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The following flowcharts provide the various steps/procedures that must be performed in order to have the 40G OCLD, Wavelength-selective 40G OCLD, 40G UOCLD, 40G OCI, 40/43G OCI, 40G+ CFP OCI, 40G MUX OCI, 40G XCIF, OSIC, and SLIC10 circuit packs ready to carry traffic. Mating with the 40G OTN XCIF circuit pack is covered in OTN I/F circuit packs,

323-1851-102.8.

40G OCI / 40/43G OCI / 40G+ CFP OCI and 40G OCLD / Wavelength-selective 40G OCLD / 40G UOCLD

End Procedure Is this to be carried

over a

Photonic Layer? No Yes

Install 40G OCI, 40/43G OCI, or 40G+ CFP OCI & 40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD Circuit Packs

and pluggables if applicable Procedures 1-1 and 1-2

Fiber Client and Line Side Ports Procedures 1-3 & 1-4

See "Photonic Network SLAT" in the Photonic Layer Guide

NTRN15DA

Edit 40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD

OTM3 Facility Parameters (Tx Wavelength & Tx Power)

Procedure 1-6 Is 40G 1+1 Line Side

Protection required?

Is line Side or OTU3 mapping layer

GCC0/GCC1 Add and edit client facilities on 40/43G

OCI or 40G+ CFP OCI circuit pack Procedure 1-5

Note: To use the photonic layer, make sure the photonic layer is provisioned. Refer to "Photonic circuit packs provisioning procedures" in 323-1851-102.6.

Provision ODU3 Transponder Cross-Connection between the OCI and the OCLD

Procedure 1-10

40G MUX OCI and 40G OCLD / Wavelength-selective 40G OCLD / 40G UOCLD

Install 40G MUX OCI &

40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD circuit pack(s) and install clients

XFPs on 40G MUX OCI Procedure 1-1 & 1-2

End Procedure Fiber client and line

side ports Procedures 1-3 & 1-4

Edit 40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD

OTM3 facility parameters (Tx Wavelength & Tx Power)

Procedure 1-6

See "Photonic Network SLAT" in the Photonic Layer Guide

NTRN15DA Add & edit 40G MUX OCI OTM2, OC-192, STM-64, or

ETH10G client facility Is line side or client side

protection required?

Is GCC0/GCC1 required?

Is this to be carried over a

Note : To use the photonic layer, make sure the photonic layer is provisioned. Refer to "Photonic circuit packs provisioning procedures" in 323-1851-102.6.

Provision ODU3 Transponder Cross-Connection between the 40G MUX OCI and the 40G OCLD, Wavelength-selective

40G OCLD, or 40G UOCLD Procedure 1-10

40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD regenerator

Install 40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD circuit packs

Procedure 1-1

End Procedure Fiber line

side ports Procedures 1-3 & 1-4

Edit 40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD

OTM3 facility parameters (Tx Wavelength & Tx Power)

Procedure 1-6

See "Photonic Network SLAT" in the Photonic Layer Guide

NTRN15DA

Provision GCC0 Procedure 1-9 Is GCC0

required?

Is this to be carried over a

Photonic Layer? No

No

Yes

Yes

Note: To use the photonic layer, make sure the photonic layer is provisioned. Refer to "Photonic circuit packs provisioning procedures" in 323-1851-102.6.

Provision ODU3 Transponder cross-connection between the 2 OCLDs

Procedure 1-10

40G XCIF and 40G OCLD / Wavelength-selective 40G OCLD / 40G UOCLD

End Procedure Is this to be carried

over a

Edit the OC192/STM64 facility to OOS Procedure 1-13

Edit the OC192/STM64 facility parameters

as required Procedure 1-6

Provision lower layer DCC/GCC and router circuit

Is DCC/GCC required? Yes OC192/STM64 protection?

Unprotected/UPSR

1+1 BLSR/MS-SPRing

Edit the OC192/STM64 facility to IS Procedure 1-13 Install 40G XCIF & 40G OCLD, Wavelength-selective 40G OCLD,

or 40G UOCLD circuit pack(s) Procedure 1-1

Fiber line side ports Procedures 1-3 & 1-4

See "Photonic Network SLAT" in the Photonic Layer Guide

NTRN15DA Edit 40G OCLD, Wavelength-selective

40G OCLD, or 40G UOCLD OTM3 facility parameters (Tx wavelength & Tx power)

Procedure 1-6

Change 40G XCIF equipment mode

Note 1: To use the photonic layer, make sure the photonic layer is provisioned. Refer to "Photonic circuit packs provisioning procedures" in 323-1851-102.6.

Note 2: Protection is not supported when 40G XCIF is mated with Wavelength-selective 40G OCLD or 40G UOCLD.

Note 3: For control plane provisioning procedures, refer to Configuration - Control Plane, 323-1851-330.

OSIC submarine application

SLIC10/SLIC10 Flex submarine application

Install OSIC circuit packs Procedure 1-1

Provisioning complete

Edit OSIC OTM2 facility parameters (depending on whether Idler or Supervisory Channel Idler mode required)

Procedure 1-6

Provision the supervisory channel address list See Submarine Networking Application Guide,

NTRN72AA

Configure and test CPL or 6500 SLTE See Submarine Networking Application Guide,

NTRN72AA

Perform a supervisory scan See Submarine Networking Application Guide,

NTRN72AA

Provisioning complete Configure and test the SLTE See Submarine Networking Application Guide,

NTRN72AA

Install SLIC10/SLIC10 Flex circuit pack(s) Procedure 1-1

Install the WSS circuit pack See Photonic Circuit Packs and Modules,

323-1851-102.6

Connect the fiber between SLIC10/SLIC10 Flex and WSS circuit packs

Procedures 1-3 and 1-4

Edit the IDLER facility parameters on the SLIC10/SLIC10 Flex

Procedure 1-6

Provisioning rules summary for the 40G OCI circuit packs:

• If an OTN cross-connect is not provisioned in the shelf, the circuit pack supports the broadband facilities (OTMn, ETH40G, OC768/STM256) only.

• If an OTN cross-connect is provisioned in the shelf, the facilities must be manually provisioned.

• Manual provisioning of broadband facilities is possible when mated with 40G OCLD/Wavelength-selective 40G OCLD/40G UOCLD.

• For the NTK529SJE5 variant, manual provisioning of OTN I/F facilities is possible when mated with 40G OTN XCIF with an equipment profile of 40GNNI. PTP provisioning triggers equipment mating with the 40G OTN XCIF. See OTN I/F circuit packs, 323-1851-102.8, for more information about the OTN I/F facilities.

Provisioning rules summary for the 40G MUX OCI circuit packs

• If an OTN cross-connect is not provisioned in the shelf, the circuit pack supports the broadband facilities (OTMn, ETH10G, OC192/STM64) only.

• If an OTN cross-connect is provisioned in the shelf, the facilities must be manually provisioned.

• Manual provisioning of broadband facilities is possible when mated with 40G OCLD/Wavelength-selective 40G OCLD/40G UOCLD.

• For the NTK525CFE5 variant, manual provisioning of OTN I/F facilities is possible when mated with 40G OTN XCIF with an equipment profile of 10G. PTP provisioning triggers equipment mating with the 40G OTN XCIF. See OTN I/F circuit packs, 323-1851-102.8, for more information about the OTN I/F facilities.

Provisioning rules summary for the 40G OCLD/Wavelength-selective 40G OCLD/40G UOCLD circuit packs:

• If an OTN cross-connect is not provisioned in the shelf, the circuit pack supports the broadband facilities (OTM3) only.

• If an OTN cross-connect is provisioned in the shelf, the facilities must be manually provisioned.

• Manual provisioning of broadband facilities is possible when mated with 40G OCI, 40G MUX OCI, or 40G XCIF.

• Manual provisioning of OTN I/F facilities is possible when mated with 40G OTN XCIF with an equipment profile of 40GNNI, OTU3E2 or 4x10G.

PTP provisioning triggers equipment mating with the 40G OTN XCIF. See OTN I/F circuit packs, 323-1851-102.8, for more information about the OTN I/F facilities.

Provisioning rules summary for the 40G XCIF circuit packs

• In a 14-slot converged shelf with a 160G cross-connect, the 40G XCIF with 40G OCLD or Wavelength-selective 40G OCLD is only supported in slots 6 and 10. The 40G XCIF and 40G UOCLD combination is not supported with the 160G cross-connect.

• With a 240G and above cross-connect, the 40G XCIF is supported in all even slots, plus slots 1, 13, 21, and 33 of a 32-slot shelf and slots 1 and 9 of a 14-slot shelf.

• If the 40G XCIF is paired with a 40G OCLD or Wavelength-selective 40G OCLD, the 40G OCLD or Wavelength-selective 40G OCLD must be in the odd slot to the left of the 40G XCIF in even slot.

• If the 40G XCIF is paired with a 40G UOCLD, they are supported in the following slots on a 14-slot shelf:

— 40G XCIF in slot 1 and 40G UOCLD in slots 2/3

— 40G XCIF in slot 6 and 40G UOCLD in slots 4/5

— 40G XCIF in slot 9 and 40G UOCLD in slots 10/11

— 40G XCIF in slot 14 and 40G UOCLD in slots 12/13

• If the 40G XCIF is paired with a 40G UOCLD, they are supported in the following slots on a 32-slot shelf:

— 40G XCIF in slot 1 and 40G UOCLD in slots 2/3

— 40G XCIF in slot 6 and 40G UOCLD in slots 4/5

— 40G XCIF in slot 13 and 40G UOCLD in slots 14/15

— 40G XCIF in slot 18 and 40G UOCLD in slots 16/17

— 40G XCIF in slot 21 and 40G UOCLD in slots 22/23

— 40G XCIF in slot 26 and 40G UOCLD in slots 24/25

— 40G XCIF in slot 33 and 40G UOCLD in slots 34/35

— 40G XCIF in slot 38 and 40G UOCLD in slots 36/37

• The OTM3 facility is auto-created/deleted with the 40GXCIF equipment.

• The OCn facilities can only be provisioned after 40G XCIF is mated (ODU3 transponder connection is provisioned).

• The ODU3 transponder connection can only be deleted after all OCn facilities have been deleted.

• The equipment profile attribute is supported on the 40GXCIF equipment to configure the OCn mode as OC192/STM64. OC768/STM256 is not supported in this release but not blocked.

• The 40G XCIF does not support physical ports. All interfaces are defined with virtual port numbers starting with value 100:

— 40G interface for OTM3: port 100

— 10G interfaces for OC192 and OTM2: ports 101 to 104

• In OC192/STM64 mode, the OC192/STM64 facility is manually created/deleted. The OTM2 layer facility and ODU2 connections are auto-created/deleted/managed with the client OC192 facility.

Table 1-26 provides references to different procedures covered in this chapter.

Table 1-26

Procedures in this chapter

Topic Page

Procedure 1-1‚ Provisioning a circuit pack automatically 1-142 Procedure 1-2‚ Provisioning a pluggable automatically 1-143 Procedure 1-3‚ Routing fiber-optic cables onto the 6500 shelf 1-144 Procedure 1-4‚ Connecting fiber-optic cables to circuit packs 1-147 Procedure 1-5‚ Adding a facility to an equipment 1-150

Procedure 1-6‚ Editing facility parameters 1-155

Procedure 1-7‚ Changing the protection scheme for a pair of facilities 1-157

Procedure 1-8‚ Creating ring configurations 1-165

Procedure 1-9‚ Adding a new entry in the communications settings 1-168

Procedure 1-10‚ Adding transponder connections 1-170

Procedure 1-11‚ Adding a path connection 1-173

Procedure 1-12‚ Changing the 40G XCIF equipment mode 1-176 Procedure 1-13‚ Changing the primary state of a facility 1-177 Procedure 1-14‚ Changing the primary state of a circuit pack or pluggable 1-179 Procedure 1-15‚ Deleting a facility from an equipment 1-181 Procedure 1-16‚ Deleting a circuit pack or pluggable 1-183

Procedure 1-1

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