ATP Meeting - GPON What is GPON? How’s it work? Does it cost more? Does it cost less? Some pictures A panel 3/27/2015
Let’s Imagine… Promotes Cost 40% - inefficient use of Consumes 60% More bandwidth!! twice the power!! A Local Area Network that… This describes a Traditional LAN! 3/27/2015
An exciting new way… Passive Optical LAN The infrastructure of tomorrow available today “A Bandwidth Efficient LAN Architecture Providing Measurable CapEx & OpEx Savings” 3/27/2015
Thoughts… Henry Ford Wisdom… “If I’d asked customers what they wanted, they would have said “a faster horse.” 3/27/2015
Thoughts … 3/27/2015
Thoughts… “There aren’t many horse and buggies on the road and most of us don’t have typewriters sitting on our desks. So why are copper networks still so widely used although they have been rendered obsolete by next-generation technologies?” Scott Forbes, CEO Forbes Media 3/27/2015
What is Passive Optical LAN? Revolutionary Economical Efficient 3/27/2015
What is Passive Optical LAN? ITU G984.x Standards ANSI/TIA 568C based/recognized technology BICSI TDMM 13 Fiber Based Local Area Network Point to Multipoint Topology 3/27/2015
Why Passive Optical LAN? CapEx ~40-60% One Time Reduced Costs OpEx ~50-75% Every Year Cable Tray, Conduit, and Pathways Construction Sleeving, Coring, and Fire Stopping Singlemode Technically Unknown Bandwidth Capacity Future Proof Migration Only upgrade users that need it Easy MACs Can save 8-10 minutes per MAC Scale and Reach 20km/12.5mi No 300m / 90+10m limitations 3/27/2015
Why Passive Optical LAN? POL electronic components are designed and manufactured to have a service life greater than 25 Carrier Grade years as required by carriers, compared to 5-8 years Electronics with Enterprise grade equipment Five 9s = 5.26 min/yr Five 9s (99.999) with POL vs. Three 9s = 8.76 Three 9s (99.9) with switches hr /yr High Availability Nearly six 9s (99.9999) of availability with POL using FSAN-B Redundancy 3/27/2015
What should you know? Similar Different Standards Based Point to Multipoint Local Area Network Multiple Services Enterprise Management Guaranteed Bandwidth Ethernet Frame Transport Single Strand of SM Fiber 802.1x – 802.1Q – PoE No Access and Distribution 3/27/2015
Where did it come from? Single Dwelling MDU Copper Cabling Copper Cabling Data Voice Video • No TR/IDF • Copper Cabling Fiber Hubs and Terminals • No Power • No Riser Pathway • Minimal Pathway Required • No Cooling • No Horizontal Pathway • MMF No Power, Cooling or BBU • No BBU • No TR/IDFs Required • No Horizontal Pathway O N T ONTs Carrier FTTH Carrier FTTH 3/27/2015
What’s the difference between a… 30 Story Apartment Building 30 Story Office Building and a 3/27/2015
Target POL users Hospitals Campuses Universities Hotels and Casinos Government and Military High Occupancy Buildings (Call Centers) Multi-Tenant Units (Commercial and Residential) 3/27/2015
Basic OLS Schematic PASSIVE (No Power Required) 3/27/2015
Traditional LAN vs. OLS (GPON) Optical LAN Traditional LAN 3/27/2015
On a Campus Optical LAN 3/27/2015
Distance and Loss Minimum of ONT Range = OLT Output = 15.5dB +3dBm -12.5dBm to -26dBm loss required! OLT Cat6 ONT 1x32 Passive Equipment ( TE ) Up to 100m 12.5mi / 20km (Solid Conductor Cable) 3/27/2015
Passive Optical LAN: Total Cost of Ownership Savings Expense 250 Users 500 Users 1000 Users Campus Campus 5000 Users 10,000 Users TCO 32% 46% 57% 68% 68% CapEx 31% 41% 48% 55% 55% OpEx 40% 50% 65% 70% 70% • Power 48% 61% 68% 75% 75% • Cooling 48% 61% 68% 75% 75%
“Eco - Friendly” • Reduced Power Requirements • Savings between 40% to 60% • Reduced HVAC Requirement • A Fortune 500 company saved about $450K on the Power distribution network (HVAC, backup etc) for a building project with 2000 Ethernet ports • Reduction in Non-renewable materials • Reduction of up to 8000 pounds of plastic and copper versus a Cat 6 install for building of 4000 Ethernet ports Green Benefits • Floor Space Savings • Reduction in power consumption Traditional layer-2 solutions are bound by the 300ft Ethernet limitation Reduction in non-renewable materials • Fire Load Savings Floor space savings • Reduction in cabling costs Savings in Sprinkler Systems Ceiling space and fire load savings • Fire Load and ceiling space savings
Largest Enterprise PON Deployment 3/27/2015
Association For Passive Optical LAN Members Include: 3/27/2015
What Changes in GPON??? Floor WLAN Fir Fire S e Suppr uppres ession ion Long n PoE Cables Short HVAC HV Fiber PoE PON x 32 Cables Copper- AC AC GPON 32 based Short UP UPS Long CAT- Ethernet CAT- 5/6 5/6 LAN OLT Fiber Access 1 Heavy Du Duty Ca Cable Switches Light weight or no Ca Cable Trays Trays 28000 28000 Floor + Distribution 1 WLAN Fiber Multi-Mode Switch PON Fiber 8 Long Ethernet Short 1 PoE 8 PoE Single- Ports Cables 2-8 Port 4 Cables Mode Served ONTs Fiber 8 Fiber (20km Fire S Fir e Suppr uppres ession ion 8 1 reach) Core 8 Router HVAC HV Light weight or no Ca Cable Trays Access Heavy Du Duty Ca Cable Trays WAN AC AC Switches Short Long CAT- MDF CAT- UPS UP IDF Office Space 5/6 5/6 3/27/2015
Key Value Advantages of GPON Advantages Lower TCO ( T otal C ost of O wnership ) “Green” IT (Save Power) High Availability and Security Future-Proof Infrastructure 3/27/2015
Arena District Conference Room 3/27/2015
ONT Office Installation 3/27/2015
Under Cubicle Work Surface 3/27/2015
FDDH #2 3/27/2015
FDDH #3 3/27/2015
FDDH-Could Serve up to 3500 Users 3/27/2015
Easton Closet 3/27/2015
Easton Comm Plan 3/27/2015
Easton Comm Plan 3/27/2015
Easton ONT 3/27/2015
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