Carrier Ethernet Access: Extending Ethernet into the First Mile

1. Carrier Ethernet Access:Extending Ethernetinto the First Mile July 2007

2. Carrier Ethernet Access • Carrier Ethernet Access • Standards and Migration • Carrier Ethernet Access Expansion • Expanding Ethernet to Copper, PDH, HFC Cable and Wireless Access Networks • Applications for Ethernet Access • Advantages of Extending Metro Ethernet connections with Ethernet in the First Mile • Recent Projects and Developments

3. The Access Challenge • There are no bandwidth constraints in the LAN • 100 x increase in bandwidth • There are very limited bandwidth bottlenecks in the WAN/Internet core • 1000 x increase in bandwidth • The challenge still remains in the metro and access • 16 x increase in bandwidth Small Enterprise Site Virtual Co-location Ethernet MAN Large Enterprise Site L2 VLAN ASP, Content Distribution Site Internet Access Long-haul ISP Point of Presence Optical WANTransport

4. Drivers for Ethernet Access • Very large unaddressed market • Fiber is only available to 11.7% of businesses – growing at a very slow rate • $8.8B/year in service revenues • Technology is mature • Standards are ratified with large global deployments • Ethernet is the choice • No future protocols on the horizon • Business case works! • Payback in months, with ~80% Carrier GM • True for Incumbent Carrier, Independent Carrier, 2nd Operator & CLEC Vertical Systems Group Footprint

5. Increasing Bandwidth for New Services • Providers are meeting subscriber demand for more bandwidth with Carrier Ethernet Services • MEF E-Line Services provide attractive leased line upgrade • Less OPEX means more margin per line • Ethernet Backhaul enables next generation applications and services • 3G Cellular • DVBH video phones Vertical Systems Group 2006

6. Carrier Ethernet Access: Ubiquitous Carrier Ethernet • Enables widest availability for business Carrier Ethernet Services that extends beyond 1-10GBE Enterprise networks delivered via copper, fiber, coax and wireless technologies • Creates an end-to-end Ethernet service both business and residential users • Improved QoS for next generation IPTV, VoIP and data for residential users • Creates standardized service opportunities world-wide for any type of subscriber • Enables Ethernet services to be delivered across 100% of a carrier’s combined, business, information, and entertainment service portfolio

7. Legacy to Leading EdgeMigrating from TDM to Ethernet Access Traditional Telco Network Voice Oriented Connectivity ATM Sonet/SDH Copper Local Loop ATM Copper Local Loop Copper Copper Copper Copper CSU/DSUs Routers CSU/DSUs Routers ATM Switch MUX MUX ATM Switch Ethernet LAN Ethernet LAN Telco Central Office Carrier Ethernet Network E-Line and ELAN business services Managed Switch/Router Managed Switch/Router Ethernet LAN Ethernet LAN GB Man/WAN Router GB Man/WAN Router IP Network

8. Most efficient access for Ethernet IP IP Ethernet Ethernet PPP ATM, Frame relay, etc. PPP IP AAL5 IP AAL5 Ethernet Ethernet ATM Ethernet ATM Ethernet ATM ATM, FR, etc. PHY PHY PHY PHY xDSL, PPP, GFP xDSL, PPP, GFP xDSL, PPP, GFP xDSL, PPP, GFP SONET/ SDH PHY SONET/ SDH PHY PHY PHY Cat5 Cat5 Copper Copper Fiber Fiber Ethernet minimizes protocol translations

9. Carrier Ethernet Scope and Expansion Wireless Backhaul Bringing vastly extended scalability for business and residential users HD TV TVoD, VoD Gaming, Business Backup, ERP Voice/Video Telephony Voice gateway Video Source Video Source Carrier Ethernet Network Business Broadband COPPER, FIBER, COAX and WIRELESS Broadband mobile data/video E-Line and E-LAN service Residential Triple-Play Small/Medium Business FTTx and DSLAM , Cable Modem

10. Carrier Ethernet Access Standards Maximum Bandwidth (Symmetric) Existing IETF and ITU-T standards Ethernet over Copper Existing IEEE 802.3 standards 10Gbps 10GbE 1Gbps 1000Base B/L/PX10 1000BASE-T (MMF) 1000BASE-LX (SMF) 100Mbps 100BASE-T (Cu Cat 5) 45Mbps EoPDH 45/32Mbps over T3/E3 16Mbps 1000 Base- PX20 100Base-L/BX10 (Single Mode Fiber) EoPDH RFC 3518 or G.8040 12/16Mbps over T1/E1 10Mbps Ethernet over Copper 10BASE-T (Cu Cat5) 2Mbps 100m 500m 750m 2000m 2700m 5000m 10km 20km Minimum Reach • EoPDH provides up to 12/16Mbps over any T1/E1 distance and 45/32Mbps over any T3/E3 distance • VDSL2 can provide 100 Mbps (per pair) in short distances 10 Mbps (per pair) in medium distances and 2 Mbps in long distances

11. Ethernet Access over Copper • ITU standard for Ethernet in the first mile include multiple PHY options to provide a ubiquitous service footprint • Hybrid copper and fiber deployments provide a seamless end-to-end Ethernet access for Ethernet Metro core networks • Fiber to the node, copper from the curb Metro Core Internet EFM Access Triple play Extended Range

12. Ethernet over PDH

13. What is Ethernet over PDH (EoPDH) ? • PDH (Plesiochronous Digital Hierarchy) • Term to collectively refer to T1/E1 and T3/E3 circuits • EoPDH enables Ethernet and IP services to be delivered over PDH access networks • Two ‘competing’ technologies to deliver EoPDH • MLPPP/BCP over PDH (RFC1990 / RFC3518) • for encapsulation, bonding and bridging • GFP over PDH (G.8040) • GFP (G.7040) for encapsulation, • VCAT (G.7041) and LCAS (G.7042) for bonding • EoPDH Equipment support • MLPPP/BCP supported on essentially all routers and new service edge aggregation devices • GFP supported on new types of devices • Service Bandwidth Options • Up to 12Mbps (8 bonded T1s) • Up to 16Mbps (8 bonded E1s) • Up to 32Mbps (1 E3) • Up to 45Mbps (1 T3)

14. Why Ethernet over PDH ? • Enables multiple revenue generating services over a single Ethernet UNI • E.g., Internet access, managed VoIP, Ethernet Access to managed IP VPN, E-Line and E-LAN L2 VPNs • Works over existing copper PDH access networks with no speed or distance limitations • Provides Ethernet UNI handoff to subscriber • Utilizes T1s, E1s, T3 or E3 • T1s are the most widely deployed access network technology for businesses data networking in North America • Enables next generation Radio Access Networks from cell sites to interface to existing microwave radio equipment and PDH backhaul circuits • Addresses underserved sub-10Mbps Business Ethernet services market only addressable via copper access networks • $5B cumulative service revenue between 2006-2010* • Less than 14% of U.S. commercial buildings have access to fiber* • Fits within service provider’s existing network infrastructure • Service providers have offered T1 Internet Access for businesses for years • Still a significantly growing business • EoPDH requires no significant network operation or infrastructure changes • * Vertical Systems Group

15. How does it work? IP IP ETH ETH MLPPP or GFP MLPPP or GFP Subscriber Ethernet Frame in S-VLAN / EVC Ethernet Frame Bonded T1s/E1s Channelized DS3/E3 EoPDH Aggregator EoPDH CLE Ethernet Transport Network Enterprise or Cell Site LEC/PTT IP IP ETH ETH • Ethernet Frames enter EoPDH Customer Located Equipment (CLE) and encapsulated • Into MLPPP or GFP for transport over PDH network • LEC/PTT network multiplexes T1s/E1s into channelized DS3 or E3 circuits • Channelized DS3/E3 circuits terminated on EoPDH edge aggregation device • T1s/E1s extracted from channelized DS3/E3 circuits • MLPPP or GFP terminated and Ethernet Frame Extracted • Each subscribers’ Ethernet frames mapped to S-VLANs (EVC) • To preserve subscriber’s C-VLAN IDs and 802.1p CoS • S-VLAN-tagged Ethernet frame (EVC) to Ethernet Transport Network • Providing transport for EVPL, E-LAN or access to IP services, e.g., Internet access Enables multiple revenue generating services over same PDH infrastructure

16. How is EoPDH (T1 example) deployed? chDS3 T1 NxT1 PPP or GFP session MLPPP or GFP session • Service provider places CLE router on customer premise • Connects to network via 1 or more T1s • Service provider wholesales DS1s to reach customer • ILEC multiplexes DS1 circuits to channelized DS3 • Service provider sets up PPP/MLPPP (or GFP) sessions • between CLE device and Service Edge Aggregator • Service Edge Aggregator maps subscribers into EVCs (S-VLANs) • To handoff to Ethernet transport network Provider PoP/CO ILEC Network Ethernet Transport Network EoPDH CLE, e.g., router EoPDH Service Edge Aggregator EoPDH CLE, e.g., router

17. Ethernet over Active Fiber

18. Ethernet Access over Active Fiber Distance • Up to 140 Km with No Bandwidth Loss Highest Bandwidth Capacity • P2P: 100 Mbps, 1 Gigabit, 10 Gigabit • WDM: 100s of Gigabits Security • Physically Secure Medium with no EMF emission; nearly impossible to tap lines Scalability • EVC / E-Line / E-LAN using Q-in-Q VLAN • High Capacity enables Rate Limiting tiered services Reliability - Protection with Redundant Links & Resilient Rings - OAM Performance Monitoring & Fault Notification Secure Service Management • 802.3ah OAM IP-less Management & Provisioning • NIDs provide Securely Managed Demarcation Central Office Media Conversion NID Demarcation Multi-Customer NID Demarcation A/D Mux WDM Ring A/D Mux

19. Ethernet over PON

20. Ethernet Access over Passive Optical Networks (GPON) • Technology that offers: • Passive splitters used to share a single fiber among subscribers • Bandwidth per subscriber to 2.5Gb/s downstream / 1.25Gb/s upstream • No electronics in outside plant Optical Network Terminal (ONT) CPE 10/100/1000 Wavelength Splitter/Combiner 1310nm l Optical Line Terminal (OLT) 1490nm l Subscribers

21. Ethernet over HFC Cable

22. Carrier Ethernet Architecture for Cable Operators Headend Hub Business Services over Fiber (GigE) CE E-Line Internet Access UNI Home Run Fiber Analog TV Feeds E-LAN D2A Node EoCoax EoHFC A2D Video Server CE EQAM UNI Ad Insertion CMTS Switched Fiber Digital TV, VOD, Interactive TV, Gaming Optical Metro Ring Network Business Park Business Services EoDOCSIS (future) Managed Business Applications E-NNI UNI Hub EoSONET/SDH, EoPDH Another MSO or carrier Network Wireless Plant Extension E-Line E-LAN PON Leased T1/DS3 Voice/Video Telephony Voice gateway WDM CE EoT1/DS3 UNI CE UNI CE Greenfield Residential & Business Services

23. Carrier Ethernet over HFC Cable Plant Metro Ring PWE PWE PON FTTC FTTP 100 Mbps Up to 1Gbps WDM WDM 1-10 Gbps Coax Trunk Cable Amplifier Cable HFC Node 1-10 Gbps WDM 1 Gbps Switched Ethernet Over Coax WDM fiber coax

24. Ethernet over Wireless

25. Ethernet Access over Wireless Optical Mesh Lateral 250m Service Provider Requirements • Fast service activation • Profitable / high margin • Minimal capex • High bandwidth • Reliable service • Scalable bandwidth • No licensing or permits • No interference The Wireless Optical Mesh An Alternative to Lateral Fiber Expansion • Service provider can lower the cost of reaching the customer from 95% • Turn the network up indays vs. months • Achieve an ROI of just afew months Time to add six more fiber laterals : 2-3 months Fiber Time to install 7 optical mesh nodes: 2 days

26. Ethernet Access Applications

27. Ethernet Access Applications Ethernet Access Applications • Business Metro Ethernet extension • E-Line • E-LAN • Backhaul for cellularand remote video traffic • ETTN – Ethernet to the node enabling next generation residential broadband Backhaul Remote DSLAM Commercial Access EPL, EVPL E-LAN

28. Business Ethernet Access Project E Banking • Business Need • Multi-site bank needs to connect branch office locations and disparate networks, recent bank merger created disparate networks • Needed to allow inter-network connectivity • Needed to implement and support a new e-banking application • Network Solution • E-Access to VPN, EVPL • VLANs allowed separation • Customer Benefit • Migrate to single network without major disruption • Supported E-Banking to improve core business Branch A Metro Ethernet Network 100M Branch C Branch B Bank Headquarters and Data Center IP-VPN 100M Branch E Branch D Metro Ethernet Network 10M Branch F

29. Municipal Wireless Ethernet Access • Business Need • Internet access and mobility for businesses, homes and government • Network Solution • Metro-scale wireless Ethernet mesh access network • Customer Benefit • 100% Ethernet coverage, net access for enterprise and residence in city limit • Instantaneous data/voice support and 100% mobility in city for Gov’t, police, fireman, emergency personnel

30. Ethernet BackhaulIP DSLAM and 3G/3.5G Base-stations Backhaul Central Office Remote Office / Outdoor Cabinet Ethernet Backhaul Ethernet Switch Remote IP DSLAM Residential Customer Cellular Base Station Central Office Ethernet Backhaul Ethernet Switch Ethernet

31. Ethernet Access over Point-to-Point Microwave Links Point-to-Point microwave provides over 50% of connections to the Wireless Base Stations Worldwide. Wireless Carrier Class Ethernet • Very high bandwidth • Carrier class service over licensed bands. ( Interference free) • Dynamic bandwidth allocation with adaptive modulation standards (ETSI EN 302-217) Adaptive Modulation Backhaul Wireless Carrier Ethernet Transport 100 Mbps Ring 400 Mbps Ring

32. The Advantages of Ethernet Access for Metro Extension COPPER, FIBER, COAX and WIRELESS Carrier Ethernet Fiber, Copper Small/Medium Business Fiber Business Broadband E-Line and E-LAN service E-Line and E-LAN service Broadband Wireless Copper, Fiber, Coax Residential Triple-Play E-Line and E-LAN service FTTx, Cable Modem and DSLAM Backhaul Wireless data/video Mobile Computing

33. The Ethernet Advantage • Ethernet provides the bandwidth required to support next generation applications and services • Ethernet Access completes the connection • End to end Ethernet provides the most efficient, lowest cost access method for extending Ethernet Metro networks • Broad set of media and topologies supported by the standards while keeping consistent service attributes • ITU standards – Copper, Fiber • Hybrid Fiber Coax and Wireless • Adherence to standards ensure consistent delivery of Ethernet access services

34. MEF Certifications Program: Access Technologies • The MEF Certification Program will address access technologies to ensure conformance with Carrier Ethernet attributes • The initial phase will address the conformance to ITU standards in delivering Ethernet services via copper, fiber and EPON access • The initial phase also includes wireless Ethernet mesh access certification testing, based on forthcoming IEEE 802.11T, ensuring total coverage and mobility of Ethernet services • Liaison with Cable Labs looking towards aligning Ethernet over HFC work with MEF specifications

35. Certification Leads to Interoperability • Lets vendors cooperate to build complementary “end-to-end” solutions • Metro Core, Aggregation and Access Edge offerings • Providers have their own supplier ecosystem in place and aren’t looking for a whole new solution • Interoperability among vendors leads to more favorable market conditions • Interoperability provides a wealth of choices • Lowers the barrier of entry to new markets or applications by reducing the attraction of proprietary architectures

36. Accelerating Worldwide Adoption of Carrier Ethernet Networks and Services