Optical Access for Business Services

1. Optical Access for Business Services Choosing the Right Technology

2. Market Trends in Business Services Carriers have developed a “think fiber first” mindset Service quality/reliability Growth potential/scalability Investment is accelerating in fiber access Fiber penetration has more than doubled in last 5 years Solutions must be fiber-ready Business Fiber Trend % of Commercial Buildings with 20+ Employees Fiber penetration has doubled in last 5 years to U.S. Commercial Buildings with 20+ employees VSG 2010

3. Drivers for Optical Access • Smart Phones, Video, new apps are stressing backhaul infrastructure • Fiber access offers improved scalability and reliability • Fiber plant constraints addressed with WDM or PON • Pseudowire emerging as legitimate TDM transition option

4. Key Attributes for Optical Access Low Cost, Highly Scalable Bandwidth Ethernet, TDM Time to Market for Service Ubiquity Ethernet, TDM, Copper Service Convergence Path to all-packet architecture SLA Management CoS support e.g. Real-time vs. Best-Effort Resiliency 99.99+% service availability Hardened solutions for outside plant deployment Robust operating range, metallic interface protection All-IP

5. SONET / SDH Point-to-Point • Notes: • Dedicated bandwidth per service interface • Deterministic transport performance • ‘Single’ Class of Service - guaranteed • Very mature OA&M capabilities • Ideally suited for TDM transport • DS1/E1  VT1.5/ VC-2 • DS3/E3  STS-1/ VC-3/4 • Adaptedfor packet based transport • 10/100 Mbps  GFP  VT/VC • GE/ 10GE  GFP  STS/VT/VC • Modular, ‘carrier grade’ architecture Ring

6. Ethernet over Fiber Point-to-Point • Notes: • Possibility for shared bandwidth per service interface or trunk • Engineered transport performance • Multiple Classes of Service • Emerging OA&M capabilities • Ideally suited for packet based transport • Adapted for TDM based transport • DS1/E1  PWE3/CES • DS3/E3  PWE3/CES • Modular architecture • Emerging ‘carrier grade’ architecture Ring

7. GPON Point-to-Multipoint • Notes: • Shared bandwidth per service interface • Engineered transport performance • Multiple Classes of Service • Emerging OA&M capabilities • Ideally suited for low bandwidth, best effort packet based transport • Adapted for TDM based transport • DS1/E1  PWE3/ CES • DS3/E3  PWE3/ CES • Typically fixed access architecture • Emerging ‘carrier grade’ architecture

8. Technology Comparison * Pseudowire solutions available for DS1/E1 ** Ethernet OAM standards are maturing

9. Technology Tradeoffs for Today’s Solutions SONET/ SDH Higher Cost per bit Ethernet over Fiber GPON Lower Lower Higher Performance

10. OPTI 6100 Family of Systems LMX chassis • Network interfaces (OMM) • OC-3 • TM, UPSR, 1310 nm IR and LR, w, w/o XC, ADM, 1550 LR • OC-12 • TM, UPSR, 1310 nm IR and LR, w, w/o XC, ADM, 1550 LR • OC-48 • Linear, UPSR • SFP based • Low-speed (tributary) interfaces • DS1 (28 ports, M13, or VT1.5 mapped) • DS3 (3 port) • OC-3 (1 port, 2 fiber, SFP) • OC-12 (1 port, SFP) • Ethernet (10/100) (3 ports)(8 ports w, w/o tagging) • Transmux (1 port and 3 port) • GigE (copper, SM, MM, SFP) 24 Line Card Slots Rack mount 336 DS1, 48 DS3, OC-3, OC-12 Ethernet OC-48 MX chassis 12 Line Card Slots Wall or Rack mount 84 DS1, 12 DS3, Ethernet OC-3, OC-12, OC-48 SMX chassis 4Line Card Slots Wall or rack mount 28 DS1, 6 DS3, Ethernet OC-3, OC-12, OC-48 Tilt-down Wall Enclosures for MX and SMX application

11. Advanced Ethernet Modules vs. Customers VLAN1 Individual VLANs in shared VCAT Group Individual VCAT Groups Shared VCG VLAN1 OPTI-6100 Customers GigE or 10/100 HO/LO VCAT VLAN1 Router OPTI-6100 OPTI-6100 VLAN2 OC-12/48 SONET Ring VLAN trunk VLAN3 GigE • Applications • EVPL service with VLAN separation of customer traffic • ELAN service with VLAN separation of customer traffic

12. Ethernet over Fiber Components 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

13. Leverage Fiber Assets with CWDM 8 port EoFiber AM NetVanta 8044M 8 port PW Service Module NV8044M Modular NTE NV8044M Modular NTE 8xDS1 & Clock Sync 8xDS1 & Clock Sync 10/100/1000 10/100/1000 TA5000 MSAP DS1 2xGE or 2x10GE TA5000 MSAP Central Office/ Exchange Carrier Ethernet Network CWDM GigE Cell Site Cell Site

14. Total Access 5000 OLT GPON 2-Port Optical Line Terminal 21 OLTs/42 PONs per Total Access 5000 1,344 SUBs 2.488 Gbps downstream,1.244 Gbps upstream Completely GEM based Voice support via SIP GPON Optical Network Terminals SFU—Support for triple-play delivery 2 POTS, 1 Ethernet port 2 POTS, 2 Ethernet ports Voice, HS data, IPTV Total Access GPON Solution Total Access 5000 TA35X GPON OLT

15. Total Access 372 SBU Total Access 372 SBU ONT 8 POTS, 2 Ethernet, 4 DS1 Loop and Ground start 10/100/1000Bt Ethernet TLS Support MEF Compliant (future) DS1 PWE GR950 Compliant Enclosure GPON and Active Versions 372 - SC APC GPON 372E - SFP Active Ethernet

16. Conclusions • Fiber the preferred access media for business services • Choices available, each with its own set of strengths and weaknesses • SONET/ SDH • The most mature • Ideally suited to TDM services • Comparatively expensive • Ethernet over Fiber • Suitable for packet based services over a wide range of speeds • Moderate cost • Excellent scalability • GPON • Ideally suited to services up to 100Mbps • Can be engineered for business services • Lowest cost • Choice of technology is dependant upon service needs and cost objectives