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Next Generation Networks – delivering competitive advantage Neil McArthur

Next Generation Networks – delivering competitive advantage Neil McArthur Chairman, TalkTalk Technology. Agenda. What’s an NGN Our NGN The significance of Ethernet The importance of QoS Opals Network based SIP development Managing Legacy to NGN migration Assurance. What is an NGN?.

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Next Generation Networks – delivering competitive advantage Neil McArthur

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  1. Next Generation Networks – delivering competitive advantage Neil McArthur Chairman, TalkTalk Technology

  2. Agenda • What’s an NGN • Our NGN • The significance of Ethernet • The importance of QoS • Opals Network based SIP development • Managing Legacy to NGN migration • Assurance.

  3. What is an NGN? Network intelligence Applications Conveyance • Multi-service network • QoS enabled • End to end IP based network • Separation of conveyance and service control (network intelligence) functions/applications • Ability to build new services without changing the network infrastructure • NGNs speed up innovation

  4. Current architecture Network Intelligence Conveyance Applications NTE / Customer access device Access Network Backhaul Network Network Edge Aggregation Node Core Network Line Card IN platform PSTN Phone web e-mails DSLAM PC ATM / IP Video server CATV TV V-HLR GMSC Base Station PSTN Mobile Ethernet switch SDH / Ethernet Office premises ASP / datacentre Slide 4 Ofcom

  5. NGN architecture Network Intelligence Conveyance Applications NTE / Customer access device Access Network Backhaul Network Aggregation Node Network Edge & Core MSAN IP / MPLS Network Intelligence Voice Phone Web e-mails PC Video server TV Base Station Games Mobile Ethernet switch WDM / Ethernet Office premises ASP / datacentre Slide 5 This document is uncontrolled if printed or saved to a non-authorised site. Ofcom

  6. What does our NGN look like? • Core network two 400 Gig fibre rings around the main population centres. 47 core POPs • 800 Gig Supercore fibre network around greater London taking in all the Telehouses and main carriers • Layer 1 & 2, access network building to 2000 exchanges • Exchange MSANs copper and fibre, supporting Residential, SOHO and SME services • Hierarchical QoS enabled network hence supporting voice and data services

  7. Index DWDM Nodes (Optical connectors) Collector Nodes Unbundled Exchanges Core Network 800Gb 400Gb 10Gb Covers over 80% of businesses – 2.1 million business premises Commitment to increase to 2,000 exchanges for both MPF and SMPF by end 2010 85% coverage of businesses Ethernet termination at 1,300 exchanges in 2010 Fig 3

  8. But, we still have one of these to run

  9. High Level View of Opal NGN and TDM Networks Manchester Birmingham London ASX Switches ASX Switches ASX Switches Opal NGN Ethernet Backhaul MPF MSAN IP/TDM Transit GSX Switches GSX Switches MPF TDM MSAN TDM Switches TDM Switches TDM Switches Fig 1

  10. Impact of Ethernet Source: Analysis Research, 2007

  11. The significance of Ethernet • Has become the established standard for network interconnectivity, at work and in the home • A disruptive technology, replacing Frame Relay, ATM, E1,Token ring etc • Can be delivered cost effectively across large scale NGNs • Not distance dependant and highly scalable • End to end standards based, meaning compatibility • Creates another telecoms inflection point

  12. Three phases of Carrier Ethernet • E-LAN, E-Line, E-Tree services • P2P, P2MP, MP2MP Metro and national Ethernet Layer 2 • Access circuits to MPLS • 10/100/1000Mbps fibre access, with resilience options • Incremental, flexible service bandwidths/internet over Ethernet option • Aim to be MEF 9 and 14 compliant Phase 1 Phase 2 Standard Ethernet Enhanced Ethernet • EOAM 802.1ah - end to end QoS management and reporting • Remote diagnostics capability, enhanced alarm functionality resulting in better SLA, reduced downtime, greater visibility of service performance • Bandwidth profiling • Burstable bandwidth option Phase 3 EFM/NGAEthernet over copper • 3Mbps-40Mbps service bandwidths over copper • To be included in Ethernet and MPLS services • Option for a lower-cost alternative / different SLA

  13. Tactical and Strategic Ethernet

  14. QoS enabled network • QoS is the differentiator on NGN service delivery. • Network supports Hierarchical QoS in the core, edge and access • QoS Protocols - MPLS, COS, DiffServ • Precision Time Protocols. IEEE 1588v2 • Layer 2 Ethernet OAM, ITU 1731 • Layer 3 IPSLA

  15. Opal’s SIP development • Our NGN already carries 1.5Billion minutes of VoIP traffic month • So where are the network based SIP products? • Connectivity is key in the SIP business • Functionality around In/ Outbound • Centrex- Featureline services • IVR services • Number portability

  16. Voice Solution Overview • Access to suit customer requirements • Customer has transport choice • Network Hosted Features as standard • Up Sell to Network Value Adds

  17. Managing TDM to NGN migration • Leave the choice to the customer. • Our view is we should accept voice traffic into the NGN either as TDM or IP. For both PSTN and ISDN. • Customers migrating to IP PBX may send traffic direct as IP over DSL or Ethernet. • Customers retaining TDM PBX may send traffic to the NGN over Ethernet using Circuit Emulation. • Traffic is carried into the core of the NGN and broken out into conventional TDM trunk exchanges. • This avoids building out TDM/SDH network out to exchanges.

  18. No 1 in Copper Assurance • Investment of over £5M on copper loop testing • Openreach accept our fault data • Proactive fault management • Fastest average speeds over copper in the UK • Dynamic line management DLM optimises copper line speeds • Important in EFM deployment.

  19. Ethernet OAM Enables engineered SLA’s at Layer 3 and above by delivering Layer 2 fault and performance management End to end functionality validated through implementation of industry standards 802.1ag – Connectivity Fault Management (CFM) ITU T.Y.1731 – Service Performance • Key OAM Metrics reported on: • Availability • Throughput (% of CIR/EIR) • Frame Loss • Frame Delay • Frame Delay Variation

  20. Our vision What does our NGN offer our partners? • Separate service from conveyance • Allowing Partners more space to add value • Moving to access based charging • Unify B2B connectivity towards Ethernet. • Roadmap of migration from legacy to NGN operation • Network SIP product set in development. • Better transparency of assurance

  21. The Customer’s Choice CPE NGN SIP Retain TDM PBX ISDN30 C/E NEW SIP PBX C/E Call Server Media Converter GSX Router TDM Trunk Switch National TDM Network

  22. ? Any questions?

  23. Opal NGN roadmap EFM/NGA (Ethernet) Symmetric bandwidth up to 10Mbps VoIP ISDN30 replacement EthernetReach Dedicated internet access Wholesale SMPF and L2TP 8Mbps, 24Mbps Voice and broadband Wholesale MPF and L2TP 8Mbps, 24Mbps Voice and broadband Q1 09 Q2 09 Q3 09 Q4 09 Q1 10 Q2 10 2011 Ethernet L2/L3 VPNs E-Line, E-LAN services 3Mbps – 1Gbps options Internet over Ethernet Enhanced Ethernet EOAM – E2E QoS Burstable bandwidth options Online performance reports • MPLS IP/VPN • Fibre, DSL, leased line access • Fully meshed, private networking • Performance reporting for customers

  24. customer exchange metro core edge 400G DWDM 10G 10G www BRAs S U P E R C O R E 800G DWDM LAYER 2 SWITCH MSAN CU 10G 10G DWDM Core Switch P Router Diffserv+ MPLS DF+L7 Voice EF+L4 Data PE Router COS+ MPLS L4+L7 Voice L0+L4 Data MPLS L7 Voice L4 Data COS L4 Voice L0 Data Core Switch P Router NGN Network Topology and QoS

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