e-dokumen.id

Wavelength TunabilityThe 100-Gbps DWDM Trunk card supports software-provisionable tunability across the full C-band, covering 96channels on the 50-GHz grid. Tunability enables flexibility and reconfigurability of services transported onROADM-based networks and also allows ordering and inventory of a single part for deployment and sparing.Flexible Protection Mechanism SupportThe 100-Gbps Full-Band Tunable CP-DQPSK DWDM Trunk card supports multiple protection mechanismscommonly used in optical transport networks. Table 2 outlines the available protection options and the associatedservice-level agreements (SLAs) that can be provided.Table 2.Protection FormatsProtection TypeCapabilitiesUnprotectedNo client terminal interface, transponder card, or DWDM line protection.The client signal is transported over a single unprotected transponder card or optical path.1 1 protectionProvides protection for the client terminal interface, transponder card, and DWDM line through client automaticprotection switching (APS) or linear multiplex section protection (LMSP) signaling transported transparently over thetransponder card or optical path.Protection is provided through client line or path protection through transparent signal transport through atransponder circuit.OCH trail protectionProvides protection for DWDM signal through external optical switch units (protection switch module [PSM]).Flow-Through TimingThe 100-Gbps DWDM Trunk card allows timing to flow through from client to line optical interface. The receivedtiming from the client interface is used to time the line transmitter interface. This flow-through timing allows multiple100-Gbps DWDM Trunk cards to be placed in the same shelf but to be independently timed, independent of thenetwork element timing.ManagementCisco ONS 15454 MSTP provides comprehensive management capabilities to support the operations,administration, maintenance, and provisioning (OAM&P) capabilities through the integrated Cisco transportcontroller craft interface with support from the Cisco Prime optical element management system. The 100-GbpsFull-Band Tunable CP-DQPSK DWDM Trunk Card features provisionable digital wrapper (G.709) functionality,providing per-wavelength performance management capabilities, especially for services transported transparentlyacross the network. Without the digital wrapper functions, a carrier transporting a service transparently would beunable to identify network impairments, which may degrade the transported signal and violate the SLAs. The digitalwrapper’s generic communication channel (GCC) provides a separate communications channel on aper-wavelength basis to be used by the platform when transparent signals are transported. GCC allows the CiscoONS 15454 system to extend its advanced network autodiscovery capabilities to DWDM-based services. Theintegrated Cisco Transport Controller craft manager and Cisco Prime optical provide the user with OAM&Pfunctionalities for the system.Far-End-Laser-Off BehaviorThe Cisco 100-Gbps Full-Band Tunable CP-DQPSK DWDM Trunk Card can provision the far-end-laser-offbehavior when SONET/SDH payloads are present. Customers can use Cisco Transport Controller to configurehow the remote client interface will behave following a fault condition. It is possible to configure the remote client tosquelch or to send an alarm indication signal (AIS).For 100GbE signals the default behavior is squelching. 2016 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public Information.Page 5 of 14

Performance MonitoringThe 100-Gbps DWDM Trunk provides support for both transparent and nontransparent signal transportperformance monitoring. The digital wrapper channel is monitored according to G.709 (OTN) and G.8021standards. Performance monitoring of optical parameters on the client and DWDM line interface include loss ofsignal (LOS), laser bias current, transmit optical power, and receive optical power. Calculation and accumulation ofthe performance monitoring data are supported in 15-minute and 24-hour intervals as per G.7710.Physical system parameters measured at the wavelength level like mean PMD, accumulated chromatic dispersionor received OSNR are also included in the set of performance monitoring parameters. These can greatly simplifytroubleshooting operations and enhance the set of data that can be collected directly from the equipment.A detailed list of performance monitors is given in Table 7.The 100-Gbps DWDM Trunk card incorporates faceplate-mounted LEDs to provide a quick visual check of theoperational status of the card. An orange circle is printed on the faceplate, indicating the shelf slot in which you caninstall the card.A specific configuration of the client will support IP-over-DWDM proactive fast reroute messaging over the CXPclient in case of 100GbE connectivity with the ASR-9000 2-port 100G line card.Regenerator ConfigurationThe Cisco 100-Gbps Full-Band Tunable CP-DQPSK DWDM Trunk Card supports OTU4 regeneration capabilities.Two cards can be configured to work in back-to-back mode connecting through the backplane in the same shelf,and perform the OTN optical-electrical-optical (OEO) regeneration of the frame, as depicted in Figure 6.Figure 6.OTU4 Regeneration Configuration for 100G/OTU4 Client Signal100GE or OTU4 clients are supported. Regeneration capability uses the OTU4 backplane interconnectionsupported by the ONS 15454 M6 or M2 chassis; OTU4 overhead is terminated, allowing ODU4 to transparentlypass through. GCC0 is properly terminated, while GCC1 and GCC2 are properly passed through. 2016 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public Information.Page 6 of 14

No CXP client is required as communication between the two cards acting as a regeneration group is supportedthrough the chassis backplane.A dedicated IP-over-DWDM configuration can be enabled in the regeneration configuration to support proactivefast reroute messaging between IP-over-DWDM router interfaces.Figure 7.OTU4 Regeneration Configuration in an M2 ChassisIn case of failure on one side, ODUk-AIS is generated and propagated on the other side, while an OTUk-BDI issent back on the same side as defined by the ITU G.709 standard.10x10G Muxponder ConfigurationThe Cisco 100-Gbps Full-Band Tunable CP-DQPSK DWDM Trunk Card can be coupled with the 10x10G line cardto support 10-port 10G muxponder capabilities. The 100G DWDM trunk card can be connected through the M6 orM2 backplane (no client CXP required) with the 10x10G line card to provide OTN multiplexing of the 10G datastreams into a single 100G DWDM OTU4 wavelength.Supported client signals are any combination of 10GbE LAN-PHY, 10GbE WAN-PHY, OC-192, STM-64, 10GFC/FICON, 8G FC/FICON, or OTU2 data rates.For additional information, refer to the 10x10G line card data sheet.Figure 8.Three 10x10G Muxponder Configurations in an M6 Chassis 2016 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public Information.Page 7 of 14

2x40G Muxponder ConfigurationThe Cisco 100-Gbps Full-Band Tunable CP-DQPSK DWDM Trunk Card can be coupled with the 2xCFP line cardto support 2-port 40G muxponder capabilities. The 100G DWDM Trunk card can be connected through the M6 orM2 backplane (no client CXP required) with the 2xCFP line card and provides OTN multiplexing of the 40G datastreams into a single 100G DWDM OTU4 wavelength.Supported client signals are any mix and combination of 40GbE LAN-PHY or OTU3 data rates.For additional information, refer to the 2xCFP line card data sheet.100G LR4 Transponder ConfigurationCisco 100-Gbps Full-Band Tunable CP-DQPSK DWDM Trunk Card can be coupled with the 2xCFP line card tosupport 100GBASE-LR4 client interface for the 100-Gbps transponder. The 100G CXP pluggable available on the100-Gbps DWDM Trunk Card currently supports only 100GBASE-SR10 client interface, while 100GBASE-LR4 canbe supporting using a CFP form factor only.The 2xCFP line card can be connected through the M6 or M2 backplane with up to 2 x 100G DWDM Trunk Cardsplaced in slots immediately above and below the trunk card to provide the functionality of two 100G LR4transponders, using CFP pluggables as the client-facing interface.Figure 9.Two 100G LR4 Transponder Configurations plus One 10x10G Muxponder in an M6 ChassisSupported client signals are 100GbE LAN-PHY or OTU4 data rates.For additional information, refer to the 2xCFP line card data sheet.Application DescriptionCisco ONS 15454 MSTP 100-Gbps Full-Band Tunable CP-DQPSK DWDM Trunk Card adds the capability to costeffectively transport 100-Gbps services using the Cisco ONS 15454 MSTP platform. 2016 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public Information.Page 8 of 14

Two main applications are foreseen: 100-Gbps router interconnection for business services and research networks: Cisco research indicates thatthe total volume of worldwide IP traffic is doubling every two years, requiring an increase in transfer ratefrom 10 Gbps to 100 Gbps. The transponder solution aims at providing DWDM interconnection between100-Gbps router interfaces across DWDM metro, regional, or ultralong-haul networks. The advanced CPDQPSK modulation scheme is designed to cope with long-distance applications, allowing the extension of100-Gbps services across more than 2,500 km unregenerated distance. OTU4 links in carrier backbone networks: OTN technology is crucial to backbone carrier networks. OTN isnormally the preferred method used for intercarrier or interdomain capacity exchange at 2.5-Gbps (OTU1),10-Gbps (OTU2), 40-Gbps (OTU3), and 100-Gbps (OTU4) data rates. Cisco 100-Gbps Full-Band TunableCP-DQPSK DWDM Trunk supports a fully standard OTU4 client interface, which can be connected to anyG.709-based OTN cross-connect, 100-Gbps router interface, or other 100-Gbps transponder interfaces.Licensing ApproachThe ONS 15454 MSTP 100-Gbps Full-Band Tunable CP-DQPSK DWDM Trunk Card includes the ability to costeffectively transport 10G services using a pay-as-you-grow licensing model for the 10x10G muxponder application.A licensed version of the ONS 15454 MSTP 100-Gbps Full-Band Tunable CP-DQPSK DWDM Trunk Card works inconjunction with a licensed version of the 10x10G line card, offering a price-sensitive solution for aggregation andtransport of 10G services. These two cards can only work in this configuration. Additional 10G services will beprovided by mounting a 10G license through software key distribution. Up to nine 10G licenses can be added to theline card (one is provided in the initial configuration).In order to simplify spares management, it is also possible to upgrade the licensed version of the trunk card to a fullfunctionality one.Table 3.Supported Software LicensesLicense PIDLicense DescriptionCard ApplicabilityCard Description15454-M-LIC-10G One Port 10G License for 100G Muxponder15454-M-100GC-LIC 100G OTU-4 ITU-T CP-DQPSK Full C BandTunable LC - Licensed15454-M-LIC-100G 100G TXP/Reg License for 100G Trunk Linecard15454-M-10X10-LIC 10x10G Multirate Client LC Licensed w/ 1License at 10GMore information about the Cisco licensing policy is available /English/EU1KEN .html.Product SpecificationsCompact Design Single slot card slot design for high-density, 100-Gbps solutions Up to six 100-Gbps DWDM Trunk cards per ONS 15454 M6 shelf assembly, supporting up to 42 100-Gbpsinterfaces per 42-rack unit (RU) bay frameFlexible Restoration Options Transparent support for UPSR/SNCP, BLSR/MS-SPRing, and 1 1 APS/MSP OCH-trail protection through protection switch module Unprotected (0 1) 2016 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public Information.Page 9 of 14

Tables 3 and 4 list the regulatory compliance and system requirements for the 100-Gbps DWDM Trunk card. Table5 provides the DWDM specifications, Table 6 details receive-side optical performances, Table 7 lists performancemonitoring parameters, Table 8 provides card specifications, and Table 9 includes ordering information for thecard.Regulatory ComplianceImportant: All compliance documentation might not be completed at the time of product release. Check with yourCisco sales representative for countries other than Canada, the United States, and the European Union.Table 4.Regulatory ComplianceANSI SystemETSI SystemCountries Supported Canada European Union United States Africa Korea CSI Japan Australia European Union New Zealand China Korea India Saudi Arabia South AmericaEMC (Class A) ICES-003, 2004 GR-1089-CORE Issue 4, NEBS EMC and Safety, June 2006 FCC 47CFR15, 2007 ETSI EN 300 386 V1.4.1 (2008-04) Telecommunication networkequipment EMC requirements (Note: EMC-1) CISPR22:2008 and EN55022:2006/A1:2007 Information TechnologyEquipment (Emissions) (EMC-2) CISPR24: 1997/A1:2001/A2:2002 andEN55024:1998/A1:2001/A2:2003:Information Technology Equipment - Immunity characteristics - Limitsand Methods of Measurement (test levels)Safety CSA C22.2 #60950-1 - Edition 7, March 2007 UL 60950-1 - Edition 2, March 2007 UL 60950-1 - Edition 2, March 2007 IEC 60950-1 Information technology equipment Safety Part 1:General requirements - Edition 2, 2005 and National Differences asper CB Bulletin 112A GR-1089-CORE Issue 4, NEBS EMC and Safety, June 2006 IEC/EN 60950-1 (2006/10) with Amendment 11:2004to EN 60950-1:2001, 1st Edition and National Differences as per CBBulletin 112A EN 60950-1, Edition 2 (2006) Information technology equipment –Safety – Part 1: General requirements CE Safety Directive: 2006/95/ECLaser UL 60950-1 - Edition 2, March 2007 IEC 60825-1: 2001 Ed.1.2 (incl. am1 am2) Safety of laser productsPart 1: Equipment classification, requirements and users guide IEC60825-2 Ed.3 (2004) Safety of laser products Part 2: Safety ofoptical fiber communication systems A1:2006 IEC 60825-1: 2001 Ed.1.2 (incl. am1 am2) Safety of laser productsPart 1: Equipment classification, requirements and users guide IEC60825-2 Ed.3 (2004) Safety of laser products Part 2: Safety ofoptical fibre communication systems A1:2006 21CFR1040 (2008/04) (Accession Letter and CDRH Report)Automatic Laser Shutdown and restart (ALS) according to ITU-TG.664 (03/06). Guidance for Industry and FDA Staff (Laser NoticeNo. 50), June 2007 Laser Products – Conformance with IEC 60825-1 and IEC 60601-222; Guidance for Industry and FDA Staff (Laser Notice No. 50), June2007 2016 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public Information.Page 10 of 14

ANSI SystemETSI SystemEnvironmental GR-63-CORE Issue 3, NEBS Physical Protection, March 2006 ETS 300-019-2-1 V2.1.2 (Storage, Class 1.1) ETS 300-019-2-2 V2.1.2 (1999-09): Transportation, Class 2.3 ETS 300-019-2-3 V2.2.2 (2003-04):Operational, Class 3.1EOptical GR-253-CORE - Issue 04 ITU-T G.709 ITU-T G.691 ITU-T G.975QualityTR-NWT-000332, Issue 4, Method 1 calculation for 20-year mean time between failure (MTBF)Miscellaneous GR-1089-CORE Issue 4, NEBS EMC and Safety (June 2006) (Note: NEBS-1) GR-63-CORE Issue 3, NEBS Physical Protection (March 2006) (Note: NEBS-2) ATT-TP-76200: 2008 ANSI T1.315-2001 GR-499: 2004 Transport Systems Generic Requirements (TSGR): Common RequirementsTable 5.System RequirementsComponentCisco ONS15454 M6 Cisco ONS15454 M2Cisco NCS 2002Cisco NCS 2006Cisco NCS CS/TNCS-OShelf assembly15454-M6-SA shelfassembly with FTA215454-M2-SA shelfassembly with FTA2NCS 2002 shelfassemblyNCS 2006/shelfassemblyNCS 2006/shelfassemblySystem softwareRelease 9.6ANSI/ETSI or laterRelease 9.6ANSI/ETSI or laterRelease 9.6ANSI/ETSI or laterRelease 9.6 ANSI/ETSIor laterRelease 10.5.xANSI/ETSI or laterSlot compatibility2 through 72 through 32 through 32 through 72 through 14Table 6.DWDM SpecificationsParameterValueBit rate27.952 Gbaud 20 ppm (OTU4 with GFEC or HG-FEC 7% OH)31.241Gbaud 20 ppm (OTU4 with UFEC 20% OH)Automatic Laser Shutdown and restartITU-T G.664 (06/99)Nominal wavelengths ( Tnom)Full tunable between 1528.77 and 1566.72nm (C-Band – 50 GHz)Connector type (TX/RX)LC, duplex (shuttered)Optical TransmitterTypeCP-DQPSK modulation formatOutput Power (PTmin)LH VersionMetro Version-1 to 1.5dBm-2 to 0.5dBmRequired Optical Return Loss, minimum (ORLmin)27 dBLaser Safety Class1Optical ReceiverChromatic dispersion tolerance (DLRmax) /- 70,000ps/nmOverload0dBmReceiver reflectance (maximum)30dBInput wavelength bandwidth ( c rx)Between 1528.77 and 1566.72nm (C-Band – 50 GHz) 2016 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public Information.Page 11 of 14

Table 7.DWDM Receive-Side Optical PerformancesCD ToleranceFEC TypePre-FEC BERPost-FEC BERInput PowerSensitivityDGDOSNR(0.5 nm RWB)EFEC(20% OH) 1x10E(–2) 10E(–15)0 to –14dBm(-20dBm with0.5dB of OSNRpenalty)-7.5dB180ps8.0dB180ps9.0dBHG-FEC(7% OH) 4.0x10E(–3)0 to –14dBm(-20dBm with0.5dB of OSNRpenalty)-8.0dB180ps8.5dB180ps9.5dB0 to –14dBm-10.5dB10ps11.0dB0 to –14dBm-11.0dB(-20dBm with0.5dB of OSNRpenalty)10ps11.5dBExtended Performance0 ps/nm0 ps/nm /- 70,000 ps/nm0 ps/nm 10E(–15)0 ps/nm /- 70,000 ps/nmMetro Edge Performance0 ps/nmEFEC(20% OH) 1x10E(–2) 10E(–15)(-20dBm with0.5dB of OSNRpenalty) /- 5,000 ps/nm0 ps/nm /- 5,000 ps/nmTable 8.HG-FEC(7% OH) 4.0x10E(–3) 10E(–15)Performance Monitoring ParametersAreaParameter NameOTNOTUk SMODUk PMBBE-SMBBE-PMNumber of background block errorsBBER-SMBBER-PMBackground block error ratioES-SMES-PMNumber of errored secondsESR-SMESR-PMErrored seconds ratioSES-SMSES-PMNumber of severely errored secondsSESR-SMSESR-PMSeverely errored seconds ratioUAS-SMUAS-PMNumber of unavailable secondsFC-SMFC-PMNumber of failure countsFECTrunk optical PMDescriptionBit errorsNumber of corrected bit errorsUncorrectable WordsNumber of uncorrectable wordsOPTTransmit Optical PowerLBCTransmitter Laser Bias CurrentOPRReceiver Optical PowerRCDResidual Chromatic DispersionPMDMean Polarization Mode DispersionOSNROptical Signal to Noise Ratio, calculated with 0.5nm RBW 2016 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public Information.Page 12 of 14

Table 9.Card SpecificationsManagementCard LEDsFailure (FAIL)RedActive/standby (ACT/STBY)Green/yellowSignal fail (SF)YellowClient port LEDs (per port)Active input signalGreenDWDM Port LEDsActive input signalGreenOutput wavelengthGreenPower (including pluggable)Typical125W (25C & -48VDC)Maximum133W (55C & -38VDC)PhysicalDimensionsOccupies 1 slotWeight1.8kg (4 pounds)Reliability and availabilityMean time between failures (MTBF)121,957hrsLatency (end to end)G.709 - Standard FEC4 microsecondsG.709 – HG-FEC 7%24 microsecondsG.709 – UFEC 20%39 microsecondsStorage temperature-40º C to 70 C (-40 ºF to 158 ºF)Operating temperatureNormal0ºC to 40 C (32 F to 104 F)Short term1-5º C to 55º C (23º F to 131 F)Relative humidity5% to 85%, noncondensingNormal5% to 90% but not to exceed 0.024 kg water/kg of dry air1Short term1Short-term refers to a period of not more than 96 consecutive hours and a total of not more than 15 days in 1 year (a total of 360 hours in anygiven year, but no more than 15 occurrences during that 1-year period). The values shown are valid for M6 or M2 chassis.Table 10.Ordering InformationPart NumberDescription15454-M-100G-LC-C 100G OTU-4 ITU-T CP-DQPSK Full C Band Tunable LC15454-M-100G-ME-C 100G OTU-4 CP-DQPSK Full C Band Tunable LC Metro Edge15454-M-100GC-LIC 100G OTU-4 ITU-T CP-DQPSK Full C Band Tunable LC - Licensed15454-M-LIC-100G 100G TXP/Reg License for 100G Trunk Line cardONS-CXP-100G-SR10 CXP - 100GBASE-SR - Commercial Temp 2016 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public Information.Page 13 of 14

Cisco CapitalFinancing to Help You Achieve Your ObjectivesCisco Capital financing can help you acquire the technology you need to achieve your objectives and staycompetitive. We can help you reduce capital expenditures (CapEx), accelerate your growth, and optimize yourinvestment dollars and ROI. Cisco Capital financing gives you flexibility in acquiring hardware, software, services,and complementary third-party equipment. And there’s just one predictable payment. Cisco Capital financing isavailable in more than 100 countries. Learn more.For More InformationFor more information about the ONS15454 MSTP, l/ps2006/ps5320/index.html.Printed in USA 2016 Cisco and/or its affiliates. All rights reserved. This document is Cisco Public Information.C78-738094-0011/16Page 14 of 14

The Cisco ONS 15454 100-Gbps solution can dramatically lower the cost to carry bandwidth, helping to maintain and improve customers' profitability. . The Cisco 100-Gbps Full-Band CP-DQPSK DWDM Trunk Card can transport 100GbE LAN-PHY and optical transport network (OTN) optical transport unit level 4 (OTU4) signals over a 50-GHz spaced, 50 .