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Migration to All-IP Networks: Directions and Deployment
Customers’ Event Crete, May 2007 Migration to All-IP Networks: Directions and Deployment Presented by: Dr. Yuri Gittik Chief Strategy Officer
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Outline All-IP” Networks: The Approach IP Transformation
Focus on Access and Metro Incremental Deployment – Leveraging Existing Infrastructures
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Towards “All-IP” Networks
IP traffic prevails the applications– IP for voice and data services VoIP and soft-switches for voice services Internet access and IP VPN services Pseudowire solutions for Ethernet and legacy Layer 1/2 services New IP-based services: IPTV, N-play Fixed-mobile convergence “Access-agnostic” services for wireline and mobile customers IMS SIP-based services (“push-to-x”) IP/MPLS infrastructure IP DSLAMs, PSN backhaul, metro and core networks It’s all about money: €conomy- not technology! Reduced opex with high economy of scale Reduce the number of different networks and infrastructures Flexibility with existing and new services
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BT’s 21CN Network Evolution
From multi-networks to a multi-service network Fewer network elements Simpler service management Rapid implementation
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Drivers for the 21st Century Network
Power to Customers – increased flexibility and greater reliability Speed to Market - innovative services Investing now for future £1B annual cash savings Cost Transformation - significant reduction in operating costs for More Less
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Migration to “All-IP” Networks: Still Open Issues
IP transformation Maintain legacy traffic (mainly business and mobile) Focus on access and metro From DSLAM to MSAN Ethernet metro Incremental deployment – leveraging existing infrastructures First of all, SDH infrastructure And many others…
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Outline All-IP” Networks: The Approach IP Transformation
Focus on Access and Metro Incremental Deployment – Leveraging Existing Infrastructures
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IP Transformation: Legacy over PSN
Network Core Access/Backhaul Services/CPE Legacy Services Existing Equipment ATM DSLAM Legacy Networks SDH, ATM 2G BTS 3G NodeB New Services and Equipment New Packet-Switched Networks GbE, MPLS, IP IP DSLAM IP RAN 4G NodeB Maintain legacy traffic over new packet-switched infrastructures TDM, ATM, voice, … A broad traffic range: residential and business services, 2G/3G mobile traffic Domestic and international coverage
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"Classic" Edge-to-Edge Pseudowires
Emulation of native Layer 1/Layer 2 services, such as TDM, Frame Relay, ATM or Ethernet, over a packet-switched core network (IP/MPLS) Enables transport of a native service over IP/MPLS tunnels Emulation is performed by provider edge devices (PE) The individual service emulations in this approach are termed pseudowires RAD pioneered “pre-pseudowire” TDMoIP in 1999 and leads the pseudowire standardization and implementation PW Encapsulation Function PW Encapsulation Function Customer Premises Customer Premises PE PE CPE IP/MPLS Attachment Circuit Native Service Attachment Circuit Native Service CPE PW PW
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Broadening the Pseudowire Approach
Network Segment Access Core N/A Extended Pseudowires/Emulation “Classic” Pseudowires IP/MPLS Infrastructure Platforms Ethernet IAD+DSLAM (MSAN) Note: Metro segment could be considered as a part of the access network, or, alternatively, associated with the core network
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3GPP Development: More IP/MPLS
RAN Core Revisions Control Entity Iub TNL Iucs TNL Iups TNL Voice Core Data Core R99 Separate RNC ATM ATM/TDM IP/MPLS Rev.4 IP Rev.5 ATM or IP Rev.6 Rev Not final Distributed functionality between separate NodeB and RNC LTE: Rev.8+ Not final No separate control nodes
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Mobile Backhauling: Towards IP-centric Infrastructure
Milestone 1. Legacy (TDM and ATM-based) cellular voice+data traffic over PSN infrastructure including backhauling Pseudowire solutions with optional clock recovery Incremental migration to “all-IP” and IMS solutions Mainly in the core, not backhaul infrastructure, yet with some impact on backhauling Milestone 2. IP-based cellular voice+data traffic over PSN infrastructure including backhauling Regular IP solutions with some cellular-specific implementations IMS solutions are expanding into the multi-technology access TISPAN is adding functional sub-system for enhanced control of network resources “Grey area”
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Backhaul Evolution Towards IP
Evolution steps Pre-provisioned (w/o control plane) traffic-agnostic transport (TDM, ATM) Pre-provisioned (w/o control plane) traffic-aware transport Abis optimization, data compression, … [Traffic-aware] transport with control plane Network control plane (IP/MPLS-based), optionally service-aware Service control plane (IP/IMS-based) Next steps? Access “collapsing” when controller nodes (not entities!) are eliminated From Backhaul (radio sites-controller)+ Aggregation (controllers-edge node) to Access (radio sites-edge/core node) ? ? ? ?
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Outline All-IP” Networks: The Approach IP Transformation
Focus on Access and Metro Incremental Deployment – Leveraging Existing Infrastructures
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21CN Network Architecture
CMSAN – Copper MSAN FMSAN – Fiber MSAN
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ngDSLAM/MSAN: Typical Deployment Scenario
Initial Stage: DSLAM platform with strong focus on residential services (and optional PSTN migration) Use standard commodity IAD and CPE Low importance of fiber access Basic services (voice, Internet access) Next Stage: Broadening the focus More focus on business customers Access over DSL and fiber Maintaining traditional services (leased lines, ATM) Dedicated smart NTU and multiservice CLE for new and traditional services Cellular backhaul applications And now adding IPTV services… Just to add more details about FCD-155. This product allows to enhance SDH networks with NG ADM capabilities: GFP, virtual concatenation with LCAS.
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To Ensure Really Multiservice MSAN
Customer Premises Single/multiple Copper Fiber IAD PBX CO/POP 3G NodeB Ethernet Metro IP/MPLS ATM Access Gateway Single/multiple Copper ngDSLAM MSAN TDM 2G BTS Radio Site Customer Premises NTU/CLE PBX Fiber Adding a range of smart NTU/CLE products to the MSAN platform Access over xDSL and fiber links Optional pseudowire technologies to support legacy traffic More focus on direct (fiber) access to Metro Ethernet Point-to-point and point-to-multipoint (GPON)
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Ethernet Metro: Too Many Options?
Ethernet over legacy networks (SDH, ATM) MPLS-based Ethernet metro New alternative [emerging] technologies Transport MPLS (T-MPLS) – Alcatel, more? PBB-TE (former PBT) – Nortel, BT, NSN, (RAD?) Yet a clear consensus on the requirements for end-to-end Ethernet services Smart termination and service demarcation are essential Ethernet OAM, traffic handling, protection, … E-NTU
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Outline All-IP” Networks: The Approach IP Transformation
Focus on Access and Metro Incremental Deployment – Leveraging Existing Infrastructures
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Leveraging Existing Infrastructure
Network Core Access/Backhaul Services/CPE Legacy Services Existing Equipment ATM DSLAM Legacy Networks SDH, ATM 2G BTS 3G NodeB New Services and Equipment New Packet-Switched Networks GbE, MPLS, IP IP DSLAM IP RAN 4G NodeB How to take advantage of existing infrastructures? Ethernet/IP services over: SDH: Ethernet over SDH (DTAG, Telenor, …) ATM: Ethernet over ATM (FT, DTAG, …)
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T-COM: Bottom Up from SDH
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Telenor: “All-IP 2010” Network
Distribution Ethernet/ngSDH Core IP/MPLS Higher capacity Fewer technologies Seamless services IP-based service platform with open standards and common interfaces Common service edge Ethernet interfaces All access types SDH Point-to-point radio or fiber Areas with late IP/MPLS distribution rollout 80x nodes Base Station Ethernet CWDM Existing structure developed for telephone Moving from narrowband to broadband Moving from static allocation to flexibility Moving from complexity to simplicity DSL will remain the dominating broadband technology in terms of volume. Wireless broadband will be used as complementary technology. Fiber to business locations will be deployed in established and new areas. FTTP will mainly be used in new build areas. Ethernet will be the dominating technology for connecting the access network to the distribution network, DSL Distribution FTTP Fiber New build areas VDSL2 ADSL ADSL2+ SHDSL High capacity DSL areas Core router Distribution router DSLAM or Ethernet switch ngSDH node Access
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Ethernet over SDH: Options
Ethernet traffic (services) over pure SDH infrastructure ngSDH, MSPP (Multi-Service Provisioning Platform) “Old generation” SDH with external Ethernet-over-SDH capabilities GFP, Virtual concatenation for “fat pipes”, LCAS, etc. Ethernet traffic over combined SDH & PSN infrastructures How to bridge two worlds in a most efficient way? Egate Channelized STM-1 SDH Metro Ethernet IP/MPLS GbE
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Summary Variety of “All-IP” networks implementation: “One size does not fit all” Increasing importance of intelligent multiservice access over diverse media More technological alternatives are under way… driven by economics
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Thank you for your attention Yuri Gittik
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