MHL 3000 DWDM SOLUTION COMMERCIAL PRESENTATION Outline › Optical Requirements › MHL 3000 key strengths › High data rate eg 40G, 100G › ROADM for all Optical switch › Reliability & Energy Efficiency › ASON/WSON control plane › Success stories › Summary DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 2 Optical requirements Scalability › Single platform for any networks applications › Scalability of adding traffic rate 2.5G,10G,40G, 100G over installed base infrastructure Flexibility › Service flexibility › Fast service provisioning › Flexible wavelength upgrade › Flexible node upgrade for any network topology › adding GbE,FC,Video › Mix 100GHz & 50GHz › ..and Ethernet aggregation › Mix technologies MSPP, Ethernet Reliability › Traffic control and separation › Full QoS › “Protections”: “Restorations”: › Control plane ASON/WSON Planning tool with full reliability Green environment › Low power consumption › Small footprint › High density › Integrated solution eg Photonic integration with zero traffic impact Lowest TCO › Optimized CAPEX › OPEX simplicity › Automatic solution › Minimum troubleshooting › Simplified planning › Easy commissioning › Minimum regeneration cost › Low skill required For building cost effective and flexible transport infrastructures DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 3 MHL 3000 family Edge Metro C/DWDM Passive Metro C/DWDM Passive Metro DWDM OADM Metro DWDM ROADM Core Multi-reach Core DWDM Extended Single Span Passive Filters OTN CLE Flexible 2.5G Xponder 40ch OADM Effective 10G Trans/ Muxponde r ROADM Colorless DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 4 40G/ 100G ASON / WSON Raman Ericsson’s optical leading technology World firsts (MHL 3000 / SmartPhotoniX) › Full band transponder tuneability › High capacity system @ 10G on G.653 fibre, using L-Band (SmartPhotoniX) › ROADM available since year 2000 › Un-regenerated 3000 km link (2001) › Full G.709 OTN support for in field deployments (2003) › 40G field trial over 600 km (2003) › 40G in-service over 1000 km link (2006) › 100G field trial over 1200 km (2008) Technical innovations (MHL 3000) › Extended single hop sub-marine / terrestrial capability: 380 km › In-service Multi-direction 80chs WSS with high volume deployment, LCOS and MEMs › 40G transmission on 1650 km on European currier MHL 3000 continues technology leadership and innovation DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 5 MHL 3000 key strengths High Value Scalability › Single solution for Edge, Metro and Core networks › In traffic upgrade from ring to mesh @2.5G, 10G, 40G, 100G ready › Invest when needed with minimum TCO - 3.2Tb/s capacity Full Flexibility › Modularity for optimum Node configuration › Agile Optical routing and switching: ROADM/WSS › Multi-service provisioning: Video, TDM, ODU, Data, SAN Best value Reliability › Protection: 1+1 OSNCP, line protection › Restoration: green and safe-OSNCP 99,999% availability › ASON/WSON for network efficiency Easy Manageability › Simplifying network planning and deployment › End-to-end network controlled and monitoring: full G.709 OTN › Automatic service provisioning – zero intervention with best QoS DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 6 High value scalability High density Low footprint Min cost per service MHL 3000 CWDM Metro C/DWDM Passive 8 x 2.5G / 10G DWDM CWDM DWDM 40 ch x10G CWDM 8ch x2.5G Scalable solution & in service upgrade to 46 wavelengths @ 2.5G, 10G Metro DWDM OADM TCO Other vendors Best value TCO across the full lifecycle 50% Remote re-configurability Ericsson Plug and play Metro DWDM ROADM Phase 1 Upgrade Cost effective solution for Edge/Metro & regional DWDM reach DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 7 Scalable Core Network 7000 km services / 7 European countries Multi-Reach Core DWDM › › › › › Single platform for wide services: 3.2Tb/s Efficient mixing 2.5G, 10G, 40G transport Minimum regeneration at any bit rate In service upgrade: , ROADM Optimized TCO with high network reliability PAN European Network Extended Single Span › Longest submarine single span, 72dB › In service: Vodafone, Exelcomindo, Angola Basslink Flexible and agile core network infrastructures DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 8 In traffic upgrade 2.5G, 10G, … 40G Optimised Traffic interfaces Transponder Muxponder Data-Muxponder 2.5G Multiservices solution Regeneration saving Compact & dense node 2.5G Xponder 2.5G OTN CLE 3 for 1 10G Multirate transponder for any services Flexible module and full band tunable 10G Transp /dual 10G TDM/Data Muxpon › Multirate Transponders with softare configurable, simplifying planning and saving spares › Dual 10G transponders for CAPEX saving › Optimized 10G sevrices with bandwidth efficiency. Options of 10G TDM muxponder (4x STM-16/OC-48), 10G data muxponders (8x GE/FC) Mixing different services, highly configurable DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 9 40G/100G high speed connectivity › Router-to-router connectivity to improve the use of bandwidth › Bandwidth capacity increase › High speed interfaces for network efficiency › 10G system and network compatibility High speed transmission – Reach, ROADM › Saving on TCO – – – – – Energy efficiency Space density/ common part Fibre optical cable Spare management Better spectral efficiency 40G, 100G needed to keep pace with bandwidth growth DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 10 MHL 3000 40G transmission Flexible solution for any fiber type Modular portfolio for best fit 40G RZ DQPSK Metro, Core 40G DPSK 40G RZ DQPSK ›Bad fiber ›Strong PMD tolerance ›50/100 GHz wavelength grid ›Full C-band tuneability ›Tunable DC Network Price Core 30% Metro Core 40G DPSK ›Good fiber ›Low cost ›50/100 GHz wavelength grid ›Full C-band tuneability ›Tunable DC Optimized performances and CAPEx by mixing technologies DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 11 40G traffic aggregation with NRZ-DPSK and RZ-DQPSK Options STM-64/10GbE STM-64/10GbE STM-64/10GbE 20% DWDM network 40G Muxponder TCO STM-64/10GbE 40G Muxponders 40G Muxponder 32% 4x10G trp STM-64/OC-192 2009 44% 2010 2011 Timeline of 40G econimics versus 10G › › › › › › › 4xSTM-64/OC-192/10GbE WAN/LAN NRZ DPSK and RZ-DQPSK options Full band tuneable (50GHz grid) optics Pluggable client XFP G.709 OTN features & management Integrated Network Management Better fibre utilization Network example of TCO with 40G solution focusing on benefits of › › › › › Network elements Fibre Roll-out Energy Operational and maintenance 40G solutions for effective 10G services DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 12 Traffic flexibility 2.5G, 10G, 40G, 100G interfaces DATA SERVICES Data: GE, FC Data muxponder: 2x GE/FC, 8x GE/FC WDM line: transponders’ option NRZ, RZ, DPSK, RZ-DQPSK TDM SERVICES TDM muxponders’ options 4x STM-1/4, 4x STM-16, 4x STM-64/10GE 40G inverse muxponders STM- 256 (4x 10G) Services 2.5G, 10G, 40G, 100G @ Metro, Core 100GHz & 50GHz Traffic interfaces options to support any services at right cost DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 13 China Telecom: BREAK in CHINA MARKET with 40G Metro/ Core DWDM Business Strategy › Network evolution and network transformation integrating fixed and mobile infrastructures Transformation scope WSS 10G 40chs › Massive growth in Internet traffic drives Next generation Network deployment 40G Ericsson contribution 10G 40G 900/1200 km, multi hop WSS › › › › › WDM with 40G NRZ DPSK over 900 km Multidirection ROADM architecture (WSS) Fully loaded system System scalability and manageability Standard interfaces for end to end interoperability and inter-working test with competition › Trail over 1200km with 80 chs (12x22dB) Fully compliant with customer demand and best technical performances in real deployment Outstanding 40G performances in China market DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 14 100G Field Trial OVER existing optical platform (T-COM) MultiReach Core DWDM › Successful transmission of a 112Gb/s signal over 633km DWDM link in the Deutsche Telekom network DIFFERENTIATION › › › › 112 Gb/s PM-RZ-DQPSK format with record speed polarization tracking 112G standard complaint Full 10G compatible system Integrated solution › MHL 3000 system over 7 spans of standard fiber › Pass through of 2x ROADM and 2x OADM (50GHz) Terminal South Fixed OADM Line Amplifier 95 km Terminal ROADM / WSS 80 km 95 km 100 G + 10 G Evolving on technology, from 40G to 100G . Not a revolution, but continuous network evolution DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 15 112Gb/s 100G Field Trial with coherent receiver in Telefonica MultiReach Core DWDM › Field trial with 100G over existing fibre over 1000+ km, with MHL 3000 equipment in the Telefonica Spain network QPSK double bit rate per symbol › 112 Gb/s DP-QPSK 28GBD with coherent receiver › 40 channels @10G with 100G signal › Pass through of 4x ROADM and 2x OADM (50GHz) Dual Polarization reduces baud rate Coherent Detection Improves SNR, easy planning, no PMD/CD issue 100G DP QPSK with coherent receiver >2300km w Raman Evolving 100G with coherent receiver for MHL 3000 DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 16 Field proved multi-directional ROADM World first deployment of ROADM in 2001 – PMA32 (more than 250 deployed) Large installed MHL 3000 ROADM More than 200 first generation ROADM, blocker based, 3 ways More than 600 Multi-directional ROADM, WSS based, 100GHz and 50GHz TI Sparkle London Amsterdam Frankfurt Paris Marseilles Milan Regional & Core DWDM Network Regional & Core DWDM Network PAN European Network Widely deployed ROADM/WSS with MHL 3000 DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 17 Metro WDM: Multi-direction ROADM and Dual 10Gtransponder 10G Dual trp + ROADM › Flexibility › Low CAPEX › Optimum density › Auto Leveling › Reduced power consumption MHL 3000 ROADM Network CAPEX Saving Power Consumption Saving 1.6kW CAPEx OADM 32% 1.2kW Multidirection ROADM 33% 9 wavelength 40 Single 10G trp MHL 3000 ROADM enables 40% TCO saving DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 18 Dual 10G trp Full network flexibility with ROADM Agile Optical Routing & Switching multi-ways › 2-way Ring-based › Scalable multi-direction – up to 9- directions,50GHz – up to 8-directions, 100GHz ring interconnect, mesh network › Full bandwidth access › Line Capacity – 1.6Tb/s Metro, 3.2Tb/s Core › Colorless: flexible wavelength assignment › Directionless: flexible direction assignment › Single node management ROADM 2-ways ROADM In service network evolution › Scalable multi-degree nodes › In service wavelength provisioning and protection Supports any network topology with simple provisioning DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 19 Protection and restoration: a service differentiation suite WSON/ASON High priority traffic › Multiple failure recovery › Resource sharing for CAPEx optimization › 5 9’s traffic availability Green restoration Safe OSNCP at 10G and 40G Low priority traffic Medium priority traffic Line protection Network Protection OSNCP › Cost effective solution › Metro applications › Resilient line path › Dedicated protection path › Transponder protection › 50ms restoration time Green restoration 40% CAPEX saving Best value reliability with QoS and guaranteed SLA DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 20 Network resilience application ASON/WSON Control Plane Multi Direction Directionless Line 1 Colorless Protection options Card sharing Line 1 Colored Line 2 1+1 OSNCP Directionless removes preplanning, transponder not associated to a specific direction, enables switch of traffic. Colorless selects wavelength at Line 9 Colored set-up and in case of congested route with wavelength translation Colorless and directionless for high traffic availability DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 21 No protection ASON/WSON Control plane › Flexibility: Control Plane – Wide spectrum of SLAs, with guaranteed QoS – Full relaible network for different business application › Reliability: – Enable multiple fault survivability and full traffic availability 5 “9s” Transport Plane › Scalability: – Optimize resources as network expands for new services – Mantaining the End to end service provisioning › Efficiency: – Automatic planning, provisioning and monitoring of network Multiple fault survivability – Removing manual intervention and human error End-to-end service – Remove operational staffs, and MTTF Provisioning › Cost effective solutions – Green restoration: transponder sharing (CAPEx saving) IP network connectivity Wholesale service – Safe OSNCP: fast and double fault protection (OPEx saving) WSON builds network reliability with multiples QoS options DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 22 WSON application: Green Restoration › Application Scenario: IP over DWDM – All-IP services with IP infrastructures ( IP/MPLS) – Fast reroute selecting alternative path – WSON complements Router’s traffic resileincy › WSON Benefits as TCO – Highly resilient network – Multiple failures resiliency – Overcome recovery time of 50ms – OPEx saving :WSON acts as fibre repairs and delivers strong traffic availability: SLA of five 9s. Maximized MTTR, with reduced operation staff: >75% OPEx saving – CAPEX saving: Green restoration demands less transponder in the network WSON saves CAPEX and halves power consumption DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 23 WSON Application: Safe-OSNCP Application Scenario › Safe-OSNCP – recovery schemeincreases the resiliency of the network assuring 50ms of switching speed also in case of double failures After the second failure detection traffic is switched on the recovery side of OSNCP. Former Protection is moved to reserved state › Carrier’s customers are connected to the WSON network either via a direct link or via an aggregation network › Resiliency requirement are stringent (SLA of five9s) WSON Benefit › Safe-OSNCP provides multiple failure resiliency with low OPEX › High traffic availability: SLA of five9s offers a low OPEX impact › Maximized MTTR, with reduced operation staff: >75% OpEx saving Improved Layer 1 availability leads to better service quality DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 24 Optical PLANNER PLAN BUILD › Bandwidth on demand › Multiple failure survivability › Network optimization as CAPEX (network resources) and OPEX (traffic availability) › End to end service provisioning › WDM transport with ASON/WSON control plane – Manage traffic on optimum routes with RWA MANTAIN › SDH network upgrade on packet with ASTN/GMPLS control plane › Efficient packet network with MPLS-TP connection oriented › Full integration with Network Management ecosystem Higher ROI on expanding network and on new services DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 25 Optical Network Planner › Simulate desired network configuration › Full control of network inventory & BoM › Configure networks with ASTN/GMPLS or with ASON/WSON control plane › Monitor network resources, and level of occupancy › Optimise network resources utilization without impact on network reliability › Plan automatic routes in case of ROADM/WSS to guarantee SLA › Full remote network control and SLA › Performs optical restoration with – Green restoration, Safe OSNCP – Line protection, 1+1 OSNCP Traffic Matrix Planning From Screech › Capacity Planning › Network simulation Network › Network Availability Snapshot › Network Inventory › Bill of Material › Fault analysis › Bottleneck analysis › Network Power analysis Commissioning Network Topology Network Purchasing And Commissioning Network is Up and Running ‘What if’ and New planning Network Purchasing DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 26 New Traffic Matrix Failure simulation New Network Configuration Why Ericsson is the right partner? Scandinavan Telenor US & Canada Contract with US federal South America Cable& Wireless International Pan European UK Germany BT network based on Marconi footprint Cable & Wireless with Long haul solution T-Com 40G commercial deployed – rollout started Ethernet aggregation in custmer edge (OTN CLE) Network Core network with 40G MiddleEast Telecom Egypt, metro ring solution (ROADM/WSS) for enhance capacity Spain Italy Telefonica network to enables xDSL services with IPTV connectivity TI Core network. Wind CWDM/DWDM solution for backhauling network. Vodafone build a broadband access network Africa Angola Telecom 10G Indonesia ExcelComindo longest submarine system (384km) Asia Pacific Chunghwa telecom Taiwan: ROADM/WSS depolyments Telecom Malaysia 10G China Mobile 10G China Telecom 40G Australia Full network infrastructure over SDH legacy with Telstra Wide installed base: More than 9000 DWDM NE in service DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 27 DWDM Summary MHL 3000 is modular and SCALABLE platform for any applications: Edge/Metro/Core network FLEXIBLE node configuration with ROADM/WSS, 2.5G xponder, 10G dual trans, 40G connectivity, 100G trial Network reliability with multiple options (protections and restorations) enhances QoS and customers base Planner & WSON optimizes resource utilization and traffic availability with optimum Total Cost of Ownership DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 28 DWDM Commercial Presentation | Commercial in confidence | © Ericsson AB 2010 | 2010-05-05 | Page 29