40G, 100G, OSIC, And SLIC10 Circuit Packs

Ciena Confidential and Proprietary

40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3

323-1851-102.4 - Standard Issue 3February 2014Copyright 2010-2014 Ciena Corporation. All rights reserved.

6500 Packet-Optical Platform

Whats inside...40G, OSIC, SLIC10, and SLIC10 Flex circuit packs100G circuit packs

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Training 877-CIENA-TD (243-6283) or 410-865-8996 E-mail: [email protected] Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

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8. General. Ciena may assign this Agreement to any Ciena affiliate or to a purchaser of the intellectual property rightsin the Software, but otherwise neither this Agreement nor any rights hereunder may be assigned nor duties delegatedby either party, and any attempt to do so will be void. This Agreement shall be governed by the laws of the State ofMaryland (without regard to the conflict of laws provisions) and shall be enforceable in the courts of Maryland. TheU.N. Convention on Contracts for the International Sale of Goods shall not apply hereto. This Agreement constitutesthe complete and exclusive statement of agreement between the parties relating to the license for the Software andsupersedes all proposals, communications, purchase orders, and prior agreements, verbal or written, between theparties. If any portion hereof is found to be void or unenforceable, the remaining provisions shall remain in full forceand effect.6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

vContents 0New in this release and documentation roadmap xi

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-140G OCLD circuit packs (NTK539PxE5 and NTK539RxE5) 1-1Overview 1-1Supported functionality 1-8

Line support 1-8Client support 1-10Cross-connection types 1-10Cross-connection rates 1-10Performance monitoring 1-10Alarms 1-11

Equipping rules 1-13Technical specifications 1-19

Latency 1-2240G OCI circuit packs (NTK529SAE5, NTK529SDE5, and NTK529SJE5) 1-23Overview 1-23Supported functionality 1-30

Line support 1-30Client support 1-30Cross-connection types 1-33Cross-connection rate 1-33Supported CFPs 1-34Performance monitoring 1-34Alarms 1-35


Latency 1-4440G MUX OCI circuit packs (NTK525CAE5 and NTK525CFE5) 1-45Overview 1-45Supported functionality 1-49

Line support 1-496500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

Client support 1-49Cross-connection types 1-51Cross-connection rate 1-51Supported XFPs 1-51Performance monitoring 1-53Alarms 1-53

vi ContentsEquipping rules 1-59Technical specifications 1-62

Latency 1-6240G XCIF circuit pack (NTK525FAE5) 1-63Overview 1-63Supported functionality 1-66

Cross-connection types 1-67Cross-connection rates 1-67Performance monitoring 1-67Alarms 1-68


Latency 1-7440G UOCLD circuit packs (NTK539XAE5 and NTK539XEE5) 1-75Overview 1-75Supported functionality 1-78



Latency 1-9540G functions 1-96

40G OCLD (NTK539PxE5) and Wavelength-selective 40G OCLD (NTK539RxE5) circuit packs functions 1-96

40G OCI (NTK529SAE5), 40/43G OCI (NTK529SDE5), and 40G+ CFP OCI (NTK529SJE5) circuit packs functions 1-97

40G MUX OCI (NTK525CAE5 and NTK525CFE5) circuit packs functions 1-9740G XCIF (NTK525FAE5) circuit packs functions 1-9840G UOCLD (NTK539XAE5 and NTK539XEE5) circuit packs functions 1-98

OSIC circuit pack (NTK528XAE5) 1-107Overview 1-107Supported functionality 1-109

Line support 1-109Client support 1-109Alarms 1-110

Equipping rules 1-111Technical specifications 1-112Submarine Line Idler 10 Channel (SLIC10 C-Band) circuit pack (NTK554HA) and

Submarine Line Idler 10 Channel (SLIC10 Flex C-Band) circuit pack (NTK554HC) 1-114

Overview 1-114Supported functionality 1-117

Performance monitoring 1-117Alarms 1-120

Equipping rules 1-120Technical specifications 1-1226500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

Contents viiDWDM wavelengths 1-123Latency specifications for 40G circuit packs 1-12640G, OSIC, and SLIC10 circuit packs provisioning procedures 1-133

40G OCI / 40/43G OCI / 40G+ CFP OCI and 40G OCLD / Wavelength-selective 40G OCLD / 40G UOCLD 1-134

40G MUX OCI and 40G OCLD / Wavelength-selective 40G OCLD / 40G UOCLD 1-135

40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD regenerator 1-13640G XCIF and 40G OCLD / Wavelength-selective 40G OCLD / 40G

UOCLD 1-137OSIC submarine application 1-138SLIC10/SLIC10 Flex submarine application 1-138Provisioning rules summary for the 40G OCI circuit packs: 1-139Provisioning rules summary for the 40G MUX OCI circuit packs 1-139Provisioning rules summary for the 40G OCLD/Wavelength-selective

40G OCLD/40G UOCLD circuit packs: 1-139Provisioning rules summary for the 40G XCIF circuit packs 1-140

List of procedures1-1 Provisioning a circuit pack automatically 1-1421-2 Provisioning a pluggable automatically 1-1431-3 Routing fiber-optic cables onto the 6500 shelf 1-1441-4 Connecting fiber-optic cables to circuit packs 1-1471-5 Adding a facility to an equipment 1-1501-6 Editing facility parameters 1-1551-7 Changing the protection scheme for a pair of facilities 1-1571-8 Creating ring configurations 1-1651-9 Adding a new entry in the communications settings 1-1681-10 Adding transponder connections 1-1701-11 Adding a path connection 1-1731-12 Changing the 40G XCIF equipment mode 1-1761-13 Changing the primary state of a facility 1-1771-14 Changing the primary state of a circuit pack or pluggable 1-1791-15 Deleting a facility from an equipment 1-1811-16 Deleting a circuit pack or pluggable 1-183Equipment and facility provisioning parameters 1-184

Equipment and facility primary and secondary states 1-184OC192/768/STM64/256 facility parameters 1-188ETH10G and ETH40G facility parameters 1-192WAN facility parameters 1-19740G MUX OCI OTM2 facility parameters 1-19940G XCIF OTM2 facility parameters 1-203OSIC OTM2 facility parameters 1-204OTM3 facility parameters 1-208FLEX facility parameters for 40G MUX (NTK525CFE5 variant) 1-219TCMTTP and TCMCTP facility parameters 1-221OPTMON facility parameters 1-222IDLER facility parameters 1-223ADJ facility parameters 1-225

Comms setting parameters 1-2276500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

viii ContentsDCC/GCC support and parameters 1-227IISIS parameters 1-229OSPF parameters 1-232

Ring APS configuration editor parameters 1-236Transponder connections parameters 1-238Path connections parameters 1-242

100G circuit packs 2-1100G OCLD (NTK539TxE5), Flex2 WaveLogic 3 OCLD (NTK539Bx), and 100G

WaveLogic 3 OCLD (NTK539Ux) circuit packs 2-1Overview 2-1Supported functionality 2-19



Latency 2-60100G OCI circuit packs (NTK529AAE5 and NTK529AC) 2-61Overview 2-61Supported functionality 2-67

Line support 2-67Client support 2-67Cross-connection types 2-68Cross-connection rates 2-68Supported CFPs 2-68Performance monitoring 2-70Alarms 2-70


Latency 2-82100G MUX circuit packs (NTK529BAE5 and NTK529BBE5) 2-83Overview 2-83Supported functionality 2-95

Line support 2-95Client support 2-95Cross-connection types 2-98Cross-connection rates 2-98Supported SFP+s/XFPs 2-99Performance monitoring 2-100Alarms 2-101Equipping rules 2-104

Technical specifications 2-111Latency 2-112

Latency specifications for 100G and Flex2 WaveLogic 3 OCLD circuit packs 2-112100G circuit packs provisioning procedures 2-125

10x10GE MUX / 10x10G MUX / 100GE OCI and 100G OCLD/100G WaveLogic 3 6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

Contents ixOCLD 2-125100G OCI and 100G OCLD/100G WaveLogic 3 OCLD 2-126100G OCLD/100G WaveLogic 3 OCLD regenerator 2-12710x10GE MUX / 10x10G MUX and Flex2 WaveLogic 3 OCLD 2-128100G OCI and Flex2 WaveLogic 3 OCLD 2-129Flex2 WaveLogic 3 OCLD regenerator 2-130Provisioning rules summary for the Flex2 WaveLogic 3 OCLD circuit packs 2-131

List of procedures2-1 Provisioning a circuit pack automatically 2-1342-2 Provisioning a pluggable automatically 2-1362-3 Routing fiber-optic cables onto the 6500 shelf 2-1372-4 Connecting fiber-optic cables to circuit packs 2-1402-5 Adding a facility to an equipment 2-1432-6 Editing facility parameters 2-1472-7 Changing the protection scheme for a pair of facilities 2-1482-8 Adding a new entry in the communications settings 2-1522-9 Adding a transponder connection 2-1542-10 Changing the equipment profile 2-1562-11 Changing the primary state of a facility 2-1582-12 Changing the primary state of a circuit pack or pluggable 2-1602-13 Deleting a facility from an equipment 2-1622-14 Deleting a circuit pack or pluggable 2-164Equipment and facility provisioning parameters 2-165

Equipment and facility primary and secondary states 2-165OC192/STM64 facility parameters for 100G circuit packs 2-168ETH10G and ETH100G facility parameters 2-170WAN facility parameters 2-175OTM2 facility parameters 2-177OTM4 facility parameters 2-181FLEX facility parameters for 10x10G MUX (NTK529BB) 2-191TCMTTP and TCMCTP facility parameters 2-193ADJ facility parameters 2-194

Comms setting parameters 2-196GCC support and parameters 2-196IISIS parameters 2-197OSPF parameters 2-200

Transponder connections parameters 2-2046500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

xi

New in this release and documentation roadmap 0

The following section details whats new in 6500 Packet-Optical Platform (6500) 40G, 100G, OSIC, and SLIC10 Circuit Packs, 323-1851-102.4 Standard Issue 3 for Release 9.3.

New features in Release 9.3 Issue 3This technical publication was up-issued to include the following pluggable modules: 103.1G, 4x25G, WDM, SMF, 1310 nm, 10km CFP (160-9113-900) 103.1G-111.8G, 4x25G, WDM, SMF, 1310 nm, 10km CFP

(160-9114-900)New features in Release 9.3 Issue 2

This technical publication was up-issued to include some general minor updates.

New features in Release 9.3 Issue 1The following new/enhanced features are covered in this document: new software features

100G WaveLogic 3 OCLD circuit packs STORM enhancements OTN TCM & DM enhancements 40G+ CFP OCI circuit pack (NTK529SJE5) enhancement:

supporting 1+1 TPT protection schemeSupporting documentation

The following is a list of application-specific documents that are applicable to 6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

the 6500. The 6500 Packet-Optical Platform Control Plane Application Guide,

NTRN71AA, provides detailed information on Control Plane concepts, applications, and engineering rules.

xii New in this release and documentation roadmap The 6500 Packet-Optical Platform Submarine Networking Application Guide, NTRN72AA, provides detailed information on Submarine applications and engineering rules.6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

New in this release and documentation roadmap xiii6500 Packet-Optical Platform technical publicationsThe following roadmap illustrates the structure of the 6500 technical publications library.

DocumentationRoadmap

(323-1851-090)

Planning a Network

OC-n/STM-n(323-1851-102.3)

Photonic Equipment(323-1851-102.6)

OTN I/F and PKT I/F (323-1851-102.8)

Installing, Commissioning andTesting a Network

Managing andProvisioninga Network

Maintaining andTroubleshooting

a Network

Circuit Pack-BasedDocumentation

Planning - Ordering Information

(323-1851-151)

TL-1 Description (323-1851-190)

Planning - Parts 1, 2, 3, and 4

(NTRN10CF)

Site Manager for 6500 and CPL Fundamentals

(323-1851-195)

Installation,Parts 1 and 2

(323-1851-201)

Commissioningand Testing

(323-1851-221)

Administration and Security

(323-1851-301)

Configuration - Provisioning

and OperatingParts 1 and 2

(323-1851-310)

Configuration - Bandwidth andData Services

Parts 1, 2 and 3(323-1851-320)

Configuration - Control Plane

(323-1851-330)

Fault Management - Performance

Monitoring(323-1851-520)

Fault Management - Alarm ClearingParts 1 and 2

(323-1851-543)

Fault Management - Module

Replacement(323-1851-545)

Fault Management - Customer Visible

Logs (323-1851-840)

Common Eqpt(323-1851-102.1)

Electrical(323-1851-102.2)

40G/100G/OSIC/SLIC10

(323-1851-102.4)

Broadband/SMUXOTN FLEX MOTR(323-1851-102.5)

Data and Layer 2(323-1851-102.7)

SAOS-basedPacket ServicesDocumentation

SupportingDocumentation

CommandReference

(323-1851-610)Configuration

(323-1851-630)Fault and

Performance(323-1851-650)

MIBReference

(323-1851-690)

6500 PhotonicLayer Guide(NTRN15DA)

6500 DataApplication Guide

(NTRN15BA)

NetworkInterworking Guide

(NTCA68CA)

CommonPhotonic Layer

Technical Publications

Submarine NetworkingApplication Guide

(NTRN72AA)

6500 Control PlaneApplication Guide

(NTRN71AA)Universal AC Rectifier

Application Note(009-2012-900)6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

xiv New in this release and documentation roadmap6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-1

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-

This chapter provides an overview of the 6500 Packet-Optical Platform (6500) 40G, OSIC, SLIC10, and SLIC10 Flex circuit packs and their associated procedures. See Table 1-1 on page 1-1 for different circuit packs covered in this chapter.

40G OCLD circuit packs (NTK539PxE5 and NTK539RxE5)Overview

The eDC40G OCLD 1xOTU3+ DWDM C-Band circuit pack (also referred to as 40G OCLD) and eDC40G OCLD Wavelength-selective 1xOTU3+ C-Band circuit pack (also referred to as Wavelength-selective 40G OCLD) are used to implement mapping/wrapping functionality to a G.709 DWDM line. The 40G

Table 1-140G, OSIC, SLIC10, and SLIC10 Flex circuit packs in this chapter

Topic Page40G OCLD circuit packs (NTK539PxE5 and NTK539RxE5) 1-140G OCI circuit packs (NTK529SAE5, NTK529SDE5, and NTK529SJE5) 1-2340G MUX OCI circuit packs (NTK525CAE5 and NTK525CFE5) 1-4540G XCIF circuit pack (NTK525FAE5) 1-6340G UOCLD circuit packs (NTK539XAE5 and NTK539XEE5) 1-75OSIC circuit pack (NTK528XAE5) 1-107Submarine Line Idler 10 Channel (SLIC10 C-Band) circuit pack (NTK554HA) and Submarine Line Idler 10 Channel (SLIC10 Flex C-Band) circuit pack (NTK554HC)

1-1146500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

OCLD circuit packs are offered in both C-Band and L-Band. The Wavelength-selective 40G OCLD circuit packs are offered in C-Band. Also the combination of a 40G OCLD or a Wavelength-selective 40G OCLD circuit pack and a 40G OTN XCIF circuit pack (NTK620AA) provides OTN mapping (OTU3 to ODU2, ODU1, or ODU0).

1-2 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsThe following variants of 40G OCLD C-Band and L-Band circuit packs are supported: eDC40G OCLD Enh PMD Comp 1xOTU3+ DWDM C-Band

(NTK539PAE5): up to 1800 km and 25 ps PMD performance eDC40G OCLD 1xOTU3+ DWDM C-Band (NTK539PBE5): up to 1800 km

and 10 ps PMD limit eDC40G OCLD Regional 1xOTU3+ DWDM C-Band (NTK539PCE5): up

to 600 km and 8 ps PMD limit eDC40G OCLD Metro 1xOTU3+ DWDM C-Band (NTK539PDE5): up to

300 km and 8 ps PMD limit eDC40G OCLD Submarine 1xOTU3+ DWDM C-Band (NTK539PEE5):

Submarine reach and 25 ps PMD performance eDC40G OCLD MetroHSRx 1xOTU3+ DWDM C-Band (NTK539PFE5):

up to 300 km and 11 ps PMD limit eDC40G OCLD MetroHSRx 1xOTU3+ DWDM L-Band (NTK539PUE5):

up to 300 km and 11 ps PMD limit

Attention: The MetroHSRx variant of the 40G OCLD circuit pack has been developed to optimize performance when used on an 565, 5100 and 5200 Advanced Services Platform optical line and allow overlay on deployed 565, 5100 and 5200 Advanced Services Platform networks. Other variants of the 40G OCLD circuit pack can also be used on the 565, 5100 and 5200 Advanced Services Platform optical line if there are special requirements, such as high PMD. The MetroHSRx variant of the 40G OCLD circuit pack must not be used on 6500 or Common Photonic Layer photonic lines as it will not provide best performance except for some very limited single span applications.

The following variants of Wavelength-selective 40G OCLD C-Band circuit packs are supported: eDC40G OCLD Enh PMD Wavelength-Selective 1xOTU3+ C-Band

(NTK539RAE5): up to 2300 km and 30 ps PMD limit eDC40G OCLD Wavelength-Selective 1xOTU3+ C-Band (NTK539RBE5):

up to 2300 km and 10 ps PMD limit eDC40G OCLD Regional Wavelength-Selective 1xOTU3+ C-Band

(NTK539RCE5): up to 1000 km and 10 ps PMD limit eDC40G OCLD Metro Wavelength-Selective 1xOTU3+ C-Band

(NTK539RDE5): up to 300 km and 10 ps PMD limit eDC40G OCLD Submarine Wavelength-Selective 1xOTU3+ C-Band

(NTK539REE5): Submarine reach and 30 ps PMD limit6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-3Attention: Note that "-Sel" that appears on the faceplate label of the circuit pack is an abbreviation for "Wavelength-Selective".

The 40G OCLD and Wavelength-selective 40G OCLD circuit packs include a single 40G tunable OTM3 line interface.

The 40G OCLD and Wavelength-selective 40G OCLD circuit packs offer the same functionality. The Wavelength-selective 40G OCLD circuit packs offer the following additional functionalities when compared to the 40G OCLD: consume less power improved PMD tolerance improved reach Balanced PIN Coherent Receiver allowing for wavelength selectivity when

used in colorless photonic systems.

Figure 1-1 on page 1-4 shows the faceplate of a 40G OCLD circuit pack and Figure 1-2 on page 1-5 shows the functional block diagram of a 40G OCLD circuit pack. Figure 1-3 on page 1-6 shows the faceplate of a Wavelength-selective 40G OCLD circuit pack and Figure 1-4 on page 1-7 shows the functional block diagram of a Wavelength-selective 40G OCLD circuit pack.6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-4 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsFigure 1-140G OCLD circuit pack faceplate (example: eDC40G OCLD Enh PMD Comp 1xOTU3+ DWDM C-Band variant)

Type A

eDC40G OCLDEnh PMD Comp1xOTU3+ DWDM C-Band

Rx

Tx

Fail

Ready

In Use

S/N

NT03

0MEE

9999

E

NTU

D99E

EEE

EEE9

9999

R99

Hazardlevel:

Green rectangle (Ready)- Used to communicate hardware or software functional state- Card initializing = Blinking LED; Card OK = LED on; Card not ready = LED off

Red triangle (Fail)- Used to communicate hardware or software failure state- Card not failed = LED off, Card failed = LED on

Blue diamond (In Use)- Used to communicate whether circuit pack can be extracted (on->no pull, off->can be pulled)- Equipment in-service = LED on; Equipment out-of-service = LED off

Yellow circle (LOS)- Used to communicate Rx Loss of Signal

Transmit/receive fixed dual LC connector

16500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-5Figure 1-240G OCLD circuit pack block diagram (NTK539PxE5)

Ciena FEC

Transmit LineMapper and

Deskew

ReceiveEqualizer and

Demapper40G O/E RxSubsystem

40G E/O TxSubsystem

EOC Laser

Sync

BackplaneInterface

Back

plan

e

LeftMate

RightMate

Power Supply

Processor Module

E/O Electrical/OpticalEOC Electro-Optical ControlFEC Forward Error CorrectionO/E Optical/Electrical

Legend6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-6 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsFigure 1-3Wavelength-selective 40G OCLD circuit pack faceplate (example: eDC40G OCLD Enh PMD Comp Wavelength-selective 1xOTU3+ C-Band variant)

Type A

eDC40G OCLDEnh PMD -Sel1xOTU3+ C-Band

Rx

Tx

Fail

Ready

In Use

S/N

NT03

0MEE

9999

E

NTU

D99E

EEE

EEE9

9999

R99

Hazardlevel:







40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-7Figure 1-4Wavelength-selective 40G OCLD circuit pack block diagram (NTK539RxE5)

The 40G OCLD circuit packs (NTK539PxE5) and Wavelength-selective 40G OCLD circuit packs (NTK539RxE5) offer different functions by working with different 40G circuit packs. For complete details and graphics, refer to 40G functions on page 1-96.

Ciena FEC

Transmit LineMapper and

Deskew

ReceiveEqualizer and

Demapper40G O/E Balanced

Pin CoherentRx Subsystem

40G E/O TxSubsystem

EOC Laser

Sync

BackplaneInterface

Back

plan

e

LeftMate

RightMate

Power Supply

Processor Module

E/O Electrical/OpticalEOC Electro-Optical ControlFEC Forward Error CorrectionO/E Optical/Electrical

Legend6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-8 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsSupported functionalityThe 40G OCLD circuit packs (NTK539PAE5, NTK539PBE5, NTK539PCE5, NTK539PDE5, NTK539PEE5, NTK539PFE5, NTK539PUE5) and the Wavelength-selective 40G OCLD circuit packs (NTK539RAE5, NTK539RBE5, NTK539RCE5, NTK539RDE5, NTK539REE5) provide the following functionality.

Line support one fixed OTM3 (40G) line interface (port 1) when 40G OCLD is in

Broadband mode. When in OTN switching mode (POTS), the circuit pack has one fixed PTP facility.

same form and fit as 10G OTSC, all physical attributes (including LEDs) are at parity with 10G OTSC

G.709 wrapper (OTU3+) high coding gain FEC dual polarization QPSK modulation low to high PMD tolerance/compensation depending on the circuit pack

variant for 40G OCLD/Wavelength-selective 40G OCLD circuit packs the Wavelength-selective 40G OCLD circuit pack has a Balanced PIN

Coherent Receiver allowing for wavelength selectivity when used in colorless photonic systems

the Wavelength-selective 40G OCLD circuit pack has two optical power detectors on its Rx interface. One for total input power (channel power + amplifier noise) and one for channel input power (the channel corresponds to the wavelength the transmitter is tuned to). The total input power corresponds to the sum total of all the wavelengths (up to 12) and amplifier noise (ASE) when connected to the Colorless Channel Mux/Demux (CCMD12) circuit pack

offers a fixed C-band tunable 50 GHz-compliant DWDM line interface (1527.60 nm to 1565.50 nm) for C-band circuit packs (applicable to 40G OCLD circuit packs)

offers a fixed C-band tunable 50 GHz-compliant line interface (1528.77 nm to 1566.72 nm) for C-band circuit packs (applicable only to Wavelength-selective 40G OCLD circuit packs)

offers a fixed L-band tunable 50 GHz-compliant DWDM line interface (1568.77 nm to 1608.76 nm) for L-band circuit pack (applicable only to 40G OCLD circuit packs)

offers a wide dynamic range receiver with automatic VOA control on the line interface receiver

offers GCC0 data communications channels between Broadband interfaces6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-9 full monitoring and termination of the line G.709 OH bytes no external bits sources required (line timing or on board reference

clocking is used) supports facility and terminal loopbacks on the OTM3 line facility. Terminal

loopback on the 40G OCLD/Wavelength-selective 40G OCLD is bridged, that is, provisioned traffic will be sent on the line egress.

supports Short Term Optical Recovery Mechanism (STORM) in colored Photonic systems (not supported in Photonic colorless systems) to enable fast signal recovery from short term outages. For more information on STORM, refer to Part 1 of Configuration - Provisioning and Operating, 323-1851-310

supports Control Plane (only for 40G OCLD; NTK539PxE5 variants) (supported as Network Control Plane facility)

Attention: Refer to the 6500 Packet-Optical Platform Control Plane Application Guide, NTRN71AA, for detailed information on Control Plane concepts, applications, and engineering rules supported in this release of 6500.

Line interworking between different 40G OCLD variants or between different 40G Wavelength Selective OCLD variants are shown in the Table 1-2.

Table 1-240G OCLD Line interworking

__40G OCLD (NTK539xx) 40G Wavelength-Selective OCLD (NTK539xx)

PA PB PC PD PE PF PU RA RB RC RD RE

40G OCLD PA Same Partial Partial Partial No No No No No No No No

PB Same Partial Partial No No No No No No No No

PC Same Partial No No No No No No No No

PD Same No No No No No No No No

PE Same No No No No No No No

PF Same No No No No No No

PU Same No No No No No6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-10 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsAttention: Line interworking between 40G ULH OCLD variants (NTK539XA and NTK539XE) is not supported. Also, line interworking between 40G OCLD variants (NTK539Px-series or NTK539Rx-series) and 40G ULH OCLD variants (NTK539XA and NTK539XE) is not supported.

Client supportThere are no client ports on the 40G OCLD and Wavelength-selective 40G OCLD circuit packs.

Cross-connection typesThe 40G OCLD and Wavelength-Selective 40G OCLD circuit packs only support the 2WAY (Bidirectional) transponder and OTN cross-connection type, except ODU3 OTN connections.

Cross-connection ratesThe 40G OCLD and Wavelength-Selective 40G OCLD circuit packs only support the ODU3 transponder and OTN cross-connection rate, except ODU3 OTN connections.

Performance monitoringThe 40G OCLD and Wavelength-Selective 40G OCLD circuit packs support the following monitored entities: OTM3 line interface

PM collection for OTU3 layer PM collection for ODU3 layer

40G Wavelength Selective OCLD (NTK539xx)

RA Same Partial Partial Partial No

RB Same Partial Partial No

RC Same Partial No

RD Same No

RE Same

Note: Partial means: Performance will be reduced to the OCLD with the lesser performance specifications. For example, the NTK539PA can interwork with the NTK539PD but the link will only be able to support 8 ps mean DGD and the reach will be limited to 300 km.

Table 1-2 (continued)40G OCLD Line interworking

__40G OCLD (NTK539xx) 40G Wavelength-Selective OCLD (NTK539xx)

PA PB PC PD PE PF PU RA RB RC RD RE6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-11 Protection switch count/duration for ODU3 layer PM collection for Physical layer

The 40G OCLD and Wavelength-Selective 40G OCLD circuit packs support the following monitored entities when mated with a 40G OTN XCIF circuit pack: PM collection for OTUTTP facilities PM collection for PTP facilities

For detailed information and procedures associated with performance monitoring, refer to Fault Management - Performance Monitoring, 323-1851-520.

Alarms For a complete list of alarm clearing procedures for 6500, refer to Part 1 and Part 2 of Fault Management - Alarm Clearing, 323-1851-543.

Equipment alarms Autoprovisioning Mismatch Circuit Pack Missing Circuit Pack Mismatch Circuit Pack Failed Circuit Pack Latch Open Circuit Pack Upgrade Failed Circuit pack Operational Capability exceeded Cold Restart Required: FPGA Changed Database Not Recovered For Slot Intercard Suspected Internal Mgmt Comms Suspected Provisioning Incompatible

OTM facility alarms Loss Of Signal Loss Of Clock Loss of Channel (applies to Wavelength-Selective 40G OCLD) Loss Of Frame Loss Of Multiframe Pre-FEC Signal Fail6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-12 40G, OSIC, SLIC10, and SLIC10 Flex circuit packs Pre-FEC Signal Degrade TX Manual Provisioning Required TX Tuning in Progress Rx Power Out Of Range Rx Channel Power Out Of Range (applies to Wavelength-Selective 40G

OCLD) TR Control Echo trace Mismatch OTU Trace Identifier Mismatch OTU BDI ODU AIS ODU LCK ODU OCI ODU Trace Identifier Mismatch ODU BDI GCC0 Link Fail GCC0 OSPF Adjacency Loss Loopback Active - Facility Loopback Active - Terminal Protection Scheme Mismatch Protection Mode Mismatch Protection Switch Byte Fail Auto Protection Switch Acknowledge Time Out Protection Exerciser Failed Protection Switch Complete - Revertive Protection Switch Complete Forced Switch Active Manual Switch Active Lockout Active Far End Protection Line Fail

OTUTTP facility alarms Loss Of Frame Loss Of Multiframe Loss Of Clock Pre-FEC Signal Fail6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-13 Pre-FEC Signal Degrade OTU BDI OTU Trace Identifier Mismatch Loopback Active - Facility Loopback Active - Terminal

PTP facility alarms Loss Of Signal TX Manual Provisioning Required TX Tuning in Progress Rx Power Out Of Range TR Control Echo Trace Mismatch

Photonic alarms Adjacency Mismatch Duplicate Adjacency DiscoveredControl Plane alarms Remote Node Unreachable (OSRP line level) Configuration Mismatch Configuration Mismatch - Common ID Configuration Mismatch - Primary State

Software Auto-Upgrade alarms Software Auto-Upgrade in Progress Software Auto-Upgrade Failed

Equipping rulesThe following equipping rules apply to 40G OCLD and Wavelength-selective 40G OCLD circuit packs: is a one-port single slot interface can be equipped in any slot (1-14 except slots 7 and 8 if cross-connect

circuit packs are provisioned in slots 7 and 8) of the 14-slot packet-optical, converged optical, converged optical/front electrical, or converged optical/rear electrical shelves. Slots 7 and 8 of a 14-slot packet-optical shelf (NTK503SA) cannot be equipped with this circuit pack.

can be equipped in slots 1-8, 11-18, 21-28, and 31-38 of the 32-slot packet-optical shelf.

can be equipped in slots 1 to 7 of the 7-slot optical shelf.6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-14 40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 40G OCLD and Wavelength-selective 40G OCLD circuit packs cannot be equipped in the NTK503MAE5 and NTK503NAE5 variants of 2-slot shelf.

40G OCLD and Wavelength-selective 40G OCLD circuit packs can be equipped in slots 1 or 2 of the NTK503LA variant of 2-slot shelf.

can be equipped in the same shelf with any other type of circuit pack. any adjacent two-slot combination of 40G OCI/40G OCLD,

40/43G OCI/40G OCLD, 40G+ CFP OCI/40G OCLD, or 40G MUX OCI/40G OCLD is possible (for example, 40G OCI, 40/43G OCI, or 40G MUX OCI circuit pack on left or right of 40G OCLD circuit pack) starting in any slot with the exception of connections across slots 6 to 7 and 8 to 9 for 14-slot shelf types. Note that if you are planning full-fill unprotected or regen 40G applications, connections across the above slots will not occur, as they will be using the recommended slots 1 to 2, 3 to 4, 5 to 6, 7 to 8 (not applicable to 14-slot packet-optical shelf (NTK503SA)), 9 to 10, 11 to 12, and 13 to 14 for 14-slot shelf types.

any adjacent two-slot combination of 40G OCI/Wavelength-selective 40G OCLD, 40/43G OCI/Wavelength-selective 40G OCLD, 40G+ CFP OCI/Wavelength-selective 40G OCLD, or 40G MUX OCI/Wavelength-selective 40G OCLD is possible (for example, 40G OCI, 40/43G OCI, or 40G MUX OCI circuit pack on left or right of Wavelength-selective 40G OCLD circuit pack) starting in any slot with the exception of connections across slots 6 to 7 and 8 to 9 for 14-slot shelf types. Note that if you are planning full-fill unprotected or regen 40G applications, connections across the above slots will not occur, as they will be using the recommended slots 1 to 2, 3 to 4, 5 to 6, 7 to 8 (not applicable to 14-slot packet-optical shelf (NTK503SA)), 9 to 10, 11 to 12, and 13 to 14 for 14-slot shelf types.

In a 2-slot optical Type 2 shelf assembly (NTK503LA) and when one 40G OCLD circuit pack is mated with one 40G+ CFP OCI circuit pack (OTR configuration), the 40G OCLD can be in slot 1 or 2 and 40G+ CFP OCI circuit pack can be in other slot. Similarly, one 40G OCLD circuit pack is mated with one 40G MUX OCI circuit pack (NTK525CFE5 variant) (MOTR configuration), the 40G OCLD can be in slot 1 or 2 and 40G MUX OCI circuit pack can be in other slot.

any adjacent two-slot combination of 40G OCLD/40G XCIF or 40G OCLD/40G OTN XCIF is possible as long as 40G XCIF or 40G OTN XCIF circuit pack is in even slot (for example, 40G OCLD circuit pack on left side of 40G XCIF or 40G OTN XCIF circuit pack). The exception is slot 8 for 14-slot shelf type, and slot 10 for 32-slot shelf type.6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-15 any adjacent two-slot combination of Wavelength-selective 40G OCLD/40G XCIF or Wavelength-selective 40G OCLD/40G OTN XCIF is possible as long as 40G XCIF or 40G OTN XCIF circuit pack is in even slot (for example, Wavelength-selective 40G OCLD circuit pack on left side of 40G XCIF or 40G OTN XCIF). The exception is slot 8 for 14-slot shelf type, and slot 10 for 32-slot shelf type.

two 40G OCLD or Wavelength-selective 40G OCLD circuit packs provisioned in consecutive slots (except 6&7 and 8&9 for 14-slot shelf types) can be configured as an ODU3-transparent line regenerator. The first circuit pack must be in an odd slot and the second circuit pack must be in the adjacent even slot. For the 7-slot shelf, that is slots {1,2}, {3,4}, {5,6}. For the 14-slot shelf, that is slots {1,2}, {3,4}, {5,6}, {7,8 except for 14-slot packet-optical shelf (NTK503SA}, {9,10}, {11,12}, and {13,14}. For the 32-Slot shelf, that is slots {1,2}, {3,4}, {5,6}, {7,8}, {11,12}, {13,14}, {15,16}, {17,18}, {21,22}, {23,24}, {25,26}, {27,28}, {31,32}, {33,34}, {35,36}, {37,38}. Unlike 10G OC-192/STM-64 WT, 10GEL WT, 10G OTU2 WT, and 10G OTR circuit packs, where line regeneration is achieved by back to back circuit packs interconnecting the client-side interfaces using a patch cord, the line regeneration for 40G OCLD or Wavelength-selective 40G OCLD circuit packs is achieved by back to back 40G OCLD or Wavelength-selective 40G OCLD circuit packs in adjacent slots interconnecting through backplane.

a 40G OCI circuit pack between two 40G OCLD or Wavelength-selective 40G OCLD circuit packs, a 40/43G OCI circuit pack between two 40G OCLD or Wavelength-selective 40G OCLD circuit packs, a 40G+ CFP OCI circuit pack between two 40G OCLD or Wavelength-selective 40G OCLD circuit packs, or a 40G MUX OCI circuit pack between two 40G OCLD or Wavelength-selective 40G OCLD circuit packs provides 1+1 OTN line-side protection. Signals are exchanged between triplets using the backplane. For 1+1 protection, the choices are: slots {1,2,3}, {4,5,6}, {9,10,11}, and {12,13,14} for 14-slot shelf types slots {1,2,3}, {4,5,6}, {13,14,15}, {16,17,18}, {21,22,23}, {24,25,26},

{33,34,35}, and {36,37,38} for 32-slot shelf type. slots {1,2,3} and {4,5,6} for 7-slot shelf type.

two 40G XCIF circuit packs and two 40G OCLD or Wavelength-selective 40G OCLD circuit packs (two pairs of 40G XCIF/40G OCLD or 40G XCIF/Wavelength-selective 40G OCLD) along with two cross-connect circuit packs provide 1+1/MSP linear and 2-Fiber BLSR/MS-SPRing protection (40G TR protected group). Signals are exchanged between the six slots using the backplane.6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-16 40G, OSIC, SLIC10, and SLIC10 Flex circuit packs for 1+1/MSP linear or 2-Fiber BLSR/MS-SPRing protection, the valid protection group slots for 40G XCIF and 40G OCLD or Wavelength-selective 40G OCLD are: {1,2,3,4}, {5,6,9,10}, and {11,12,13,14} for 14-slot shelf types and {1,2,3,4}, {5,6,7,8 except for 14-slot packet-optical shelf (NTK503SA}, {11,12,13,14}, {15,16,17,18}, {21,22,23,24}, {25,26,27,28}, {31,32,33,34}, and {35,36,37,38} for 32-slot shelf type. The 40G OCLD or Wavelength-selective 40G OCLD circuit packs are equipped in odd slots. The 40G XCIF circuit packs are equipped in even slots.

for 1+1/MSP linear protection, the working Wavelength-selective 40G OCLD/40G XCIF or 40G OCLD/40G XCIF must be the two lower slot numbers of the 40G TR protected group. The protection Wavelength-selective 40G OCLD/40G XCIF or 40G OCLD/40G XCIF must be the two higher slot numbers of the 40G TR protected group.

for 2-Fiber BLSR/MS-SPRing, the east Wavelength-selective 40G OCLD/40G XCIF or 40G OCLD/40G XCIF must be the two lower slot numbers of the 40G TR protected group. The west Wavelength-selective 40G OCLD/40G XCIF or 40G OCLD/40G XCIF must be the two higher slot numbers of the 40G TR protected group.

up to seven regenerators (two 40G OCLDs or Wavelength-selective 40G OCLD) can be supported in a 14-slot shelf (except for 14-slot packet-optical shelf (NTK503SA) where up to six regenerators can be provisioned), up to three regenerators can be supported in a 7-slot shelf, and up to 16 regenerators can be supported in a 32-slot shelf when using the 40G OCLD or Wavelength-selective 40G OCLD circuit packs.

two 40G MOTR groups (40G MUX OCI/40G OCLD or 40G MUX OCI/Wavelength-selective 40G OCLD while 40G MUX OCI circuit pack must be NTK525CFE5 variant) provisioned in consecutive slots can be configured as 1+1 protection using TPT (without any cross-connect). The first 40G MOTR group must be in the lower numbered slots (considered the working path) and the second 40G MOTR group must be in the higher numbered slots (considered the protection path). The working/protection path slot is the slot number in which the working/protection 40G MUX OCI is seated. The 40G MUX OCI circuit packs must always be in the odd slots and the 40G OCLD or Wavelength-selective 40G OCLD circuit packs in the adjacent even slots. The working and protection 40G MUX OCI circuit packs require an XFP on the client interface. For 1+1 TPT protection, the choices are slots [{1,2}, {3,4}] and [{9,10}, {11,12}] for 14-slot shelf types slots [{1,2}, {3,4}], [{13,14}, {15,16}], [{21,22}, {23,24}], and [{33,34},

{35,36}] for 32-slot shelf type. slots [{1,2}, {3,4}] for 7-slot shelf type.6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-17 two 40G OTR groups (40G+ CFP OCI/40G OCLD or 40G+ CFP OCI/Wavelength-selective 40G OCLD) provisioned in consecutive slots can be configured as 1+1 protection using TPT (without any cross-connect). The first 40G OTR group must be in the lower numbered slots (considered the working path) and the second 40G OTR group must be in the higher numbered slots (considered the protection path). The working/protection path slot is the slot number in which the working/protection 40G+ CFP OCI is seated. The 40G+ CFP OCI circuit packs must always be in the odd slots and the 40G OCLD or Wavelength-selective 40G OCLD circuit packs in the adjacent even slots. The working and protection 40G+ CFP OCI circuit packs require a CFP on the client interface. For 1+1 TPT protection, the choices are slots [{1,2}, {3,4}] and [{9,10}, {11,12}] for 14-slot shelf types slots [{1,2}, {3,4}], [{5,6}, {7,8}], [{11,12}, {13,14}], [{15,16}, {17,18}],

[{21,22}, {23,24}], [{25,26}, {27,28}], [{31,32}, {33,34}], and [{35,36}, {37,38}] for 32-slot shelf type.

slots [{1,2}, {3,4}] for 7-slot shelf type. the maximum number of back-to-back 40G OCLD or

Wavelength-selective 40G OCLD regenerator sites is eight. requires high flow cooling fan modules (NTK507LDE5, NTK507MDE5,

NTK507LS, and NTK507MS) when equipped in a 14-slot shelf. does not use any cross-connect capacity and can be installed in shelves

equipped with or without cross-connect circuit packs

The following restrictions on using a cross-connect circuit pack are applied when deploying a 40G OCLD or Wavelength-selective 40G OCLD circuit pack: In a 14-slot shelf type (except for 14-slot packet-optical shelf type;

NTK503SA), you cannot provision a 40G OCLD or Wavelength-selective 40G OCLD circuit pack in slot 7 or 8 if one of these slots already contains a cross-connect circuit pack. Slots 7 and 8 of a 14-slot packet-optical shelf (NTK503SA) cannot be equipped with 40G OCLD or Wavelength-selective 40G OCLD circuit packs.

In a 14-slot shelf type (except for 14-slot packet-optical shelf type; NTK503SA), you cannot provision a cross-connect circuit pack in slot 7 or 8 if one of these slots already contains a 40G OCLD or Wavelength-selective 40G OCLD circuit pack. Slots 7 and 8 of a 14-slot packet-optical shelf (NTK503SA) cannot be equipped with 40G OCLD or Wavelength-selective 40G OCLD circuit packs. 6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-18 40G, OSIC, SLIC10, and SLIC10 Flex circuit packs In a 14-slot shelf type (except for 14-slot packet-optical shelf type; NTK503SA), when the 40G OCLD or Wavelength-selective 40G OCLD circuit packs are installed in slot 7 or 8, only Broadband circuit packs or Photonic circuit packs can be provisioned in the other interface slots (slots 1 to 6 and 9 to14), as MSPP interface circuit packs require a cross-connect circuit pack. Slots 7 and 8 of a 14-slot packet-optical shelf (NTK503SA) cannot be equipped with 40G OCLD or Wavelength-selective 40G OCLD circuit packs. See Part 1 of 6500 Planning, NTRN10CF (Chapter 3) for a full list of supported Broadband and Photonic circuit packs.6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-19Technical specifications Table 1-3 lists the weight, power consumption, transmitter, and receiver specifications for the 40G OCLD optical interface circuit packs. Table 1-4 on page 1-21 lists the weight, power consumption, transmitter, and receiver specifications for the Wavelength-selective 40G OCLD optical interface circuit packs.

Table 1-3Technical specifications for 40G OCLD optical interface circuit packs (40G line interface)Parameter 40G OCLD

(NTK539PAE5/NTK539PBE5/NTK539PCE5/NTK539PDE5/NTK539PEE5/NTK539PFE5/NTK539PUE5)

Weight (estimated) 1.5 kg (3.4 lb)Power consumption Typical (W): 137 (see Note 1)

Power Budget (W): 147 (see Note 2)Transmitter

Connector type LC Laser modulation eDC40 Dual-polarization QPSKLaser spectral width < 1 MHz Line rate 46.0 Gbit/s (carried as 11.5 Gbaud Dual-polarization QPSK) Tunable wavelength range 1527.60 nm to 1565.50 nm for C-band circuit packs (see DWDM

wavelengths on page 1-123 for a list of supported wavelengths)1568.77 nm to 1608.76 nm for L-band circuit pack

Tunable wavelength spacing 50 GHz Central Wavelength Accuracy +/- 2.5 GHz Transmit output power -11 to 0 dBm Tx Power monitor accuracy +/- 0.8 dB

ReceiverReceiver type PIN Connector type LC Wavelength range C-Band (1527.60 nm to 1565.50 nm) Receiver sensitivity (minimum EOL)

-20 dBm for NTK539PAE5/NTK539PBE5/NTK539PCE5/NTK539PDE5/NTK539PEE5 (see Note 3)-25 dBm for NTK539PFE5 (see Note 4)-25 dBm for NTK539PUE5 (see Note 4)

Receiver overload 7 dBm (see Note 5)Receiver damage level 17 dBm 6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-20 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsRx Power monitor accuracy +/- 0.5 dB at power levels >= -10 dBmRx Optical Signal to Noise Ra-tio (OSNR)

10.4 dB

FEC coding gain at 1E-15 9.2 dB (using Ciena proprietary FEC)Polarization Mode Dispersion (PMD) tolerance

25 ps [mean DGD] for NTK539PAE510 ps [mean DGD] for NTK539PBE58 ps [mean DGD] for NTK539PCE58 ps [mean DGD] for NTK539PDE525 ps [mean DGD] for NTK539PEE511 ps [mean DGD] for NTK539PFE511 ps [mean DGD] for NTK539PUE5

Chromatic dispersion tolerance

+/- 50000 ps/nm

Reach Up to 1800 km for NTK539PAE5Up to 1800 km for NTK539PBE5Up to 600 km for NTK539PCE5Up to 300 km for NTK539PDE5 and NTK539PFE5 and NTK539PUE5 Submarine reach for NTK539PEE5

Note 1: The typical power consumption values are based on operation at an ambient temperature of 25 (+/-3oC) and voltage of 54 V dc (+/-2.5 V).Note 2: The power budget values are based on the maximum power consumption in an ambient temperature range from 5oC to 40oC at a voltage of 40 V dc (+/-2.5 V). These values must be used in sizing feeders and estimating theoretical maximum power draw.Note 3: The minimum received power level is -22.5 dBm which does not take into account any Rx power monitor inaccuracy.Note 4: The minimum received power level is -28 dBm which does not take into account any Rx power monitor inaccuracy.Note 5: The maximum received power level is +7.5 dBm, which does not take into account any Rx power monitor inaccuracy.

Table 1-3 (continued)Technical specifications for 40G OCLD optical interface circuit packs (40G line interface)Parameter 40G OCLD

(NTK539PAE5/NTK539PBE5/NTK539PCE5/NTK539PDE5/NTK539PEE5/NTK539PFE5/NTK539PUE5)6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-21Table 1-4Technical specifications for Wavelength-selective 40G OCLD optical interface circuit packs (40G line interface)Parameter Wavelength-selective 40G OCLD

(NTK539RAE5/NTK539RBE5/NTK539RCE5/NTK539RDE5/NTK539REE5)

Weight (estimated) 1.5 kg (3.4 lb)Power consumption Typical (W): 95 (see Note 1)

Power Budget (W): 102 (see Note 2)Transmitter

Connector type LC Laser modulation eDC40 Dual-polarization QPSKLaser spectral width < 1 MHz Line rate 46.0 Gbit/s (carried as 11.5 Gbaud Dual-polarization QPSK) Tunable wavelength range 1528.77 nm to 1566.72 nm for C-band circuit packs (see DWDM

wavelengths on page 1-123 for a list of supported wavelengths)Tunable wavelength spacing 50 GHzCentral Wavelength Accuracy +/- 2.5 GHzTransmit output power -11 to -3 dBmTx Power monitor accuracy +/- 0.8 dB

ReceiverReceiver type Balanced PIN Connector type LC Wavelength range C-Band (1528.77 nm to 1566.72 nm)Receiver sensitivity (minimum EOL)

-20 dBm (per channel) (see Note 3 and Note 4)

Receiver overload 0 dBm (per channel) (see Note 4 and Note 5)7 dBm (total power) (see Note 4 and Note 5)

Receiver damage level 17 dBm (total power) (see Note 4)Rx Power monitor accuracy +/- 2 dB (per channel) at power levels >= -10 dBm (see Note 4)

+/- 0.5 dB (total power) at power levels >= -10 dBm (see Note 4)Rx Optical Signal to Noise Ra-tio (OSNR)

10.0 dB

FEC coding gain at 1E-15 9.2 dB (using Ciena proprietary FEC)6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-22 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsLatencyRefer to Latency specifications for 40G circuit packs on page 1-126 for 40G OCLD latency values.

Polarization Mode Dispersion (PMD) tolerance

30 ps [mean DGD] for NTK539RAE510 ps [mean DGD] for NTK539RBE510 ps [mean DGD] for NTK539RCE510 ps [mean DGD] for NTK539RDE530 ps [mean DGD] for NTK539REE5

Chromatic dispersion tolerance

+/- 50000 ps/nm

Reach Up to 2300 km for NTK539RAE5Up to 2300 km for NTK539RBE5Up to 1000 km for NTK539RCE5Up to 300 km for NTK539RDE5Submarine reach for NTK539REE5

Note 1: The typical power consumption values are based on operation at an ambient temperature of 25 (+/-3oC) and voltage of 54 V dc (+/-2.5 V).Note 2: The power budget values are based on the maximum power consumption in an ambient temperature range from 5oC to 40oC at a voltage of 40 V dc (+/-2.5 V). These values must be used in sizing feeders and estimating theoretical maximum power draw.Note 3: The minimum per channel received power level is -22.5 dBm which does not take into account any Rx power monitor inaccuracy.Note 4: The Wavelength-Selective 40G OCLD has two optical power detectors on its Rx interface. One for total input power (that is, the sum total of all the wavelengths, up to 12 when, connected to the CCMD12 circuit pack, and amplifier noise [ASE]). And one for channel input power (the channel corresponds to the wavelength the transmitter is tuned to). When the Wavelength-Selective 40G OCLD is used in colored Photonic systems, the two 40G OCLD Rx interface detectors see similar power levels. In colored line systems, the total input power monitor is the preferred monitor for channel power since it is more accurate.Note 5: The maximum per channel received power level is 0 dBm, which does not take into account any Rx power monitor inaccuracy.

Table 1-4 (continued)Technical specifications for Wavelength-selective 40G OCLD optical interface circuit packs (40G line interface)Parameter Wavelength-selective 40G OCLD

(NTK539RAE5/NTK539RBE5/NTK539RCE5/NTK539RDE5/NTK539REE5)6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-2340G OCI circuit packs (NTK529SAE5, NTK529SDE5, and NTK529SJE5)Overview

This type of circuit pack is used to transparently map the OC-768/STM-256/OTM3/40GE clients onto an adjacent 40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD circuit pack (G.709 OTU3 frame interface) via the backplane.This release of 6500 supports the following variants of the 40G OCI circuit packs: 40G OCI 1xOC-768/STM-256 circuit pack (also referred to as 40G OCI)

(NTK529SAE5)This type of circuit pack is used to transparently map the OC-768/STM-256 clients onto an adjacent 40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD circuit pack (G.709 OTU3 frame interface) via the backplane.

40G OCI 1xOC-768/STM-256/OTU3 circuit pack (also referred to as 40/43G OCI) (NTK529SDE5)This type of circuit pack is used to transparently map the OC-768/STM-256/OTM3 clients onto an adjacent 40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD circuit pack (G.709 OTU3 frame interface) via the backplane.

40G OCI Multi-Protocol 1xCFP circuit pack (also referred to as 40G+ CFP OCI) (NTK529SJE5)This type of circuit pack is used to transparently map the OC-768/STM-256/OTM3/ETH40G clients onto an adjacent 40G OCLD or, 40G UOCLD, or Wavelength-selective 40G OCLD circuit pack (G.709 OTU3 frame interface) via the backplane. Also the combination of a 40G+ CFP OCI circuit pack and a 40G OTN XCIF circuit pack (NTK620AA) provides OTN mapping (OTU3 to ODU2, ODU1, or ODU0).

The 40G OCI includes a single fixed 40G OC-768/STM-256 client interface. The 40/43G OCI includes a single fixed 40G OC-768/STM-256/OTM3 client interface. The 40G+ CFP OCI includes a single pluggable 40G OC-768/STM-256/OTM3/ETH40G client interface.

Figure 1-5 on page 1-24 shows the faceplate of a 40G OCI 1xOC-768/STM-256 circuit pack. Figure 1-6 on page 1-25 shows the faceplate of a 40G OCI 1xOC-768/STM-256/OTU3 circuit pack. Figure 1-7 on page 1-26 shows the faceplate of a 40G OCI Multi-Protocol 1xCFP circuit pack. 6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-24 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsFigure 1-8 on page 1-27 provides a functional block diagram of the 40G OCI circuit pack. Figure 1-9 on page 1-28 provides a functional block diagram of the 40/43G OCI circuit pack. Figure 1-10 on page 1-29 provides a functional block diagram of the 40G+ CFP OCI circuit pack.

Figure 1-540G OCI 1xOC-768/STM-256 circuit pack faceplate

Type A

40G OCI1xOC-768/STM-256

Rx

Tx

Fail

Ready

In Use

S/N

NT03

0MEE

9999

E

NTU

D99E

EEE

EEE9

9999

R99

Hazardlevel:







40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-25Figure 1-640G OCI 1xOC-768/STM-256/OTU3 circuit pack faceplate

Type A

40G OCI1xOC-768/STM-256/OTU3

Rx

Tx

Fail

Ready

In Use

S/N

NT03

0MEE

9999

E

NTU

D99E

EEE

EEE9

9999

R99

Hazardlevel:







1-26 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsFigure 1-740G OCI Multi-Protocol 1xCFP circuit pack faceplate

Type A

Fail

Ready

In Use

S/N

NT03

0MEE

9999

E

NTU

D99E

EEE

EEE9

9999

R99

Hazardlevel:




40G OCIMulti-Protocol 1xCFP


Transmit/receive CFP dual LC connector

1

1T

R6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-27Figure 1-840G OCI circuit pack block diagram (NTK529SAE5)

40G TransponderModule

OTU3+Mapper

OTU3+Demapper

Power SupplySync

Processor Module

BackplaneInterfaceBa

ckpl

ane

LeftMate

RightMate


1-28 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsFigure 1-940/43G OCI circuit pack block diagram (NTK529SDE5)

40/43G TransponderModule

OTU3+Mapper

OTU3+Demapper

Power SupplySync

Processor Module


ckpl

ane

LeftMate

RightMate


40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-29Figure 1-1040G+ CFP OCI circuit pack block diagram (NTK529SJE5)

The 40G OCI circuit pack (NTK529SAE5), 40/43G OCI circuit pack (NTK529SDE5), and 40G+ CFP OCI circuit pack (NTK529SJE5) offer different functions by working with different 40G circuit packs. For complete details and graphics, refer to 40G functions on page 1-96.

40G CFP

OTU3+Mapper

OTU3+Demapper

Power SupplySync

Processor Module


ckpl

ane

LeftMate

RightMate


1-30 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsSupported functionalityThe 40G OCI 1xOC-768/STM-256 circuit packs (NTK529SAE5), 40G OCI Multi-Protocol 1xCFP circuit packs (NTK529SJE5), and 40G OCI 1xOC-768/STM-256/OTU3 circuit packs (NTK529SDE5) provide the following functionality.

Line supportThere are no line ports on the 40G OCI, 40G+ CFP OCI, and 40/43G OCI circuit packs.

Client support 40G OCI variant (NTK529SAE5) includes a fixed OC-768/STM-256 client

interface (port 1) offering 39.8 Gbit/s rate to facilitate client-side interworking at OC768/STM256 signal rates.

40/43G OCI variant (NTK529SDE5) includes a fixed OC-768/STM-256/OTM3 client interface (port 1) offering 39.8 Gbit/s and 43 Gbit/s rates to facilitate client-side interworking at OC768/STM256/OTU3 signal rates.

40G+ CFP OCI variant (NTK529SJE5) includes a pluggable CFP OC-768/STM-256/ETH40G/OTM3 client interface (port 1) offering 39.8 Gbit/s, 41.3 Gbit/s, and 43 Gbit/s rates to facilitates client-side interworking at OC768/STM256/OTU3/40GE signal rates.

When mated with the 40G OTN XCIF circuit pack, the 40G+ CFP OCI variant (NTK529SJE5) supports a pluggable CFP OTM3 client interface (port 1) offering 43 Gbit/s rate to facilitate client-side interworking at OTU3 signal rate. The following OTN mappings are supported for OTN switching applications: OTU3 to ODU2, ODU1, or ODU0

same form and fit as 40G OCLD or Wavelength-selective 40G OCLD all physical attributes (including LEDs) are at parity with 40G OCLD or Wavelength-selective 40G OCLD

full transparency for OC-768/STM-256 clients when using 40G OCI, 40G+ CFP OCI, or 40/43G OCI

ODU3 transparency on the OTU3 client of the 40G+ CFP OCI or 40/43G OCI circuit pack variant

full transparency on the ETH40G client of the 40G+ CFP OCI circuit pack variant

40G OCI or 40/43G OCI circuit pack supports facility loopbacks on its client interface (OC-768/STM-256 or OTM3).

40G+ CFP OCI circuit pack supports facility and terminal loopbacks on its client interface (OC-768/STM-256, ETH40G, or OTM3). Terminal loopback on the 40G+ CFP OCI turns off the transmit laser.6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-31 G.709 wrapper (OTU3) Provisionable OTN tandem connection monitoring (TCM) for transponders

(only applicable to 40G+ CFP OCI variant; NTK529SJE5 variant) offers GCC1 data communications channels between Broadband

interfaces supports client side GCC0 data communications channels on the

40G+ CFP OCI or 40/43G OCI circuit pack variant a 40G OTR using the 40G OCI circuit pack can interwork with a 40G OTR

using the 40/43G OCI or 40G+CFP OCI circuit pack provided that the 40/43G OCI or 40G+CFP OCI circuit pack client is provisioned as OC-768/STM-256

a 40G OTR using the 40/43G OCI circuit pack can interwork with a 40G OTR using the 40G+CFP OCI circuit pack provided that the client on the 40/43G OCI circuit pack and 40G+CFP OCI circuit pack is provisioned as OC-768/STM-256

a 40G OTR using the 40/43G OCI circuit pack can interwork with a 40G OTR using the 40G+CFP OCI circuit pack provided that the client on the 40/43G OCI circuit pack and 40G+CFP OCI circuit pack is provisioned as OTU3

a 40G MOTR using the 40G MUX OCI circuit pack (NTK525CFE5 variant) can interwork with a 40G OTR using the 40G+CFP OCI circuit pack provided that the 40G+CFP OCI circuit pack client is provisioned as OTU3 and the 40G MUX OCI circuit pack clients are not provisioned to use the 11.05G or 11.09G ODU2 rates.

a 40G OTR using the 40G+CFP OCI circuit pack can interwork with a 40G OTR using the 40G+CFP OCI circuit pack when the clients are provisioned differently. The following mixes are supported: OTU3 at one end and OC-768/STM-256 at the other end. OTU3 at one end and 40GE at the other end.

supports monitoring of OC-768/STM-256 section trace for 40G OCI, 40/43G OCI and 40G+ CFP OCI circuit packs with option to edit the expected Trace value (inducing a mismatch condition) with no support to provision Tx Trace Value

no external bits sources required (line timing or on board reference clocking is used)6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-32 40G, OSIC, SLIC10, and SLIC10 Flex circuit packs client protocols and mappings on 40G OCI circuit packs are shown in Table 1-5.

Table 1-5Client protocols and mapping for 40G OCI circuit packs (NTK529SAE5, NTK529SDE5, and NTK529SJE5)Client protocol (rate)

OPUk Mapping procedure Transparency

OC-768/STM-256(39.813G 20 ppm)

Proprietary OPU3+ Proprietary Asynchronous Mapping Procedure, PT= 0x89

Data and timing transparent

40GBASE-R(41.250G 100 ppm)

Proprietary OPU3+ Transcode + Proprietary Asynchronous Mapping Procedure, PT= 0x8B

Data and timing transparent

OTU3(43.018G 20 ppm)

Proprietary OPU3+ Proprietary Asynchronous Mapping Procedure, PT= 0x8A

ODU3 transparent, timing transparent

OTU3, OC-768/STM-256 handoff (43.018G 20 ppm)

Proprietary OPU3+ Mapping used towards OTU3 client: Bit-synchronous mapping procedure (BMP), PT= 0x03Mapping used towards OTU3+ line: Proprietary Bit-Asynchronous Mapping Procedure, PT= 0x89


OTU3, 40GE handoff (43.018G 20 ppm)

Proprietary OPU3+ Mapping used towards OTU3 client: Transcode + Generic Mapping Procedure (GMP), PT= 0x07Mapping used towards OTU3+ line: Proprietary Transcode + Asynchronous Mapping Procedure, PT= 0x8B

ODU3 transparent, timing transparent6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-33Cross-connection typesThe 40G OCI, 40G+ CFP OCI, and 40/43G OCI circuit packs only support the 2WAY (Bidirectional) transponder and OTN (40G+ CFP OCI only) cross-connection type.

Cross-connection rateThe 40G OCI, 40G+ CFP OCI, and 40/43G OCI circuit packs only support the ODU3 transponder and OTN (40G+ CFP OCI only) cross-connection rate.

OTU3, 4xODU2 handoff (43.018G 20 ppm)

Proprietary OPU3+ Mapping used towards OTU3 client: Asynchronous Mapping Procedure (AMP), PT= 20Mapping used towards OTU3+ line: Proprietary Asynchronous Mapping Procedure, PT= 0x20


Note: OTU2 rate is OPU2 rate x 255/238 = 10.709G 20 ppm. OTU2e rate is OPU2e rate x 255/238 = 11.096G 100 ppm. OTU1e rate is OPU1e rate x 255/238 = 11.049G 100 ppm.

Table 1-5 (continued)Client protocols and mapping for 40G OCI circuit packs (NTK529SAE5, NTK529SDE5, and NTK529SJE5)Client protocol (rate)

OPUk Mapping procedure Transparency6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-34 40G, OSIC, SLIC10, and SLIC10 Flex circuit packsSupported CFPsThere are no CFP ports on the 40G OCI or 40/43G OCI circuit packs. However, a 40G+ CFP OCI circuit pack contains a client CFP pluggable module as seen in Table 1-6.

Performance monitoringThe 40G OCI, 40G+ CFP OCI, and 40/43G OCI circuit packs support the following monitored entities: Client interfaces

PM collection of SONET section (S)/SDH regenerator section (RS) and SONET line (L)/SDH multiplex section (MS) for OC-768/STM-256 facilities

PM collection for OTU3 layer for 40/43G OCI and 40G+ CFP OCI circuit packs

PM collection for ODU3 layer for OTM3 mapping layer facilities for 40G OCI, 40G+ CFP OCI, and 40/43G OCI circuit packs

PM collection for protection switch count/duration for ODU3 layer for OTM3 mapping layer facilities for 40G+ CFP OCI circuit pack

Table 1-6Supported CFP modules for the 40G+ CFP OCI circuit pack

Interface circuit pack Supported CFP module

ATTENTIONNot all of the available facilities in a CFP may be supported by the 40G+ CFP OCI circuit pack. Refer to Table 1-27 on page 1-152 to find out which facility types can be supported by 40G+ CFP OCI circuit packs.

40G OCI Multi-Protocol 1xCFP (NTK529SJE5)(see Note)

PCFP 40GBASE-LR4, 4x10G CWDM, SMF, 1310nm, 10km CFP

(NTTA11BAE6) 40GBASE-SR4, 4x10G, MMF, 850nm, 100m, MPO, CFP

(NTTA11AA) 39.8G to 44.6G, 40G Serial, SMF, 1550nm, 2km CFP

(NTTA13EEE6) 41.2G to 44.6G, 4x10G CWDM, SMF, 1310 nm, 40km CFP

(160-9013-900) 39.8G to 44.6G, 4x10G CWDM, SMF, 1310nm, 10km CFP

(NTTA12BAE6) Note: On the 40G+ CFP OCI circuit packs, port 1 is the pluggable OC768/STM256/OTM3/ETH40G CFP client interface (40G+). There are no line ports on the 40G+ CFP OCI circuit packs. A virtual OTM3 port 1 is also provisioned by software internally on the circuit pack. This is a mapping port used to demarcate the ODU3 layer but does not have a physical connection. 6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-35 PM collection for TCMTTP, TCMCTP, ETH40G facilities for 40G+ CFP OCI circuit packs

PM collection of Physical layer for OC-768/STM-256 facilities PM collection of Physical layer for OTU3 facilities for 40/43G OCI and

40G+ CFP OCI circuit packs PM collection of Physical layer for ETH40G facilities for 40G+ CFP OCI

circuit packs operational measurements for ETH40G facilities for 40G+ CFP OCI

circuit packs

The 40G+ CFP OCI circuit pack supports the following monitored entities when mated with a 40G OTN XCIF circuit pack: PM collection for OTUTTP facilities PM collection for PTP facilities PM collection for TCMTTP and TCMCTP facilities

For detailed information and procedures associated with performance monitoring, refer to Fault Management - Performance Monitoring, 323-1851-520.

AlarmsFor a complete list of alarm clearing procedures for 6500, refer to Part 1 and Part 2 of Fault Management - Alarm Clearing, 323-1851-543.

Attention: Some of the alarms listed below do not apply to all three variants of the 40G OCI, 40G+ CFP OCI, and 40/43G OCI circuit packs.

Equipment alarms Circuit Pack Missing Circuit Pack Mismatch Circuit Pack Failed Autoprovisioning Mismatch Intercard Suspected Internal Mgmt Comms Suspected Circuit Pack Latch Open6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-36 40G, OSIC, SLIC10, and SLIC10 Flex circuit packs Provisioning Incompatible Database Not Recovered For Slot Circuit Pack Upgrade Failed Cold Restart Required: FPGA Changed

Pluggable alarms (40G+ CFP OCI variant only) Circuit Pack Missing - Pluggable Circuit Pack Mismatch - Pluggable Circuit Pack Failed - Pluggable Circuit Pack Unknown - Pluggable Autoprovisioning Mismatch - Pluggable Intercard Suspected - Pluggable Provisioning Incompatible - Pluggable

OTM facility alarms Loss Of Signal Loss Of Clock Loss Of Frame Loss Of Multiframe Pre-FEC Signal Fail Pre-FEC Signal Degrade Rx Power Out Of Range OTU Trace Identifier Mismatch OTU Signal degrade OTU BDI ODU AIS ODU LCK ODU OCI ODU Trace Identifier Mismatch ODU BDI OPU AIS OPU Payload Type Mismatch Far End Client Signal Fail GCC0 Link Fail GCC1 Link Fail6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-37 GCC0 OSPF Adjacency Loss GCC1 OSPF Adjacency Loss Laser Off Far End Failure Triggered Loopback Active - Facility Loopback Active - Terminal Manual Switch Active Forced Switch Active Lockout active Auto Protection Switch Acknowledge Time Out Protection Switch Byte Fail Protection Channel Match Fail Far End Protection Line Fail Protection Mode Mismatch Protection Scheme Mismatch Protection Switch Complete - Revertive Protection Exerciser Failed Integrated Test Set Configured Integrated Test Set Data Save In Progress Event Log Full Mapping Mismatch

OCn/STMn facility alarms Loss Of Signal Loss of Clock Loss Of Frame AIS Trace Identifier Mismatch Signal Fail Signal Degrade (NTK529SJE5 variants only) RFI Laser Off Far End Failure Triggered Loopback Active - Facility Loopback Active - Terminal Rx Power Out of Range6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-38 40G, OSIC, SLIC10, and SLIC10 Flex circuit packs Integrated Test Set Configured Integrated Test Set Data Save In Progress Event Log Full

OTUTTP facility alarms Loss of Frame Loss Of Multiframe Loss of Clock Pre-FEC Signal Fail Pre-FEC Signal Degrade OTU Signal Degrade OTU BDI OTU Trace Identifier Mismatch

PTP Facility alarms Loss of Signal

Ethernet alarms Loss Of Signal Loss of Data Synch Loss of Clock Loss Of Frame Excessive Error Ratio Local Fault Remote Fault Laser Off Far End Failure Triggered Loopback Active - Facility Loopback Active - Terminal Rx Power Out of Range Integrated Test Set Configured Integrated Test Set Data Save In Progress Event Log Full

TCM Facility alarms ODU BDI ODU AIS ODU LCK6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

40G, OSIC, SLIC10, and SLIC10 Flex circuit packs 1-39 ODU OCI TCM Loss of Tandem Connection ODU Signal Degrade

WAN alarms CMF UPI MismatchSoftware Auto-Upgrade alarms Software Auto-Upgrade in Progress Software Auto-Upgrade Failed

Equipping rulesThe following equipping rules apply to 40G OCI, 40G+ CFP OCI, and 40/43G OCI circuit packs: are one-port single slot interfaces. can be equipped in any slot (1-14 except slots 7 and 8 if cross-connect

circuit packs are provisioned in slots 7 and 8) of the 14-slot packet-optical, converged optical, converged optical/front electrical, or converged optical/rear electrical shelves. Slots 7 and 8 of a 14-slot packet-optical shelf (NTK503SA) cannot be equipped with this circuit pack.

can be equipped in slots 1-8, 11-18, 21-28, and 31-38 of the 32-slot packet-optical shelf.

can be equipped in slots 1 to 7 of the 7-slot optical shelf. 40G OCI, 40G+ CFP OCI, and 40/43G OCI circuit packs cannot be

equipped in the NTK503MAE5 and NTK503NAE5 variants of 2-slot shelf. 40G+ CFP OCI circuit pack can be equipped in slots 1 and 2 of the

NTK503LA variant of 2-slot shelf. any adjacent two-slot combination of 40G OCI/Wavelength-selective 40G

OCLD, 40G OCI/40G OCLD, 40G OCI/40G UOCLD, 40G+ CFP OCI/Wavelength-selective 40G OCLD, 40G+ CFP OCI/40G OCLD, 40G+ CFP OCI/40G UOCLD, 40/43G OCI/Wavelength-selective 40G OCLD, 40/43G OCI/40G OCLD, or 40/43G OCI/40G UOCLD is possible (for example, 40G OCI, 40G+ CFP OCI, or 40/43G OCI circuit pack on left or right of 40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD circuit pack) starting in any slot with the exception of connections across slots 6 to 7 and 8 to 9 for 14-slot shelf types. Note that if you are planning full-fill unprotected or regen 40G applications, connections across the above slots will not occur as they will be using the recommended slots 1 to 2, 3 to 4, 5 to 6, 7 to 8 (not applicable to 14-slot packet-optical shelf (NTK503SA)), 9 to 10, 11 to 12, and 13 to 14 for 14-slot shelf types.6500 Packet-Optical Platform 40G, 100G, OSIC, and SLIC10 Circuit PacksRelease 9.3 323-1851-102.4 Standard Issue 3Copyright 2010-2014 Ciena Corporation February 2014

1-40 40G, OSIC, SLIC10, and SLIC10 Flex circuit packs In a 2-slot optical Type 2 shelf assembly (NTK503LA) and when one 40G OCLD circuit pack is mated with one 40G+ CFP OCI circuit pack (OTR configuration), the 40G OCLD can be in slot 1 or 2 and 40G+ CFP OCI circuit pack can be in other slot.

a 40G OCI, 40G+ CFP OCI, or 40/43G OCI circuit pack between two 40G OCLD, Wavelength-selective 40G OCLD, or 40G UOCLD circuit packs provides 1+1 OTN line-side protection. Signals are exchanged between triplets using the backplane. For 1+1 protection, the choices are slots {1,2,3}, {4,5,6}, {9,10,11}, and {12,13,14} for 14-slot shelf types. slots {1,2,3}, {4,5,6}, {13,14,15}, {16,17,18}, {21,22,23}, {24,25,26},

{33,34,35}, and {36,37,38} for 32-slot shelf type. slots {1,2,3} and {4,5,6} for 7-slot shelf type.

any adjacent two-slot combination of 40G+ CFP OCI/40G OTN XCIF is possible as long as 40G OTN XCIF circuit pack is in even slot (for example, 40G+ CFP OCI circuit pack on left side of 40G OTN XCIF circuit pack). The exception is slot 8 for 14-slot shelf type, and slot 10 for 32-slot shelf type. The use of 40G OCI (NTK529SAE5) or 40/43G OCI (NTK529SDE5) circuit pack is not supported in combination with 40G OTN XCIF.

two 40G OTR groups (40G+ CFP OCI/40G OCLD or 40G+ CFP OCI/Wavelength-selective 40G OCLD) provisioned in consecutive slots can be configured as 1+1 protection using TPT (without any cross-connect). The first 40G OTR group must be in the lower numbered slots (considered the working path) and the second 40G OTR group must be in the higher numbered slots (considered the protection path). The working/protection path slot is the slot number in which the working/protection 40G+ CFP OCI is seated. The 40G+ CFP OCI circuit packs must always be in the odd slots and the 40G OCLD or Wavelength-selective 40G O

40G, 100G, OSIC, And SLIC10 Circuit Packs

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