Joint ITU-T/IEEE Workshop on Next Generation Optical Access Systems Verizon FiOS FTTP Deployment and NG PON Perspectives Martin Carroll DMTS Network and Technology Verizon
FTTP: Future Proofing Upstream Downstream Web Surfing Video Conferencing, Premises Surveillance SDTV VOD, Telecommuting File Sharing, Home Video Sharing/Streaming Real Time SDTV, Network PVR Multi-Player Gaming, Interactive Distance Learning Premises Web Hosting Telemedicine Large File Sharing; P2P HDTV VOD Next Gen HDTV Next Gen 3DTV FTTP HFC VDSL2 ADSL2+ ADSL Dial-Up 100 25 20 15 10 5 0 5 10 15 20 25 100 1000
Why FTTP? FTTP is the only infrastructure that gives Verizon the necessary headroom for the future Bandwidth demand increasing Simultaneous usage Full multimedia experience Internet primary entertainment delivery Gaming and interactive applications on the rise User created content and sharing increase upstream demand Network of the future must be robust and flexible Future proof physical infrastructure
Choosing the Right Architecture Unparalleled customer experience Surpass the competition Fully standardized ITU-T GPON-based Multi-vendor interoperability Cost effective Manageable Scalable Application and services rich Home networking integration
FTTP BPON: First Step Video EDFA (Erbium Doped Fiber Amplifier) Voice Data VOD Central Office OLT (Optical Line Terminal) Upstream Optical Couplers (WDM) Services & Bandwidth FDH (Fiber Distribution Hub) Optical Splitter Downstream 1x32 Customer Premises (Optical Network Terminal) Voice and Data @ 155 Mbps Voice, Data & VOD @ 622 Mbps Broadcast Video 870 MHz 1310 nm 1490 nm 1550 nm Power & Battery
FTTP GPON: Seamless Transition Voice Data VOD Video Central Office OLT (Optical Line Terminal) EDFA (Erbium Doped Fiber Amplifier) Upstream Optical Couplers (WDM) Services & Bandwidth FDH (Fiber Distribution Hub) Optical Splitter Downstream GPON GPON Deployed Deployed in in New New COs COs GPON GPON Used Used for for Capacity Capacity Expansion Expansion in in BPON BPON COs COs Compatible Compatible with with ODN ODN 1x32 Customer Premises (Optical Network Terminal) Voice and Data @ 1.2 Gbps Voice, Data & VOD @ 2.5 Gbps Broadcast Video 870 MHz 1310 nm 1490 nm 1550 nm Power & Battery
RF Overlay Adds Value FiOS TV is hybrid RF & IP Broadcast video over RF IP-based Video on Demand (VoD) All digital in 2008 1550nm wavelength 860 MHz (~810 MHz useable) provides up to 135 QAMs One (6 MHz) QAM can carry ~38 Mbps, mpeg2 10 SD channels 2 HDTV channels Sized for 150 HD & 400 SD channels ( 125 QAMs) Video Serving Office FiOS RF Overlay
FiOS FTTP Coverage Status $21 billion committed to FiOS through 2010 Deployed in 17 states Passes 10.4M homes & businesses, 18M in 2010 Advancements MoCA (No new wires) Just inside (Integrated battery) Bend insensitive fiber (MDU Applications) Connectorization (Drops, terminals, splitters) FiOS Internet Launched June 2004 1.8M Customers (1Q08) FiOS Video/TV Launched Sept 2005 1.2M Customers (1Q08)
FTTP Deployment Residential Overbuild Office Parks Small Businesses Small Office/ Home Office One Fiber Per OLT Circuit Switch Optical Splitter Gateway Internet Video Head End Multi Dwelling Units Greenfield Developments
FiOS Internet SPEED (Mbps) 5/2 10/2 - Email, web surfing - Migration for dial-up user 15/2 20/5 - Multiple PCs and users - Avid online gamers - Work from home 20/20 - Multiple PCs and users - Avid online gamers - Work from home, Small business 30/15 50/20 -Receiving and sending very large files (e.g. animation and graphics, highresolution photos/videos) - Early adopters, Small-Med business
FiOS TV Great Value for the Consumer 100% Digital ~400 Channels, incl. music 25 HD Channels and growing 100% IP-based VOD Capable 10,000 VOD Titles, incl. HD Interactive IPTV 80 Hour DVR Simple, Compelling Packaging Genre-Based Channel Line-up Adding 4K new customers daily and it ll Keep Getting Better!
FTTP Enabled Home Networking Migrate to NG WiFi (802.11n) CPE-based FiOS Voice Fixed Mobile Convergence via BHR BHR & STB to DLNA/UPnP architecture for easier consumer electronic device integration Increase bandwidth in home to 200+ Mbps using NG technologies (UWB, MoCA 2.0, HPNA 3.0)
Beyond GPON: NG PON Smart migration path needed Leverage embedded base Maximize benefit at minimum cost Total end-to-end system solution FSAN requirements, ITU-T standards Increase bandwidth supporting new service opportunities targets Incremental ~ 10G down/1.2g up NGPON1 ~ 10G down/2.5g up NGPON2 ~ 40G down/10g up Symmetrical, wavelength per customer Customer Premises λ Per Customer OLT Optical Splitter
Migration Considerations Possible architectural models Co-existence with GPON Utilize existing wavelengths without GPON co-existence New equipment, utilize any wavelength Continue 1550nm RF Overlay OLT,, Splitter impacts Use of existing fiber and link budgets Service interruption to customers Truck role, customer placement
Equipment Targets Reduce equipment size, footprint Integrate equipment and functionality Simplify installation Battery Module Maximize power conservation Improve battery back-up duration
Thank You!