLine27 card

This procedure helps you to perform the testing traffic on interfaces of HCPSLine27 card.

18.11.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.11.2 Procedure for testing in 2xFlexi 100G to 2xOTU4

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine27 card in supported slot.

3. Connect the Tx of the Ethernet test set to the Rx of port P2 and Rx of Ethernet test set to the Tx of port P3 as shown in the set up.

4. Connect optical fiber cables between the ports as shown in the following setup:

Figure 333: Test Setup- 2xFlexi 100G to 2xOTU4 Transponder

5. Loopback at port P1.

6. In the node UI, perform following steps:

a. Go to Inventory > Node Inventory in the navigation pane and click the Slot number link corresponding to the HCPSLine27 card. The HCPSLine27 Intelligent Card page appears. On this page perform following configurations:

» Configure card in Two Flexi 100G to 2 OTU4 Muxponder mode. Click Configure Card and select Two Flexi 100G to 2 OTU4 Muxponder under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Configure interfaces interface P1 to OTUC2 and P2, P3 to 100GE/ OTU4. Note that only one port can be changed at a time. Click Ports Configuration and select the desired configuration for each interface. Click Submit and accept modifications.

b. Create two logical OTU4 channels:

To map client port to OTUC2, two logical channels need to be created.

» Click Facilities > ODU2C> Create Channel.

» Enter Source and Sink Tributary Port number, select 20 source and sink tributray slot for two channels. OTU4-<ci>-<si>-4 and OTU4-<ci>-<si>-5 logical channels are created.

c. Create Muxponder configuration.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

» Select the Type as Transponder.

» Select the network port and corresponding client port each port from the drop down and select the TS (Time Slot) and the TPN (Tributary Port Number) to be used by the client interface.

7. Feed the traffic from the Test set to the interface P2.

8. Monitor the traffic on the Ethernet test set received from interface P3. Verify that no frames are lost.

9. Record the result in Test Performance for HCPSLine27 card. The result verifies that all the optical interfaces are functioning correctly.

Table 47: Test Performance- HCPSLine27 Card
Port Number	Result
P1
P2
P3

18.11.3 Procedure to test Line27 in 10X10G to OTU4 + flexi 100G to OTU4

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine27 card in supported slot. The overall setup is as follows:

Figure 334: Test Setup- 10X10G to OTU4 Muxponder + Flexi 100G to OTU4 Transponder

3. In the node UI, perform following steps:

a. Go to Inventory > Node Inventory in the navigation pane and click the Slot number link corresponding to HCPSLine27 card. HCPSLine27 Intelligent Card page appears. On this page perform following configurations:

» Configure card in 10X10G to OTU4 Muxponder + Flexi 100G to OTU4 Transponder mode. Click Configure Card and select 10X10G to OTU4 Muxponder + Flexi 100G to OTU4 Transponder under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Configure interfaces interface P1 to OTUC2, P2 to 100GE and P4-P13 STM-64/10GE/OTU2/OTU2e/8GFC/12GFC. Note that only one port can be changed at a time. Click Ports Configuration and select the desired configuration for each interface. Click Submit and accept modifications.

b. Create two logical OTU4 channels:

To map client port to OTUC2, two logical channels need to be created.

» Click Facilities > ODU2C> Create Channel.

» Enter Source and Sink Tributary Port number, select 20 source and sink tributray slot for two channels. OTU4-<ci>-<si>-14 and OTU4-<ci>-<si>-15 logical channels will be created.

c. Create Muxponder configuration.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link.

» Select the Type as muxponder.

» Select the network port as OTU4-<ci>-<si>-14 and corresponding client port each port from the drop down and select the TS (Time Slot) and the TPN (Tributary Port Number) to be used by the client interface. Similarly, select network port as OTU4-<ci>-<si>-15 and corresponding 10 client ports that is, P4 to P13 from the drop-down, select the remaining TS (Time Slot) and TPN (Tributary Port Number) to be used by the client interface.

4. Feed the 100GE traffic from the Test set-1 and 10GE traffic from Test set-2.

5. Monitor the traffic on the Ethernet test set received from interface P2 and P13. Verify that no frames are lost.

Table 48: Test Performance- HCPSLine27 Card
Port Number	Result
P1
P2
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13

18.12 Test HCPSLine28 card

This procedure helps you to perform the testing traffic on interfaces of HCPSLine28 card.

Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.12.1 Procedure for testing 2x100G TRANSPONDER OTU4 NP mode

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine28 card in supported slot.

3. Connect the test set up as shown in the following figure:

Figure 335: Test Setup for Testing HCPSLine28 Card

— Connect the Test set to the port P2.

— Connect optical fiber cables between ports P1 and P4.

— Connect loopback at port P3.

4. In the node UI, perform the following steps:

a. Go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine28 card, HCPSLine28 Aggregate Card page appears. Perform the following configurations on this page.

» Click Configure Card and select 2x100G TRANSPONDER OTU4 NP under the drop down menu of Card Configuration. Click Submit and accept modifications.

» Click Port Configuration and configure port P1 and P4 to OTU4 and P2 and P3 to OTU4/100GE. Click Submit and accept modifications.

b. Create Transponder configuration.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link. Select the Card as HCPSLine28-<Ci>-<si> and Type as Transponder from the drop down.

5. Feed the traffic from Test set to Port P2.

6. Monitor the Rx signal at port P2 connected to the Test set. Verify that no traffic is lost.

Table 48: Test Performance- HCPSLine28 Card
Port Number	Result
Port Number	Result
P1
P2
P3
P4

18.13 Test HCPSLine31 card

This procedure helps you perform the testing traffic on interfaces of HCPSLine31 card.

Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.13.1 Points to remember

• No system level alarms should be present on the node.

• For detailed configuration procedure, refer to TJ1600 Product Family User Interface Guide of this release.

18.13.2 Procedure for testing 100G ports on HCPSLine31

NOTE: Procedure is explained for testing 100GE client ports. Perform the same steps for testing OTU4/OTUC1 client ports by selecting the appropriate port configuration.

1. Insert a working HCPSLine31 card in supported slot. Refer to Card population rule.

2. Connect the test set up as shown in the following figure:

a. Connect the Tx of the Ethernet Test Set-1 to the Rx of port P3 and Rx of Ethernet Test Set-1 to the Tx of port P14.

b. Connect optical fiber cables between user-network interface (UNI) ports P3 to P14 in Tandem connection.

c. Connect physical loopbacks at network-network interface (NNI) port P2.

Following is the set up for testing 100G ports on HCPSLine31 card.

Figure 336: Test set up for testing 100G ports on HCPSLine31 card

3. In the node UI, perform the following steps:

a. Click Inventory > Node inventory in the navigation pane. The Node Inventory preview pane appears. Click the Slot number corresponding to the HCPSLine31 Card. On HCPSLine31 Intelligent Card preview page, perform the following steps:

» Configure card mode. Click Configure Card and select 40x10G+12x100G/3X400G/FLEX->2X600G from the drop down. Click Submit and accept modifications.

» Configure ports P1 and P2 to OTUC6 and P3 to P14 to 100GE. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications. Note that only one port can be changed at a time.

» Admin Up the required ports.

» Channelize the ports P1 and P2 with bit rate of 100G capacity.

» Click Ports, and Click port OTUC6-<Ci>-<Si>-1. On Provision interface - OTUC6-<Ci>-<Si>-1 page Click ODUC4k-<Ci>-<Si>-1-0 and then click Create channel. Select bit rate as 100G, enter the 'Source and Sink Tributary Port Number', select twelve Source Tributary Slot and twelve Sink Tributary Slot for each channel.

4. Create ODU connections for 100GE ports P3 to P8 with OTUC6 port P1 and for 100GE ports P9 to P14 with OTUC6 port P2.

» Go to OTN > ODU Connections and click Create New Connection. Select Capacity as ODUC1, enter the name of Circuit Identifier, Directionality as 2WAY, Source ODU, and Destination ODU.

» The Source ODU and Destination ODU selection for twelve ODU connections is given in the table below as ODUC1 Connections on HCPSLine31.

5. Feed the 100GE traffic from the Test set to the port P3.

6. Monitor the Rx signal at port P14 connected to the Test set. Verify that no traffic is lost.

7. Record the result and verify that all the ports are functioning correctly.

Table 49: ODUC1 connections on HCPSLine31
Source ODU	Destination ODU
ODUC1k-ci-si-3-0	ODUC1j-ci-si-1-1
ODUC1k-ci-si-4-0	ODUC1j-ci-si-1-2
ODUC1k-ci-si-5-0	ODUC1j-ci-si-1-3
ODUC1k-ci-si-6-0	ODUC1j-ci-si-1-4
ODUC1k-ci-si-7-0	ODUC1j-ci-si-1-5
ODUC1k-ci-si-8-0	ODUC1j-ci-si-1-6
ODUC1k-ci-si-9-0	ODUC1j-ci-si-2-1
ODUC1k-ci-si-10-0	ODUC1j-ci-si-2-2
ODUC1k-ci-si-11-0	ODUC1j-ci-si-2-3
ODUC1k-ci-si-12-0	ODUC1j-ci-si-2-4
ODUC1k-ci-si-13-0	ODUC1j-ci-si-2-5
ODUC1k-ci-si-14-0	ODUC1j-ci-si-2-6

18.13.3 Procedure for testing 10G ports on HCPSLine31

NOTE: Procedure is explained for testing 10GE-LAN client ports. Perform the same steps for testing STM64/OTU2/OTU2e client ports by selecting the appropriate port configuration.

1. Insert a working HCPSLine31 card in supported slot. Refer to Card population rule.

2. Connect the test set up as shown in the following figure:

a. Connect the Tx of the Test Set to the Rx of port P15 and Rx of Test Set to the Tx of port P54.

b. Connect optical fiber cables between user-network interface (UNI) ports P15 to P54 in Tandem connection.

c. Connect physical loopback at network-network interface (NNI) port P1.

Following is the set up for testing 10G ports on HCPSLine31 card.

Figure 337: Test set up for testing 10G ports on HCPSLine31 card

3. In the node UI, perform the following steps:

a. Go to Inventory > Node inventory in the navigation pane. The Node Inventory preview pane appears. Click the slot number corresponding to the HCPSLine31 Card. On HCPSLine31 Intelligent Card preview page, perform the following steps:

» Configure card mode. Click Configure Card and select 40x10G+12x100G/3X400G/FLEX->2X600G from the drop down. Click Submit and accept modifications.

» Configure ports P2 to OTUC4 and P15 to P54 to 10GE-LAN. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications. Note that only one port can be changed at a time.

» Admin Up the required ports.

» Channelize the port P2 with bit rate of 100G capacity.

» Click Ports, and Click port OTUC4-<Ci>-<Si>-2. On Provision interface - OTUC4-<Ci>-<Si>-2 page, Click ODUC4k-<Ci>-<Si>-2-0 and then click Create channel.

» Select bit rate as 100G, enter the Source and Sink Tributary Port Number, select twenty Source Tributary Slot and twenty Sink Tributary Slot for each channel.

» Four logical interfaces OTUC1-<Ci>-<Si>-55, OTUC1-<Ci>-<Si>-56, OTUC1-<Ci>-<Si>-57, and OTUC1-<Ci>-<Si>-58 are created.

b. Configure the port P2 channelized interfaces (in previous step) to create logical OTU4 interfaces.

» Go to Configuration > Facilities > OTU and Click the ODUC1k-<Ci>-<Si>-55-0 interface corresponding to OTUC1-<Ci>-<Si>-55. On ODUC1k-<Ci>-<Si>-55-0 interface configuration page, select the Client Signal Termination Mode as 'Terminate OTU' and select the Terminate With as 'ODUC-<Ci>-<Si>-2-1'. The logical OTU4-<ci>-<si>-59-0 interface is created.

» Similarly configure ODUC1-<Ci>-<Si>-56-0, ODUC1-<Ci>-<Si>-57-0, and ODUC1-<Ci>-<Si>-58-0 to create logical OTU4-<ci>-<si>-60-0, OTU4-<ci>-<si>-61-0, and OTU4-<ci>-<si>-62-0 interfaces respectively.

» Internal ODUC1 connections get created automatically between logical ODU4s 55 to 58 to network port P2 ODUC1j.

c. Create Muxponder connection between client ports (ETH-<Ci>-<Si>-15 to ETH-<Ci>-<Si>-54) and logical OTU4 network interfaces.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears.

» Click Create a new Transponder/Muxponder. On Muxponder Options page, select the network port as OTU4-<ci>-<si>-59-0 and the client port as ETH-<Ci>-<Si>-15 from the drop down and select the TS and the TPN of the network interface. Add the client interfaces ETH-<Ci>-<Si>-16 to ETH-<Ci>-<Si>-24 to OTU4-<ci>-<si>-59-0.

» Similarly, create following muxponder configurations:

Table 50: Muxponder configurations
Network port and client ports
Network port OTU4-<ci>-<si>-60-0 and client ports ETH-<ci>-<si>-25 to ETH-<ci>-<si>-34
Network port OTU4-<ci>-<si>-61-0 and client ports ETH-<ci>-<si>-35 to ETH-<ci>-<si>-44
Network port OTU4-<ci>-<si>-62-0 and client ports ETH-<ci>-<si>-45 to ETH-<ci>-<si>-54

4. Feed the 10GE traffic from the Test set to the port P15.

5. Monitor the Rx signal at port P54 connected to the Test set. Verify that no traffic is lost.

6. Record the result and verify that all the ports are functioning correctly.

18.14 Test HCPSLine32 card

This procedure helps you perform the testing traffic on interfaces of HCPSLine32 card.

Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.14.1 Points to remember

• No system level alarms should be present on the node.

• For detailed configuration procedure, refer TJ1600 Product Family User Interface Guide of this release.

18.14.2 Procedure for testing 100G ports on HCPSLine32

NOTE: Procedure is explained for testing 100GE client ports. Perform the same steps for testing OTU4/OTUC1 client ports by selecting the appropriate port configuration.

1. Insert a working HCPSLine32 card in supported slot. Refer to Card population rule.

2. Connect the test set up as shown in the following figure:

a. Connect the Tx of the Ethernet Test Set-1 to the Rx of port P3 and Rx of Ethernet Test Set-1 to the Tx of port P14.

b. Connect optical fiber cables between user-network interface (UNI) ports P3 to P14 in Tandem connection.

c. Connect physical loopbacks at network-network interface (NNI) port P2. Following is the set up for testing 100G ports on HCPSLine32 card.

Figure 338: Test set up for testing 10G ports on HCPSLine31 card Test set up for testing 100G ports on HCPSLine32 card

3. In the node UI, perform the following steps:

a. Click Inventory > Node inventory in the navigation pane. The Node Inventory preview pane appears. Click the slot number corresponding to the HCPSLine32 Card. On HCPSLine32 Intelligent Card preview page, perform the following steps:

» Configure card mode. Click Configure Card and select 40x10G+12x100G/3X400G/FLEX->2X600G from the drop down. Click Submit and accept modifications.

» Admin Up the required ports.

» Channelize the ports P1 and P2 with bit rate of 100G capacity.

» Click Ports, and Click port OTUC6-<Ci>-<Si>-1. On Provision interface - OTUC6-<Ci>-<Si>-1 page Click ODUC4k-<Ci>-<Si>-1-0 and then click Create channel. Select bit rate as 100G, enter the Source and Sink Tributary Port Number, select twelve Source Tributary Slot and twelve Sink Tributary Slot for each channel.

4. Create ODU connections for 100GE ports P3 to P8 with OTUC6 port P1 and for 100GE ports P9 to P14 with OTUC6 port P2.

a. Go to OTN > ODU Connections and click Create New Connection. Select Capacity as ODUC1, enter the name of Circuit Identifier, Directionality as 2WAY, Source ODU, and Destination ODU.

b. The Source ODU and Destination ODU selection for twelve ODU connections is given in the following table as ODUC1 Connections on HCPSLine32.

5. Feed the 100GE traffic from the Test set to the port P3.

6. Monitor the Rx signal at port P14 connected to the Test set. Verify that no traffic is lost.

7. Record the result and verify that all the ports are functioning correctly.

Table 51: ODUC1 connections on HCPSLine32
Source ODU	Destination ODU
ODUC1k-ci-si-3-0	ODUC1j-ci-si-1-1
ODUC1k-ci-si-4-0	ODUC1j-ci-si-1-2
ODUC1k-ci-si-5-0	ODUC1j-ci-si-1-3
ODUC1k-ci-si-6-0	ODUC1j-ci-si-1-4
ODUC1k-ci-si-7-0	ODUC1j-ci-si-1-5
ODUC1k-ci-si-8-0	ODUC1j-ci-si-1-6
ODUC1k-ci-si-9-0	ODUC1j-ci-si-2-1
ODUC1k-ci-si-10-0	ODUC1j-ci-si-2-2
ODUC1k-ci-si-11-0	ODUC1j-ci-si-2-3
ODUC1k-ci-si-12-0	ODUC1j-ci-si-2-4
ODUC1k-ci-si-13-0	ODUC1j-ci-si-2-5
ODUC1k-ci-si-14-0	ODUC1j-ci-si-2-6

18.15 Test HCPSLine33 card

This procedure helps you perform the testing traffic on interfaces of HCPSLine33 card.

Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.15.1 Points to remember

• No system level alarms should be present on the node.

• Port 3,12,13,& 14 and Port 35 to 44 are not supported.

• For detailed configuration procedure, refer TJ1600 Product Family User Interface Guide of this release.

18.15.2 Procedure for testing 100G ports on HCPSLine33

NOTE: Procedure is explained for testing 100GE client ports. Perform the same steps for testing OTU4/OTUC1 client ports by selecting the appropriate port configuration.

1. Insert a working HCPSLine33 card in supported slot. Refer to Card population rule.

2. Connect the test set up as shown in the following figure:

a. Connect the Tx of the Ethernet Test Set-1 to the Rx of port P4 and Rx of Ethernet Test Set-1 to the Tx of port P11.

b. Connect optical fiber cables between user-network interface (UNI) ports P4 to P11 in Tandem connection.

c. Connect physical loopbacks at network-network interface (NNI) port P2. Following is the set up for testing 100G ports on HCPSLine33 card.

Figure 339: Test set up for testing 100G ports on HCPSLine33 card

3. In the node UI, perform the following steps:

a. Click Inventory > Node inventory in the navigation pane. The Node Inventory preview pane appears. Click the slot number corresponding to the HCPSLine33 card. On HCPSLine33 Intelligent Card preview page, perform the following steps:

» Configure card mode. Click Configure Card and select 30x10G+8x100G/2X400G/FLEX->2X400G from the drop down. Click Submit and accept modifications.

» Configure ports P1 and P2 to OTUC4 and P4 to P11 to 100GE. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications. Note that only one port can be changed at a time.

» Admin up the required ports.

» Channelize the ports P1 and P2 with bit rate of 100G capacity.

» Click Ports, and Click port OTUC6-<Ci>-<Si>-1. On Provision interface - OTUC6-<Ci>-<Si>-1 page Click ODUC4k-<Ci>-<Si>-1-0 and then click Create channel. Select bit rate as 100G, enter the Source and Sink Tributary Port Number, select twelve Source Tributary Slot and twelve Sink Tributary Slot for each channel.

4. Create ODU connections for 100GE ports P4 to P11 with OTUC4 port P1.

a. Go to OTN > ODU Connections and click Create New Connection. Select Capacity as ODUC1, enter the name of Circuit Identifier, Directionality as 2WAY, Source ODU, and Destination ODU.

» The Source ODU and Destination ODU selection for twelve ODU connections is given in the table below as ODUC1 Connections on HCPSLine33.

5. Feed the 100GE traffic from the Test set to the port P4.

6. Monitor the Rx signal at port P11 connected to the Test set. Verify that no traffic is lost.

7. Record the result and verify that all the ports are functioning correctly.

Table 52: ODUC1 connections on HCPSLine33
Source ODU	Destination ODU
ODUC1k-ci-si-4-0	ODUC1j-ci-si-1-1
ODUC1k-ci-si-5-0	ODUC1j-ci-si-1-2
ODUC1k-ci-si-6-0	ODUC1j-ci-si-1-3
ODUC1k-ci-si-7-0	ODUC1j-ci-si-1-4
ODUC1k-ci-si-8-0	ODUC1j-ci-si-1-5
ODUC1k-ci-si-9-0	ODUC1j-ci-si-1-6
ODUC1k-ci-si-10-0	ODUC1j-ci-si-2-1
ODUC1k-ci-si-11-0	ODUC1j-ci-si-2-2

18.15.3 Procedure for testing 10G ports on HCPSLine33

NOTE: Procedure is explained for testing 10GE-LAN client ports. Perform the same steps for testing STM64/OTU2/OTU2e client ports by selecting the appropriate port configuration.

1. Insert a working HCPSLine33 card in supported slot. Refer to Card population rule.

2. Connect the test set up as shown in the following figure:

a. Connect the Tx of the Test Set to the Rx of port P15 and Rx of Test Set to the Tx of port P34. Similarly, connect the Tx of the Test Set to the Rx of port P45 and Rx of Test Set to the Tx of port P54.

b. Connect optical fiber cables between user-network interface (UNI) ports P15 to P34 and P45 to P54 in Tandem connection.

c. Connect physical loopback at network-network interface (NNI) port P1. Following is the set up for testing 10G ports on HCPSLine33 card.

Figure 340: Test set up for testing 10G ports on HCPSLine33 card

3. In the node UI, perform the following steps:

a. Go to Inventory > Node inventory in the navigation pane. The Node Inventory preview pane appears. Click the slot number corresponding to the HCPSLine33 card. On HCPSLine33 Intelligent Card preview page, perform the following steps:

» Configure card mode. Click Configure Card and select 30x10G+8x100G/2X400G/FLEX->2X400G from the drop down. Click Submit and accept modifications.

» Configure ports P2 to OTUC4, P15 to P34 and P45 to P54 to 10GE-LAN. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications. Note that only one port can be changed at a time.

» Admin up the required ports.

» Channelize the port P2 with bit rate of 100G capacity.

» Click Ports, and Click port OTUC4-<Ci>-<Si>-2. On Provision interface - OTUC4-<Ci>-<Si>-2 page, Click ODUC4k-<Ci>-<Si>-2-0 and then click Create channel.

» Select bit rate as 100G, enter the Source and Sink Tributary Port Number, select twenty Source Tributary Slot and twenty Sink Tributary Slot for each channel.

» Four logical interfaces OTUC1-<Ci>-<Si>-55, OTUC1-<Ci>-<Si>-56, and OTUC1-<Ci>-<Si>-58 are created.

b. Configure the port P2 channelized interfaces (in previous step) to create logical OTU4 interfaces.

» Go to Configuration > Facilities > OTU and Click the ODUC1k-<Ci>-<Si>-55-0 interface corresponding to OTUC1-<Ci>-<Si>-55. On ODUC1k-<Ci>-<Si>-55-0 interface configuration page, select the Client Signal Termination Mode as Terminate OTU and select the Terminate With as ODUC-<Ci>-<Si>-2-1. The logical OTU4-<ci>-<si>-59-0 interface is created.

» Similarly, configure ODUC1-<Ci>-<Si>-56-0, and ODUC1-<Ci>-<Si>-58-0 to create logical OTU4-<ci>-<si>-60-0, OTU4-<ci>-<si>-61-0, and OTU4-<ci>-<si>-62-0 interfaces respectively.

» Internal ODUC1 connections get created automatically between logical ODU4s 55 to 58 to network port P2 ODUC1j.

c. Create Muxponder connection between client ports (ETH-<Ci>-<Si>-18 to ETH-<Ci>-<Si>-54) and logical OTU4 network interfaces.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears.

» Similarly, create following muxponder configurations:

Table 53: Muxponder configurations
Network port and client ports
Network port OTU4-<ci>-<si>-60-0 and client ports ETH-<ci>-<si>-25 to ETH-<ci>-<si>-34
Network port OTU4-<ci>-<si>-62-0 and client ports ETH-<ci>-<si>-45 to ETH-<ci>-<si>-54

4. Feed the 10GE traffic from the Test set to the port P15.

5. Monitor the Rx signal at port P54 connected to the Test set. Verify that no traffic is lost.

6. Record the result and verify that all the ports are functioning correctly.

18.16 Test HCPSLine34 card

This procedure helps you perform the testing traffic on interfaces of HCPSLine34 card.

18.16.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.16.2 Points to remember

• No system level alarms should be present on the node.

• Port 3,12,13, and 14 are not supported

• For detailed configuration procedure, refer TJ1600 Product Family User Interface Guide of this release.

18.16.3 Procedure for testing 100G ports on HCPSLine34

NOTE: Procedure is explained for testing 100GE client ports. Perform the same steps for testing OTU4/OTUC1 client ports by selecting the appropriate port configuration.

1. Insert a working HCPSLine34 card in supported slot. Refer to Card population rule.

2. Connect the test set up as shown in the following figure:

a. Connect the Tx of the Ethernet Test Set-1 to the Rx of port P4 and Rx of Ethernet Test Set-1 to the Tx of port P11.

b. Connect optical fiber cables between user-network interface (UNI) ports P4 to P11 in Tandem connection.

c. Connect physical loopbacks at network-network interface (NNI) port P2.

Following is the set up for testing 100G ports on HCPSLine34 card.

Figure 341: Test set up for testing 100G ports on HCPSLine34 card

3. In the node UI, perform the following steps:

a. Click Inventory > Node inventory in the navigation pane. The Node Inventory preview pane appears. Click the slot number corresponding to the HCPSLine34 card. On HCPSLine34 Intelligent Card preview page, perform the following steps:

» Configure card mode. Click Configure Card and select 30x10G+8x100G/2X400G/FLEX->2X400G from the drop down. Click Submit and accept modifications.

» Admin Up the required ports.

» Channelize the ports P1 and P2 with bit rate of 100G capacity.

» Click Ports, and Click port OTUC6-<Ci>-<Si>-1. On Provision interface - OTUC6-<Ci>-<Si>-1 page Click ODUC4k-<Ci>-<Si>-1-0 and then click Create channel. Select bit rate as 100G, enter the 'Source and Sink Tributary Port Number', select twelve 'Source Tributary Slot' and twelve 'Sink Tributary Slot' for each channel.

4. Create ODU connections for 100GE ports P4 to P11 with OTUC4 port P1.

a. Go to OTN > ODU Connections and click Create New Connection. Select Capacity as ODUC1, enter the name of Circuit Identifier, Directionality as 2WAY, Source ODU and Destination ODU.

b. The Source ODU and Destination ODU selection for twelve ODU connections is given in the table below as ODUC1 Connections on HCPSLine34.

5. Feed the 100GE traffic from the Test set to the port P4.

6. Monitor the Rx signal at port P11 connected to the Test set. Verify that no traffic is lost.

7. Record the result and verify that all the ports are functioning correctly.

Table 54: ODUC1 connections on HCPSLine34
Source ODU	Destination ODU
ODUC1k-ci-si-4-0	ODUC1j-ci-si-1-1
ODUC1k-ci-si-5-0	ODUC1j-ci-si-1-2
ODUC1k-ci-si-6-0	ODUC1j-ci-si-1-3
ODUC1k-ci-si-7-0	ODUC1j-ci-si-1-4
ODUC1k-ci-si-8-0	ODUC1j-ci-si-1-5
ODUC1k-ci-si-9-0	ODUC1j-ci-si-2-1
ODUC1k-ci-si-10-0	ODUC1j-ci-si-2-2
ODUC1k-ci-si-11-0	ODUC1j-ci-si-2-3

18.17 Test CEF-5 card

This procedure helps you perform the traffic testing on CEF-5 Ethernet interfaces.

Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Chapter: General procedures, Section: Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.17.1 Procedure for testing CEF-5 card interfaces in L2 mode

Perform the following steps for testing Ethernet traffic on CEF-5 card interfaces:

1. Insert a working cross connect card in supported slot.

2. Insert a working CEF-5 card in supported slot.

3. Connect the Ethernet test set -1 to the port P5 and Ethernet test set -2 to the port P1 of CEF-5 card as shown in the set up below.

4. Connect optical cables between 1G ports and between 10G ports as shown in the set up below.

5. Connect loop back at 1G port P20 and at 10G port P16.

Figure 342: Setup for Testing CEF-5 Card Interfaces

6. In the node UI, perform the following configurations:

a. Configure the card in the 6*10G + 12*1G mode in the UI.

» Go to Inventory > Node Inventory in the navigation pane and click the Slot number link corresponding to CEF-5 card. Carrier Ethernet Fabric Card page appears. Click Configure CEF5 Modes, EoS/EoPDH Card Configuration - CEF-5-1-<Slot number> page appears. Select 6*10G + 12*1G under the drop down menu of CardPortMode.

b. Admin up the required interfaces.

c. Provision ELINE services.

» Go to L2 Services > ServiceSwitch > Services provisioning > ELINE Services in the navigation pane and click Add New ELINE Service link. The Provision ELINE service between interfaces P5-P6, P7-P8, P9-P10, P11-P12, P17-P18, P19-P20, P1-P2, P3-P4, and P15-P16.

7. Now feed the traffic from the Ethernet test set -1 to the interface P5 and from Ethernet test set -2 to the interface P1.

8. Monitor these frames on Ethernet test set from interfaces P1 and P5, and record the data in Test performance- CEF-5 card table.

9. Verify that there are no frame drops in the traffic received.

Table 55: Test performance - CEF-5 card
Port Number	Tx Count (Frames)	Rx Count (Frames)	Dropped Count (Frames)
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
P15
P16
P17
P18
P19
P20

18.18 Test OFA card

18.18.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.18.2 Testing procedure

Follow the procedure to test the optical interface on OFA card:

1. The test setup requires an OFA card and a +23dBm Power meter.

2. Measure input power to the OFA card with power meter. Ensure it is between 0 and -10 dBm.

3. Feed input power to the Rx port of OFA card.

4. Measure output power of OFA by connecting the Power meter to the Tx end of the same interface on OFA card to be tested.

5. Monitor the power on the Tx end by using the Power meter. Difference between the amplifier input power in dBm and output power in dBm gives actual gain achieved by the amplifier which appears in the UI.

6. Ensure that the output power (dBm) [addition of Input Power and Gain] is within +/- 1dB

For example, for OFA-C-S17-FG card,

If Input power = -10 dBm, Gain = 23 dB, then Output power = -10 + 23 = 13 dBm.

NOTE 1: In case of very high output power, the Power meter is connected to the Monitor port on OFA card.

In this case, the Output power (dBm) = Input power + Gain - (~20 dB).

NOTE 2: Similar procedure should be followed for testing other optical ports on OFA card.

18.19 Test OPM card

18.19.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.19.2 Testing procedure

Follow the procedure to test the OPM cards:

NOTE: The procedure is applicable to test the OPM-4-C-50G, OPM-2-C-50G, and OPM-4-C-FLX cards.

1. Insert a working cross connect card in supported slot.

2. Insert a working OPM card and MDU card along with Adapter cards HCPADP01 and HCPADP02.

3. Insert a working MDU card in supported slot.

4. Make the connections as shown in the setup.

Figure 343: Test OPM card

5. In the node UI, perform the following steps to enable the Tx and Rx of Monitoring port on the OFA connected to OPM port.

a. Go to Inventory > Shelf-1 and Click the MDU card. Multiplexer-Demultiplexer Card page appears.

b. Click Common <port>. Common <port> page appears.

c. Select the Tx OPM Monitoring and Rx OPM Monitoring as Enable.

d. Select the Tx Monitoring Port and Rx Monitoring Port from the drop down.

e. Click Submit. Successful message appears.

To test OPM-4-C-FLX, an additional step is required to create channel group with Start and End frequency. For more details, refer TJ1600 Product Family User Interface Guide.

6. Feed input power to the Rx port of OFA card. On Common <port> page Click the link Click Here against the View Tx Channels Power/View Rx Channels Power to view the Channel Power and OSNR.

NOTE: To view the OSNR values, License must be enabled in node UI.

18.20 Test Variable Optical Attenuator (VOA) card

18.20.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.20.2 Testing Procedure

Follow the procedure to test the optical interface on VOA card:

1. The test setup requires an VOA card and a +23dBm Power meter.

2. Measure input power to the VOA card with power meter. Ensure it is between 0 and -10 dBm.

3. Feed input power to the Rx port of VOA card.

4. Measure output power of VOA by connecting the Power meter to the Tx end of the same interface on VOA card to be tested.

6. Ensure that the output power (dBm) [addition of Input Power and Gain] is within +/- 1dB

For example,

If Input power = -10 dBm, Gain = 23 dB, then Output power = -10 + 23 = 13 dBm.

18.21 Test OADM card

This procedure helps you perform the traffic testing on OADM-4-D card.

18.21.1 Before you start

The following precautionary measures have to be taken:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

• Ensure that you have a variable attenuator.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.21.2 Testing Procedure

Follow the procedure to test the optical interface on OADM-4-D card:

NOTE: Ensure that the power to DWDM XFPs receivers is less than -10dBm.

1. The testing setup requires two HCPSLine03 cards.

Consider one card as line side card and other as client side card.

2. In one HCPSLine03 card, Insert four DWDM XFPs (or tunable XFPs) corresponding to the 4 channels of OADM-4-D card.

3. In other HCPSLine03 card, Insert four 10km XFPs.

4. Create a cross-connect between Port 1-Port 1 of the two HCPSLine03 cards. Similarly, create cross-connects between Port 2-Port 2, Port 3-Port 3 and Port 4-Port 4 of the two cards.

5. Insert 15 dB attenuator on each DWDM XFP Rx.

6. Create a tandem connection on client side HCPSLine03 card with the Tester as shown in the figure.

7. Feed the traffic from the tester and ensure 0 bit errors.

8. Note down the Tx and Rx power of DWDM XFP in the UI.

Ensure that (Tx power - Rx Power -15 ) < 7 dB

For example, if Tx power = +2dBm and Rx power = -19dBm, then 2- (-19)-15 = 6dB

Figure 344: Testing OADM-4-D card

NOTE: Similar procedure should be followed for testing OADM-1-D.

18.22 Test MDU-16CL-C-50G and ROADM-4-C-50G cards

18.22.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.22.2 Testing Procedure

Follow this procedure to test the MDU-16CL-C-50G, and ROADM-4-C-50G cards.

1. The test set up requires a HCPSLine22, MDU-16CL-C-50G and ROADM-4-C-50G cards.

2. Connect the Test Set 1 to the port P6 on HCPSLine22 card.

3. Loopback at port P6 of HCPSLine22 card.

4. Connect port P2 on HCPSLine22 card to one channel on MDU-16CL-C-50G.

NOTE: Identify the wavelength and then connect to the corresponding channels on MDU-16CL-50G unit.

5. Connect the Tx and the Rx of Common on MDU-16CL-C-50G to the Rx and Tx of Add/Drop port 1 on ROADM-4-C-50G respectively.

6. Provide a loopback on Common of ROADM-4-C-50G. The overall setup is as follows:

Figure 345: Setup for Testing MDU-16CL-C-50G and ROADM-4-C-50G cards

7. Define the wavelength/frequency for the channel on MDU-16CL-C-50G.

8. Define the port connect between HCPSLine22, MDU-16CL-C-50G and ROADM-4-C-50G in the node UI as follows:

— Bidirectional port connect between P1 of HCPSLine22 and channel on MDU-16CL-C-50G.

— Bidirectional port connect between Common of MDU-16CL-C-50G to Add/Drop port 1 on ROADM-4-C-50G.

9. Configure bidirectional lambda connections between channel on MDU-16CL-C-50G to Common on ROADM-2-C-50G.

10. Feed the STM-64 traffic 10GE traffic from the Test Set to the interface P6 of HCPSLine22 card.

11. Monitor the Rx signal from P6 of HCPSLine22 card and verify that there are no frame drops in the fed traffic.

12. Repeat the procedure for different interfaces of MDU-16CL-C-50G and ROADM-4-C-50G.

This system testing procedure can also be performed for different versions of ROADM cards namely ROADM-8-C-50G.

18.23 Test MDU-40E-C-100G, MDU-40O-C-100G and ILU-C-50G cards

18.23.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.23.2 Testing Procedure

Follow this procedure to test the MDU-40E-C-100G, MDU-40O-C-100G and ILU-C-50G cards; the setup uses two ILU cards which have been given suffix 1 and 2 for the purpose of distinction.

1. The test set up requires HCPSLine03 card, MDU-40E-C-100G, MDU-40O-C-100G and ILU-C-50G cards.

2. Connect the Test Set 1 to the port 1 and Test Set 2 to the port 2 of HCPSLine03 card.

3. Connect port 3 of HCPSline03 to one Channel of MDU-40E-C-100G and port 4 of HCPSLine03 to one Channel of MDU-40O-C-100G.

NOTE: Identify the wavelength and then connect to the corresponding channels on MDU-40E-C-100G and MDU-40O-C-100G.

4. Connect Tx of Common on MDU-40E-C-100G to Even port of In/Out port on ILU-C-50G (1) and similarly the Tx of Common on MDU-40O-C-100G to Odd port of In/Out port on ILU-C-50G (1).

5. Connect Even port of In/Out port on ILU-C-50G (2) to Rx Common on MDU-40E-C-100G. Similarly, connect Odd port of In/Out port on ILU-C-50G (2) to the Rx Common port of MDU-40O-C-100G.

6. Connect Common on ILU-C-50G (1) to Rx of OFA and Tx of same port on OFA to Common on ILU-C-50G (2). The OFA version required to be used depends on the output power and the distance of transmission. Based on the power requirement, a second OFA can also be added but the output power from the first OFA must be within the threshold limit of second OFA. The output power is measured using Optical Power Meter (OPM). In case of dispersion compensation, use DCM before connecting to OFA.

The overall setup diagram is as follows.

Figure 346: Setup for testing HCPSLine03, MDU40E-D, MDU40O-D, and ILU-C-50G cards

7. Configure HCPSLine03 in intracard transponder/muxponder mode.

8. Define the port connect between HCPSLine03, MDU-40E-C-100G, MDU-40O-C-100G and ILU-C-50G in the node UI as follows:

— Bidirectional port connect between port 3 on HCPSLine03 and the Channel on MDU-40E-C-100G

— Bidirectional port connect between port 4 on HCPSLine03 and the Channel on MDU-40O-C-100G

— Unidirectional port connect between Tx of Common of MDU-40E-C-100G to Even interface of ILU-C-50G (1)

— Unidirectional port connect between Tx of Common of MDU-40O-C-100G to Odd interface of ILU-C-50G (1)

— Unidirectional port connect between Even interface of In/Out port on ILU-C-50G (2) to Rx of Common on MDU-40E-C-100G

— Unidirectional port connect between Odd interface of In/Out Port of ILU-C-50G (2) to Rx of Common on MDU-40O-C-100G

— Unidirectional port connect between Common of ILU-C-50G (1) to Rx of OFA

— Unidirectional port connect between Tx of OFA to Common of ILU-C-50G (2)

9. Feed the STM-64/OC-192 traffic from the Test Set 1 and 10GE traffic from the Test Set 2 to port 1 and port 2 respectively on HCPSLine03 card.

10. Monitor the traffic on Test Set 1 and 2 and verify that there are no frame drops in the traffic feed.

11. Make the physical connections accordingly and repeat the procedure for different channels of MDU-40E-C-100G and MDU-40O-C-100G.

This system testing procedure can also be performed using other card options for the above given setup;

• HCPSLine08 card in place of HCPSLine03 card.

• Any available version of OFA card can be used in the given setup, for example, OFA-C-S20-VG, OFA-C-D20-VG, OFA-C-D20-HG, OFA-C-S20-LG and OFA-C-D20-LG.

18.24 Test MDU-96-C-50G card

18.24.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.24.2 Testing Procedure

Follow this procedure to test the MDU-96-C-50G card; the setup uses two MDU96 cards which have been given suffix 1 and 2 for the purpose of distinction.

1. The test set up requires HCPSLine03 and MDU-96-C-50G cards.

2. Connect the Test Set 1 to the port 1 and Test Set 2 to the port 2 of HCPSLine03 card.

3. Connect port 3 of HCPSline03 to one Channel of MDU-96-C-50G (1) and port 4 of HCPSLine03 to one Channel of MDU-96-C-50G (2).

4. Connect the Common port on MDU-96-C-50G to Rx of a port on an OFA card and Tx of the same port on the OFA card to the Common port on MDU-96-C-50G (2).

NOTE: The OFA version required to be used depends on the output power and the distance of transmission. Based on the power requirement, a second OFA can also be added but the output power from the first OFA must be within the threshold limit of second OFA. The output power is measured using Optical Power Meter (OPM). In case of dispersion compensation, use DCM before connecting to OFA.

The overall setup diagram is as follows.

Figure 347: Test the MDU-64-D Test MDU-64-D

5. Configure HCPSLine03 in intracard transponder/muxponder mode.

6. Define the port connect between HCPSLine03 and MDU-96-C-50G in the node UI as follows:

— Bidirectional port connect between port 3 on HCPSLine03 and the Channel on MDU-96-C-50G

— Bidirectional port connect between port 4 on HCPSLine03 and the Channel on MDU-96-C-50G

— Unidirectional port connect between Tx of Common of MDU-96-C-50G (1) to Rx of OFA port 1

— Unidirectional port connect between Rx of Common of MDU-96-C-50G (2) to Tx of OFA port 1

— Unidirectional port connect between Tx of Common of MDU-96-C-50G (2) to Rx of OFA port 2

— Unidirectional port connect between Rx of Common of MDU-96-C-50G (1) to Rx of OFA port 2

7. Feed the STM-64/OC-192 traffic from the Test Set 1 and 10GE traffic from the Test Set 2 to port 1 and port 2 respectively on HCPSLine03 card.

8. Monitor the traffic on Test Set 1 and 2 and verify that there are no frame drops in the traffic feed.

9. This system testing procedure can also be performed using other card options for the above given setup;

— HCPSLine08 card in place of HCPSLine03 card.

— Any available version of OFA card can be used in the given setup, for example, OFA-C-S20-VG, OFA-C-D20-VG, OFA-C-D20-HG, OFA-C-S20-LG, OFA-C-D20-LG, OFA-C-S20-LVG, OFA-C-D20-LVG, and OFA-C-D20-MVG

18.25 Test MDU8-D card

18.25.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.25.2 Testing Procedure

Follow this procedure to test the HCPSLine03 and MDU8-D; the setup uses two MDU8-D cards.

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine03 card in supported slot.

3. Connect the Test set to the port 1 of HCPSLine03 card.

4. Connect port 3 of HCPSLine03 to one channel of MDU8-D and port 4 of HCPSLine03 to one Channel of MDU8-D.

5. Loopback at port 2.

NOTE: Identify the wavelength and then connect to the corresponding channels on MDU8-D.

6. Connect Tx of Common on one MDU8-D to Rx of other MDU8-D card.

The overall setup diagram is as follows:

Figure 348: Setup for Testing HCPSLine03 and MDU8-D cards

7. Configure HCPSLine03 in SDH GATEWAY card mode.

Go to Inventory > Node Inventory in the navigation pane on the node GUI and Click the Slot number link corresponding to HCPSLine01 card. HCPULine01 Port Group Card page appears. Click Configure Card, the Card configuration - HCPSLine03-1-<Slot number> page appears. Select SDH GATEWAY card under the drop down menu of Card Configuration.

8. Provision cross-connects between port 1 and port 3, port 2 and port 4 in the node UI.

Go to Configuration > Cross-Connect, the Configure Cross-connects page appears. Click Add Cross-connect and provision a cross connect of VC4_64c capacity with 'Source Port' as port 1 and 'Destination Port' as port 3. Similarly, create other cross-connects of VC4_64c capacity with 'Source Port' as port 2 and 'Destination Port' as port 4.

9. Define the port connect between HCPSLine03 and MDU8-D in the node UI as follows:

— Bidirectional port connect between port 3 on HCPSLine03 and the Channel on MDU8-D (1)

— Bidirectional port connect between port 4 on HCPSLine03 and the Channel on MDU8-D (2)

— Bidirectional port connect between Common of MDU8-D (1) to Common of MDU8-D (2)

10. Feed the STM-64 traffic from the Test Set to port 1 on HCPSLine03 card.

11. Monitor the traffic on Test Set and verify that there are no frame drops in the traffic feed.

12. Record the result in Test Performance for HCPSLine03 card. The result verifies that all the optical ports are functioning correctly.

13. Make the physical connections accordingly and repeat the procedure for different channels of MDU8-D.

18.26 Test MDU-16-D card

18.26.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.26.2 Testing Procedure

Follow this procedure to test the HCPSLine03 and MDU-16-D; the setup uses two MDU-16-D cards.

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine03 card in supported slot.

3. Connect the test set to the port 1 of HCPSLine03 card.

4. Connect port 3 of HCPSLine03 to one channel of MDU-16-D and port 4 of HCPSLine03 to one channel of MDU-16-D.

5. Loopback at port 2.

NOTE: Identify the wavelength and then connect to the corresponding channels on MDU-16-D.

6. Connect Tx of Common on one MDU-16-D to Rx of other MDU-16-D card.

The overall setup diagram is as follows:

Figure 349: Setup for testing HCPSLine03 and MDU-16-D cards

7. In the node UI, go to Inventory > Node Inventory in the navigation pane and Click the Slot number link corresponding to HCPSLine03 card, HCPSLine03 Aggregate Card page appears. Perform the following steps on this page:

— Configure card in OTN FlexiCard mode. Click Configure Card and select OTN FlexiCard under the drop down menu of Card Configuration. Click Submit and accept modifications.

— Configure ports P1 and P2 to STM-64 and ports P3 and P4 to OTU2. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

— Configure the ports P1 and P2 in Timing-Transparent-Mapped to ODU. Click Ports, and Click port P1. Select Timing-Transparent-Mapped to ODU under the drop down menu of Timing Transparent Mode parameter. Similarly, configure for port P2. Click Submit and accept modifications.

8. In the node UI create ODU connections between the ports P1 to P3 and P2 to P4. Go to OTN > ODU Connections and Click Create New Connection. Select Capacity as ODU2, enter the name of Circuit Identifier, Directionality as 2WAY, Source ODU as port P1 (ODU2k-<Chassis>-<slot>-<port>-0) and Destination ODU as port P3 (ODU2k-<Chassis>-<slot>-<port>-0). Similarly, create ODU connections between port P2 and port P4. Click Submit and accept modifications.

9. Define the port connect between HCPSLine03 and MDU-16-D in the node UI as follows:

— Bidirectional port connect between port 3 on HCPSLine03 and the Channel on MDU-16-D (1)

— Bidirectional port connect between port 4 on HCPSLine03 and the Channel on MDU-16-D (2)

— Bidirectional port connect between Common of MDU-16-D (1) to Common of MDU-16-D (2)

10. Feed the STM-64 traffic from the Test Set to port 1 on HCPSLine03 card.

11. Monitor the traffic on Test Set and verify that there are no frame drops in the traffic feed.

12. Record the result in Test Performance for HCPSLine03 card. The result verifies that all the optical ports are functioning correctly.

13. Make the physical connections accordingly and repeat the procedure for different channels of MDU-16-D.

18.27 Test MDU-64-D card

18.27.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.27.2 Testing procedure

Follow this procedure to test the HCPSLine03 and MDU-64-D; the setup uses two MDU-64-D cards.

1. Insert a working cross connect card in supported slot.

2. Insert a working HCPSLine03 card in supported slot.

3. Connect the Test set to the port 1 of HCPSLine03 card.

4. Connect port 3 of HCPSLine03 to one channel of MDU-64-D and port 4 of HCPSLine03 to one channel of MDU-64-D.

5. Loopback at port 2.

NOTE: Identify the wavelength and then connect to the corresponding channels on MDU-64-D.

6. Connect Tx of Common on one MDU-64-D to Rx of other MDU-64-D card.

— Configure card in OTN FlexiCard mode. Click Configure Card and select OTN FlexiCard under the drop down menu of Card Configuration. Click Submit and accept modifications.

— Configure ports P1 and P2 to STM-64 and ports P3 and P4 to OTU2. Click Ports Configuration and select the desired port configuration for each port. Click Submit and accept modifications.

9. Define the port connect between HCPSLine03 and MDU-64-D in the node UI as follows:

— Bidirectional port connect between port 3 on HCPSLine03 and the Channel on MDU-64-D (1)

— Bidirectional port connect between port 4 on HCPSLine03 and the Channel on MDU-64-D (2)

— Bidirectional port connect between Common of MDU-64-D (1) to Common of MDU-64-D (2)

10. Feed the STM-64 traffic from the Test Set to port 1 on HCPSLine03 card.

11. Monitor the traffic on Test Set and verify that there are no frame drops in the traffic feed.

12. Record the result in Test Performance for HCPSLine03 card. The result verifies that all the optical ports are functioning correctly.

13. Make the physical connections accordingly and repeat the procedure for different channels of MDU-64-D.

18.28 Test PSCM

18.28.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.28.2 Testing Procedure

1. Insert a working controller card in supported slot.

2. Insert two working HCPSLine22 cards in supported slots of the node and install the PSCM separately as it is a standalone unit.

3. Connect the Test set to the common port of PSCM unit.

4. Connect the optical fiber between ports of PSCM and HCPSLine22 as shown in the following setup diagram.

Figure 350: Testing PSCM

5. Loop back at port P1 of HCPSLine22 card.

6. In the node UI, perform the following steps:

a. Configure the HCPSLine22 cards in the 5 10G TRANSPONDER card mode.

b. Create transponder connections between ports P6 and P1 for both HCPSLine22 cards.

» Go to OTN > Transponder/Muxponder > View/ProvisionTransponder/Muxponder in the navigation pane. The View Transponder/Muxponder preview pane appears. Click Create a new Transponder/Muxponder link. Select the Type as transponder, Network Port as OTU2 and Client Port as port P6 from drop down menu and click Create.

c. Configure Y-cable protection.

» Go to OTN > ODU Path Linear Protection > Provision ODU Path Linear Protection and Click Provision a new ODU Path Linear Protection. The Provision New ODU Path Linear Protection page appears. Select Architecture as 1+1withoutAPSbytes, Protection Scheme as Y-Cable protection and Monitoring Type as Client NonIntrusive. Select the capacity as ODU2, Work ODU as port P6 of HCPSLine22 (1) card and Protect ODU as port P6 of HCPSLine22 (2) card. Click Create.

7. Feed and monitor the STM-64 traffic from the Test set to the COM port on PSCM card. Verify that no frames are lost. The same procedure to be followed for other client capacities.

18.29 Test FPU01/FPU02 card

This procedure helps you perform the traffic testing on FPU01 card.

18.29.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

• Ensure that you have a variable attenuator.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.29.2 Testing procedure

Follow this procedure to test the optical interface on FPU01 card:

1. The test setup requires a FPU01 card.

2. Connect the Tx and Rx ends of Test Set to the Common in and Common out ports on FPU01 card, respectively.

3. Provide physical loopbacks on Work port and Protect port respectively, as shown in the following figure:

Figure 351: Testing FPU01 card

4. Feed the traffic from the Test Set and ensure no bit errors are reported.

5. The LED status on the FPU01 card indicates the active traffic path. Ensure Work LED is Green and Protect LED is Amber.

6. Now induce a signal failure on the work path.

7. Ensure that the traffic is switched to protect path and is up.

8. Check the LED status on FPU01 card. Work LED is Red and Protect LED is Green. The FPU switched to protect alarm is raised in the active alarm page.

9. After restoring the work path, the LED status is Green for protect and Amber for the work path. The traffic may switch back to the work path after WTR if FPU in revertive mode. Now, induce a signal fail on the protect path. Traffic switches to work path.

NOTE: For testing switching due to external commands, induce a forced switch. Ensure that the switching time in less than 50msec.

18.30 Test OTDR and OTDR filter card

This procedure helps you perform the traffic testing on OTDR and OTDR filter card.

18.30.1 Before you start

Take the following precautionary measures:

• Ensure that all the optical connectors are clean. Refer to Guidelines for cleaning optical fiber connectors.

• Ensure that you have an adequate number of optical patch cords.

• Ensure that you have a variable attenuator.

RISK OF DAMAGE TO CARDS: Electrostatic discharge can damage electrostatic sensitive devices. Ensure that you are wearing the antistatic strap connected to the ESD location on the node.

RISK OF EYE INJURY: Avoid direct exposure to laser beam or fiber as the invisible light can blind the person. Keep all unused optical connectors capped.

18.30.2 Testing procedure

Follow the procedure to test the OTDR and OTDR filter cards :

1. The test set up requires a OTDR, OTDR filter cards.

2. Insert OTDR card, OTDR filter card along with ADP02 card.

3. Connect the fiber between OTDR port to OTDR filter port.

4. Set the parameters on the OTDR card as per the requirement.

5. Trigger a manual scan. File will be generated.

6. View the scan result.

Test set up for testing OTDR and OTDR filter cards is as follows:

Figure 352: Testing OTDR and OTDR filter cards