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Making Mobile Backhaul 4G Ready

Making Mobile Backhaul 4G Ready. Delivering Transitional Mobile Backhaul Solutions. Enabling Mobile Broadband ADTRAN Mobile Backhaul Leadership. Leadership in enabling mobile services over any access Dominant T1 backhaul provider in U.S.A.

caryn-erickson
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Making Mobile Backhaul 4G Ready

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  1. Making Mobile Backhaul 4G Ready Delivering Transitional Mobile Backhaul Solutions

  2. Enabling Mobile BroadbandADTRAN Mobile Backhaul Leadership Leadership in enabling mobile services over any access Dominant T1 backhaul provider in U.S.A. TDM (HDSLx), SONET(OPTI-6100), Ethernet (NetVanta/TA5000) Copper, Fiber, Microwave Focused on Ethernet backhaul for demanding IP services Ethernet over Fiber, GPON Resilient architectures Advanced Cos/ QoS features Innovation to drive down cost of delivering IP and legacy services Integrated tools/function to reduce cost Automated installation processes Simplified operational models Packet/ Ethernet based timing

  3. Mobile TV is here i.TV 2.0 for iPhone coming soon Enjoy full NBC videos on your iPhone CBS releases TV.com iPhone app Hulu coming to the iPhone? 4G technology being deployed Rivals Wireline Broadband speeds VzW deploying LTE Sprint/Clearwire WiMAX All WSP have 4G plans for 2010-2013 Mobile Broadband is here 10X bandwidth w/o corresponding profit TV program watched on Smart Phone Evolution from 2G  3G  4G

  4. Revenue and OpEx were once linear. Voice and text messages drove majority of current revenue as well as majority of backhaul impact. All you can Eat Pricing Models drives demand to lower cost per bit delivered to user Revenue per bit delivered is driven to lowest levels. Significantly expand data capacity to enable new devices, services and applications  ARPU growth LTE is 1st generation wireless network built as a data network Mobile Broadband hammers ProfitabilityData usage way up; disproportionate ARPU Source: Light Reading

  5. Demand for Next-Gen Mobile Backhaul Ethernet Access Missing link to Profitability • Wireless (Mobile) Network Operators moving to Packet-networks drive down Operational Cost • Core Networks and Applications Infrastructure have moved to packet, IP/MPLS upgrades. • First Packet-based RF technologies being deployed at cell sites • Mobile Backhaul Access last hold-out to All-Packet Network Realization 100s or 1000s of Base Stations served LTE is Packet IMS and EPC are packet Mobile Backhaul (Access) Connection needs to be Packet Mobile Telephone Switching Offices (MTSO)

  6. Hybrid Backhaul ModelBaby step toward All-IP Convergence Key backhaul transformation required for 4G (LTE) LTE forecast to be 80%+ of traffic, 50 – 100Mbps required Desire to freeze, decouple TDM leased line growth Leaves Voice Network Undisturbed - Revenue Protection No changes to Network Timing, Operational Processes Internet IP/Ethernet Circuit Core TDM/SDH Packet Core PSTN Service Cell Site Access & Aggregation Central Office/Mobile Core 2G 3G Two Networks 4G PDSN Aggregation: 2G: SDH/FIber 3G: ATM/SDH 3G: ML-PPP/SDH 4G: Ethernet over GE Fiber Access: 2G: T1/E1 (PDH) 3G: ATM IMA/PDH 3G: ML-PPP/PDH 4G: Ethernet over X Cost /bit HA Backhaul Scale

  7. Key Attributes for an Ethernet NTURobust enough for Mobile Backhaul Low Cost/Scalable Bandwidth Ethernet over Fiber (EoF) – first choice 4G/LTE Bandwidth, 100Mbps+ 10x increase in data rate, 1Gbps through-put available Time to Market for Service Ubiquity, Every cell site must be served. 2011 launch EoF not everywhere, can use alternative EoX Allows Services Convergence Path to all-packet architecture Retire leased lines, integral sync capabilities SLA Management CoS support e.g. Real-time vs. Best-Effort Resiliency 99.99% service availability Hardened for cell site deployment Robust operating range, metallic interface protection All-IP

  8. A Cell site is not a Wiring ClosetFlexible mounting/powering options In BTS or eNB enclosures Single RMU in size In CO or Street Cabinet NEBS, IEC compliance In uncontrolled environments Temperature hardened Near Tower Surge protected/isolated interfaces e.g. cell site is a lightning rod No space, rack or GR-487 cabinet Rack as well as wall mounting options OSP options +24V & -48VDC powering options Resilient, Dual feed powering LTE eNB OSP EAD

  9. Fiber cell sites grow in all regions The number and portion of cell sites with fiber grows in each region in each year through 2013, and won’t stop there

  10. EoCu, EoTDM, EoF, EoS equals EoXCompleting the customer reach puzzle • EoCu – Ethernet over Copper • Optimized bandwidth per loop • Perfect for short to medium length loops • Requires local deployments & loop access • EoTDM – Ethernet over TDM • Predictable bandwidth per circuit • Time to Market effective deployments • Minimizes CapEx by centralizing aggregation platform • EoF - Ethernet over Fiber • Active Ethernet for higher rate business services • PON for cost-effective SOHO service offer • EoS - Ethernet over SONET/SDH • Outstanding reputation • Resiliency • Proven TDM/Synchronization for mobile backhaul

  11. Same service, Varied Deployments10Mbps to 1Gbps Service Delivery Outdoor, Copper-fed Mobile Exchange BTS/Node B Total Access 5000 Carrier Ethernet Aggregation NetVanta 838 OSP NTU Up to 8 pairs e.SDHSL Copper Typical 10, 20, 30, 40Mbps Carrier Ethernet via GigE Mobile Exchange Total Access 5000 Carrier Ethernet Aggregation BTS/Node B NetVanta 8044 Ethernet Access Device (EAD) Carrier Ethernet via GigE 100Mbps or GE Optical Fiber Indoor, Fiber-fed

  12. Carrier Ethernet Service Coverage Uncontrolled Environmental Conditions Key Application is Mobile Backhaul GR-487 Compliant Hardening and Environmental sealed Outside Plant (OSP) Options Enhanced Protection (EP) for Lightning Isolation for WAN, LAN and Power interfaces Environmental Alarming NetVanta 838 EP NetVanta 838 OSP

  13. Key Attributes for an Ethernet NTURobust enough for Mobile Backhaul Low Cost/Scalable Bandwidth Ethernet over Fiber (EoF) – first choice 4G/LTE Bandwidth, 100Mbps+ 10x increase in data rate, 1Gbps through-put available Time to Market for Service Ubiquity, Every cell site must be served. 2011 launch EoF not everywhere, can use alternative EoX Allows Services Convergence Path to all-packet architecture Retire leased lines, integral sync capabilities SLA Management CoS support e.g. Real-time vs. Best-Effort Resiliency 99.99% service availability Hardened for cell site deployment Robust operating range, metallic interface protection All-IP

  14. Mobile Backhaul Convergence Internet Internet PSTN PSTN Service Cell Site Access & Aggregation Core Central Office 2G, 3G Voice Clock Sync IAD TDM/SONET 2G EAD/NTE 3G 4G Ethernet TA5000 2G, 3G, 4G Data IAD 2G, 3G Voice 2G EAD/NTE 2G, 3G Voice Clock Sync 3G 4G Ethernet 2G, 3G, 4G Data TA5000

  15. Pseudowire and Circuit EmulationRequired for all-IP backhaul Bridge 2G, 3G services a.k.a Circuit Emulation or Pseudowire ATM IMA (UMTS) support TDM (GSM, CDMA) support ML-PPP (EV-DO, HSPA) support SAToP DS1 or E1 over Packet ITU Y.1453, RFC 4553, MEF 8 CESoPSN DSO visibility ITU Y.1453, IETF pwe3-cesopsn, MEF 8 ATM IMA over E1/T1 Backhaul over SAToP ATM PW saves DCS ports

  16. Traditional Network Timing Distro Sync Networks Deliver … Sync. Very well. ;p GNSS/GPS Primary Reference Source • Frequency • Phase • Time-of-Day T1/E1 Secondary Reference Source Traceability SONET/SDH Network SONET/SDH or PDH T1/E1 SONET/SDH • Frequency

  17. Three Aspects of Synchronization Frequency This is what SONET/SDH delivers today All that’s needed for the vast majority of network services Synchronous Ethernet is an excellent replacement for SONET/SDH based sync distribution Phase Required by Time Division Duplex (TDD) based mobile solutions Beyond the capabilities of PHY based sync distribution (SONET/SDH or SyncE) Today, typically delivered by GPS/Satellite 1588v2 can provide this requirement in band Time-of-Day Required for a CDMA2000 operation 1588v2 can provide this requirement in band

  18. Key: Not Breaking the Sync ChainConsiderations of Migrating Standards

  19. Clock Synchronization/Recovery Requirements Precision Timing Protocol defined by IEEE 1588v2 Synchronous Ethernet defined by ITU-T G.8261/8262 ADTRAN Differential and Adaptive timing methods defined by ADTRAN pseudowire solution implementation/specifications Table 1: Sync Requirements in Mobile Networks (ON-SITE* error limits) *Note: on-site (to the BTS/NodeB) limits shown not on air limits such as +/- 50 ppb

  20. Service AssuranceHigher Availability Business Continuity Small Business or Suburban Base Station ITU-T G.998.2 EFM Bonding with Redundant Loops Remote Cabinet Aggregation for Increased Copper Data Rate Multi-Tenant Building Ring Protection Switching for Access Resiliency Central Office/Exchange Aggregation at Ethernet Point of Presence Metro Base Station Fiber Access eSHDSL 2 eSHDSL 7 eSHDSL 4 eSHDSL 5 eSHDSL 1 eSHDSL 3 eSHDSL 6 eSHDSL 8 LACP for Network Resiliency Bonding Group UNI • SLA Attributes Considered • Long-term availability • Switchover/recovery options • Enabling Standards/Technology • IEEE 802.3ad (LACP) Link Agg. Control Protocol • ITU-T G.8032 (ERPS) Ethernet Ring Protection • ITU-T G.998.2/IEEE 802.3ah Copper Bonding Protection

  21. Quality of Experience (QoE)Delivering Low Latency, Jitter ADTRAN Carrier Ethernet solutions incorporate the following features to support latency sensitive traffic requirements. Ingress traffic mapping/ prioritization based on port, customer VLAN or p-bit marking. Up to 8 Class of Service queues per port Strict and Weighted Fair Queuing Priority based rate shaping on egress ports

  22. Service Level Agreement Requirements Table 2: SLA requirements for Mobile Networks (error limits)

  23. CIR and EIR Bandwidth ProfilesConfigurable,Guaranteed Connections Confugurable BW profiles per EVC CIR – Committed Information Rate Frame delivery obligation per SLA EIR – Excess Information Rate Excess frame delivery allowed – not subject to SLA if available CBS, EBS - size of burst window (ms) for allowed CIR / EIR rates EVC2 EVC1 EIR EIR CIR CIR EVC3 EIR CIR Total UNI Bandwidth • 2 rate, 3 Colour marking • Marking typically done at ingress port of service provider equipment • Green Forwarded frames – CIR conforming traffic • Yellow Discard Eligible frames – Over CIR , within EIR • Red Discarded frames – Exceeds EIR

  24. Configurable Weighted Fair Queuing Any set of 4 or 8 Queues (EF, 2 or 6 AF, BE) P P P P P P P P P P P P P P P P P P TA5000 AM and NV8044M Ingress Ports Configurable for up to 8 queues • Egress shaping done here • Per port and / or per port per queue • N*64 kbps granularity User-1 Classifier EF Assign To Queues Based On Class of Service AF User-2 Classifier Strict/ WRR . . . Egress Port . . . User-N BE Classifier EF=expedited forwarding AF=assured forwarding BE=best effort

  25. ADTRAN Ethernet OAM Multiple paths for both Fault & Performance Management IEEE 802.3ah Link OAM Connectivity Fault Management (CFM) Performance Management

  26. Quick Reference Guide – EthOAM

  27. ADTRAN Operations Environment • Intelligent Service Activation • Application awareness • OSS integration via Robust Modular Gateway/Network Automation Interface (TL1/XML) • Strong Decision Support • Fault Response • Advanced testing, troubleshooting and diagnostics • Flexible Integrated Security • Advanced PM, Traffic and Capacity Management • Performance Monitoring/Trending • Traffic Engineering/Network Tuning • VQM/DQM Fully Integrated from Planning to Operations to Customer Service

  28. Barrier to Next-Gen Mobile BackhaulLack of Single, Simple Operational Model • Lack of Fiber to Cell sites • Less than 20% penetration • Lack of Single, Simple Operational Solutions: • Need the new T1. • Many different ad hoc Operational models for different mobile models • TDM • ATM • Microwave • Fiber • DS • DS3 • SONET/SDH

  29. Single Service and Maintenance Launch Point Full suite of dedicated, low cost Ethernet Access Gateway for every access medium A Single Centralized SolutionSingle Platform, Common OAM&P, Full Coverage

  30. Hybrid Copper / Fiber NetVantaFiber trench can be time, cost prohibitive • No secondary site visit to install/commision EoF service • No re-provisioning of service. • Service/SLA transparency • ‘One-button’ service push; Bandwidth on Demand Service TA5000 TA5000 Planned EoF facility EoF facility available Initial EoCu provides time-to-market and revenue capture Initial EoCu Facility provides diverse path Increased Bandwidth Demand 10/100/1000 Mbps 10/100/1000 Mbps ADTRAN NetVanta 8044M Modular NTE Customer Interfaces/ Services remain untouched Accelerated Time To Market for 100Mbps 4G/LTE/NGMN Graceful Path to Fiber Access

  31. Introducing Modular Ethernet AccessDelivering the New T1 (and E1) • Complete Vision of Single Operational Model • Single Service and Maintenance Launch Point • Single, Versatile, High Value Ethernet Access Gateway for every access medium

  32. Introducing the NetVanta 8044M TA5000 8-port Gigabit Ethernet Access Module 8 GigE SFP cages Link Aggregation Link OAM NetVanta 8044M 4 -10/100/1000BaseT WAN or LAN 4 - GigE SFP WAN or LAN 2 - Expansion Slots 1 and 2.5G ERPS Ring support with optical bypass option. Clock Sync over Packet Ready e.g. G.8261/62 SyncE Dual fed DC options (+/-24V, -48V DC) Carrier Ethernet MEF 9, 14, 18 Eth OAM CFM and PM TACASC+ and RADIUS Authentication, Authorization 8-port GigE Access Module NetVanta 8044M Modular NTE

  33. NetVanta 8044M Expansion Modules TDM over Packet Service Delivery CESoPSN, SAToP, MEF8 standards GR-1089 Metallic Isolation GPON Access 2.5Gbps Fixed Optics OMCI & Carrier Ethernet Mgmt Ethernet over Copper Access Ethernet over Copper (ULL) ITU-T G.998.2 Bonding (45Mbps) GR-1089 Metallic Isolation Other Expansion Modules for Phase II 2-port OC3/12 STM1/4 Access 8-port DS1/E1 GFP Access 8-port 10/100 BaseT Service 4-port VDLS2 Access 1-port DS3 GFP Access 8-port DS1/E1 CES Service Module GPON ONU Network Module 8-port e.SHDSL Network Module NetVanta 8044M Modular NTE

  34. GigE to the Cell SiteService Expansion to Multiple WSP TA5000 MSAP TA5000 MSAP DS1 DS1 2xGE or 2xGE or 2x10GE 2x10GE TA5000 MSAP TA5000 MSAP Central Office/ Central Office/ Exchange Exchange NetVanta 8044M NetVanta 8044M NetVanta 8044M Carrier Carrier 8 port 8 port 8 port 8 port PW Service Module 8 port PW Service Module 8 port PW Service Module EoFiber EoFiber EoFiber Ethernet Ethernet AM AM AM Network Network CWDM CWDM GigE GigE NV8044M NV8044M NV8044M Modular NTE Modular NTE Modular NTE NV8044M NV8044M NV8044M Modular NTE Modular NTE Modular NTE 8xDS1 & Clock Sync 8xDS1 & Clock Sync 8xDS1 & Clock Sync 8xDS1 & Clock Sync 8xDS1 & Clock Sync 8xDS1 & Clock Sync 10/100/1000 10/100/1000 10/100/1000 10/100/1000 10/100/1000 10/100/1000 Cell Cell Cell Cell Site Site Site Site

  35. GPON to the Cell SiteJustifying FTTH to Low Density Areas

  36. Mobile Backhaul ERPS ApplicationDrop & Continue Ethernet & TDM service SyncE Continue Down Stream Remainder of 1Gbps or 2.5Gbps ERPS Ring Capacity From Up Stream 1Gbps or 2.5Gbps ERPS Ring Drop Customer 1 – 1000 Mbps Ethernet Service - E.G. avg. 150Mbps Drop Customer TDM 1- 16 DS1/E1 Service Any to any ELAN 1-500Mbps Ethernet Up to 64 nodes 1-16 x DS1/E1 1- 16 x DS1/E1 1-16 x DS1/E1 1-500Mbps Ethernet typical 1/2.5Gbps ERPS Ring 3Gbps LAG 3rd party Eth Switch 3Gbps LAG 4Gbps LAG via TA5000 8-port GigE AM CES traffic OR

  37. Barriers to Packet-backhaul Fiber/Ethernet availability, weak Ethernet business case, and lack of confidence in packet-based solutions hold back lower cost solutions ADTRAN solutions focused on eliminating these barriers Source: Infonetics 2009

  38. Question and Answers

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