OS1/2
OS1/2
OM4
OM4
OM3
OM3
Copper
Copper
Copper
0 10m 100m 1000m 10,000 100,000m
Application Length Limitation
40 Kilometres
300 metres
550 metres
100 metres
10G
10G
10G
10M/100M/1000M/10G
150 metres
100 metres
30 metres
40 Kilometres 40/100G
40/100G
40/100G
40G
1 metres
100G?
Traditional Ethernet design for a 500 user system
Racking Power
HVAC UPS (8) 24 port Workgroup switches per floor Home-run cabling to each user Enterprise Multi-service Router in Data Center
REQUIRES YES NO
OLS design for 500 user system
Power HVAC Racking UPS Workgroup switches *** (1) 144 port FDH and (6) 24 port FDTs per floor Home-run cabling *** Up to 75 foot fiber drops from the FDT to the desktop Enterprise Multi-service Router in Data Center
REQUIRES YES NO
OLT
TrueNet Fiber Panel (TFP) with PnP
Cassettes
Rapid Indoor Fiber Distribution Hub (iFDH)
1x32
Rapid Indoor Fiber Distribution Terminal (iFDT) O
NT Wall
Plate
Optical LAN Solution Signal Flow
MT
SC/APC
KEY:
VOICE
DATA
VIDEO 1-4 Ports
In the DC In the IDF
Zoned under the Casino floor At the Gaming Table
iFDH (indoor Fiber Distribution Hub) in the IDF
iFDH with 1" innerduct
Inside iFDH
iFDH Plug and Play
Rapid Reel Feeder Cable
Splitter • The compact plug and play splitter
is available in a variety of split ratios • Each fibre is labeled with serial
number, port number for easy identification
• Rugged strain relief boot protects fibers from bending damage and attenuation
Casino Floor Traditional with Multiple IDF’s
IDF ID
F
IDF
IDF
IDF
IDF
IDF
IDF
IDF
IDF
IDF
IDF
IDF
IDF IDF
IDF
IDF
IDF
IDF
IDF
OpEx - Power Savings Per Year
Optical LAN 1:16 Split Power Consumption (1 user per ONT) Number of Users 1 500 1000 2000 4000 Watts Required 56.0 28000.0 56000.0 112000.0 224000.0 kW Hours Day 0.4 224.0 448.0 896.0 1792.0
kW Hours Per Year 116.5 58240.0 116480.0 232960.0 465920.0 Cost Per Year $17.47 $8,736.00 $17,472.00 $34,944.00 $69,888.00
Savings vs. Traditional $5.30 $2,652.00 $5,304.00 $10,608.00 $21,216.00 Optical LAN 1:16 Split Power Consumption (2 user per ONT)
Number of Users 1 500 1000 2000 4000 Watts Required 28.0 14000.0 28000.0 56000.0 112000.0 kW Hours Day 0.2 112.0 224.0 448.0 896.0
kW Hours Per Year 58.2 29120.0 58240.0 116480.0 232960.0 Cost Per Year $8.74 $4,368.00 $8,736.00 $17,472.00 $34,944.00
Savings vs. Traditional $14.04 $7,020.00 $14,040.00 $28,080.00 $56,160.00 Optical LAN 1:16 Split Power Consumption (4 user per ONT)
Number of Users 1 500 1000 2000 4000 Watts Required 14.0 7000.0 14000.0 28000.0 56000.0 kW Hours Day 0.1 56.0 112.0 224.0 448.0
kW Hours Per Year 29.1 14560.0 29120.0 58240.0 116480.0 Cost Per Year $4.37 $2,184.00 $4,368.00 $8,736.00 $17,472.00
Savings vs. Traditional $18.41 $9,204.00 $18,408.00 $36,816.00 $73,632.00
Traditional Floor Distributor Power Consumption Number of Users 1 500 1000 2000 4000 Watts Required 73.0 36500.0 73000.0 146000.0 292000.0 kW Hours Day 0.6 292.0 584.0 1168.0 2336.0
kW Hours Per Year 151.8 75920.0 151840.0 303680.0 607360.0 Cost Per Year $22.78 $11,388.00 $22,776.00 $45,552.00 $91,104.00
Typical Floor distributors have a Switch, UPS and Cooling
GPON FD’s are Passive. Significant Power is then saved to reduce OpEx
The more users that are plugged into a single ONT the more power savings
20
ESU2-10G Quad GPON Panorama PON ESU30 ESU1-1G
Solution Components Optical Line Terminals (OLT)
Tellabs 1150E OLT Tellabs 1134 OLT
23” Chassis = 4-slots for Service Modules (1) Alarm Maintenance Unit (AMU) (2) Timing Distribution Unit (TDU) 176G backplane 16 PON ports = Up to 512 ONT’s
19” Chassis = 14-slots for Service Modules (1) Alarm Maintenance Unit (AMU) No TDU slots 616G backplane 56 PON ports = Up to 1,792 ONT’s
Optical Network Terminals (ONT) Enterprise Specific Models
21
Tellabs 705GR ONT (4) Gigabit Ethernet Ports (2) POTS (1) RF Video - Downstream
Tellabs 728GP MDU (24) Gigabit Ethernet Ports Power-over-Ethernet (PoE+) 120/240 AC Power Input
Tellabs 120W / 120C (2) Gigabit Ethernet Ports Power-over-Ethernet (PoE+) Remote or Local Powering
Tellabs 709GP ONT (4) Gigabit Ethernet Ports Power-over-Ethernet (PoE+) Battery Back-Up Option
Tellabs 120W / 120C Mini Optical Network Terminals
22
Models • Tellabs 120W – In-Wall mounting • Tellabs 120C – Cubicle mounting
Features • Two Gigabit Ethernet RJ-45 ports with PoE • Remote powering option • Local power option including battery back-up
Planned Expansion Modules • Additional two Gigabit Ethernet ports with PoE • Two Analog POTS ports (optional AS-SIP) • WiFi, RF CATV, ZigBee/Z-wave
Tellabs 120W Mini ONT
Tellabs 120C Mini ONT
Optical LAN – US DoD Adoption
• U.S. Army
• U.S. Department of Homeland Security
• U.S. Air Force
• U.S. Army Reserves
• U.S. Marine Corps (inc Okinawa Base in Japan)
• General Services Administration
• Intel Agency Early adopter and deployer of GPON
Optical LAN
25
26
Government Agencies DoD, DoE, Intel
Highly Secured Voice, Data and Video. Over 40,000 GigE ports. 14 deployments across 8 agencies of the US Federal Government. Currently being tested by other countries’ DoD Army bases; field deployments; navy ships; airports, etc. Government aligned savings: CaPex, OpEx, future upgrades. High Availability and redundancy. Largest US Government IT Contract awarded to Tellabs = $61m.
Research Sandia National Labs, New Mexico, USA
World’s largest Optical LAN deployment = 60k Ports 13,000 workstations across 265 buildings. $20m savings over 5 years expected. Reduce energy costs by 65%
1 million kw/h pa 14 OLT’s
98% Reduction in Rack Space 60% Savings on Initial Installation costs
Up to $2k per port
27
..\Tellabs\Tellabs Sandia Final_960x540.wmv
28
FTTC with PoE+ Data and VoIP services for 1,700 global end users. New Seven story building. High Speed services. Cloud Storage. Video on Demand. Dynamic BW Allocation. 2-person IT team
High Tech & Enterprise Deltek, Virginia, USA
Video 1: http://www.tellabs.com/resources/multimedia/index.cfm/id/0B55A96D-BE47-C173-2DBA3A9C9E4FC383.cfm Video 2: http://www.tellabs.com/resources/multimedia/index.cfm/id/0B5844AF-F162-3B48-3BC44C15B0301EDF.cfm
29
Tellabs Optical LAN Delivers: Voice, Video, Internet, Wireless Access Building Automation and
Security Services. Over 2000 IP/Ethernet Ports Day 1. 400 computer workstations, free Wi-Fi access
Largest LEED Silver Rated Building in California. 295,000 square foot building. Co-located Charter High School. (additional 76,000 square feet) Outdoor Plaza and Café. 350 Seat Auditorium. 3 Story Domed Reading Room. 400 Seat Multi-purpose Room. Teen Center. Technology Center and Art Museum.
Education San Diego Central Library
“Leadership in Energy and Environment Design."
Health Western State Hospital American College of Radiology (ACR)
High-Bandwidth to process Imaging Applications Productivity Increase & Less Investment Cost Less Noise & EMI. Power consumption Savings. Less Space. Easier Management. Reliable. Cost Savings.
30
Hospitality Buccament Bay Resort
High-bandwidth services to the guests in the resort. Resistant to corrosion. Fiber-to-the-Cabana (FTTC) system in the resort. Green Globe Company Standard. Leadership in Energy and Environmental Design (LEED) Green
Building Rating System(TM).
31
Law/Business Miles & Stockbridge P.C.
US Leading Law Firm. Complies government's most security-conscious organizations. Reliable Performance. Support for Wireless & Wired Applications. Meets IT Budgets today and ongoing. Scalable.
32
SARDANA: Designing the Future of OLAN
• SARDANA: Scalable Advanced Ring-based passive Dense Access Network Architecture • Objectives
– Increased Scalability – WDM, Remote Amplification, Hybrid Remote Nodes – Increased Bandwidth Delivery – 10G optics, 100km reach, symmetrical services – Increased Robustness – Dual ring protection, compensation, monitoring – Retain passive ODN, optical transparency
• Partners
TELLABS CONFIDENTIAL PROPRIETARY 33
Passive Infrastructure Comparison
• Traditional LAN Cat 6A Shielded – 600 ports – Materials $136,600 – Labor $90,900 – Total $227,500 – Total Per Port Installed $380
• Fiber Optical LAN – 600 ports – Materials $120,400 – Labor $60,200 – Total $180,600 – Total Per Port Installed $301
• 21% Savings in this example, Fiber LAN vs. Traditional LAN For Passive Infrastructure • Each Port installed is actually 2 ports available in each ONT • Significant savings will also be realised in pathways required. These savings have not been calculated into the passive equipment cost comparison All costs are rough estimates only
36
Active Infrastructure Comparison • Traditional LAN Active Hardware
– 600 ports – FD PoE Switch port cost $435 USD Based on reputable brand PoE Managed
Switch + software etc. – FD UPS per port $ 20 – FD Cooling per port $ 20 – Data Center Port per user $30 – Total $505 USD
• Fiber Optical LAN Active Hardware – 630 ports – OLT Per user $78 USD – ONT $250 USD – ONT per port $125 USD – Total Per connected ONT port – $203 AUD
• Each ONT services 2 devices with full PoE • 1:16 split ratio from OLT •The GPON delivery is 80Mbps per device •Up to a 60% savings can be realized on Active Hardware • PoE delivery dissipates over distance by 18% per 100m leaving an 82% efficiency •With the ONT power delivery is to 99% efficiency, with only patch cords used • There’s also no power consumed at the FD All costs are rough estimates only and vary by bandwidth and PoE delivery requirements
Split Ratio to Mbps to Cost per Port for OLT and ONT combined
32 Way Split 4 Ports Used 2 Ports Used 1 Port Used
20Mbps 40Mbps 80Mbps $107 $164 $328
16 Way Split 4 Ports Used 2 Ports Used 1 Port Used
40Mbps 80Mbps 160Mbps $126 $203 $406
8 Way Split 4 Ports Used 2 Ports Used 1 Port Used
80Mbps 160Mbps 320Mbps $165 $281 $562
4 Way Split 4 Ports Used 2 Ports Used 1 Port Used
160Mbps 320Mbps 640Mbps $243 $437 $874
2 Way Split 4 Ports Used 2 Ports Used 1 Port Used
320Mbps 640Mbps 1,000Mbps $399 $749 $1498
Point to Point 4 Ports Used 2 Ports Used 1 Port Used
640Mbps 1,000Mbps 1,000Mbps $711 $1373 $2746
The split ratio dictates the port speed available to each device plugged into the ONT Full PoE is delivered on a “2 Port Used” model for each ONT Full 30w PoE plus is delivered off of a “1 Port Used” model for each ONT A Maximum of 1,000Mbps can be delivered, as this is the top speed of the 10/100/1000 Ethernet ports on the ONT’s For the purpose of the model a 16 Way split with 2 ports used at 8Mbps was costed All costs are rough estimates only and vary by bandwidth and PoE delivery requirements
Today’s Active Infrastructure Comparison – 2.488Gig GPON
• Traditional LAN Active Hardware – 12,000 ports – FD PoE Switch port cost $435 USD Based on reputable brand PoE Managed
Switch + software etc. – FD UPS per port $ 20 – FD Cooling per port $ 20 – Data Center Port per user $30 USD – Total $505 AUD per User – Total Cost of Actives $6,060,000
• Fiber Optical LAN Active Hardware – 630 ports – OLT Per user $104 USD – ONT $2,400USD – ONT per port $100 USD – Total Per connected ONT port $204 AUD – Total Cost of Actives $2,448,000
• Each ONT has 24 ports and services 24 devices • 1:2 split ratio from OLT port • Total EMI immunity •The GPON delivery is 50Mbps per device • iFDH can be any distance from the Bed vs 90m on Cat 6A • Up to a 60% savings can be realised on Active Hardware • PoE delivery dissipates over distance by 18% per 100m leaving an 82% efficiency •With the ONT power delivery is to 99% efficiency, with only patch cords used • There’s also no power consumed at the FD All costs are rough estimates only and vary by bandwidth and PoE delivery requirements
Tomorrow’s Active Infrastructure Comparison – 10Gig GPON
• Traditional LAN Active Hardware – 12,000 ports – FD PoE Switch port cost $435 USD Based on reputable brand PoE Managed Switch +
software etc. – FD UPS per port $ 20 – FD Cooling per port $ 20 – Data Center Port per user $30 USD – Total $505 AUD per User – Total Cost of Actives $6,060,000
• Fiber Optical LAN Active Hardware – 630 ports – OLT Per user $TBD – ONT $TBD – ONT per port $TBD – Total Per connected ONT port TBD – Total Cost of Actives TBD
• Each ONT has 24 ports and services 24 devices • 1:2 split ratio from OLT port • Total EMI immunity • iFDH can be any distance from the Bed vs 90m on Cat 6A •The GPON delivery is 208Mbps per device • PoE delivery dissipates over distance by 18% per 100m leaving an 82% efficiency •With the ONT power delivery is to 99% efficiency, with only patch cords used • There’s also no power consumed at the FD All costs are rough estimates only and vary by bandwidth and PoE delivery requirements
Tomorrow’s Active Infrastructure Comparison – 10Gig GPON
• Traditional LAN Active Hardware – 12,000 ports – FD PoE Switch port cost $435 USD Based on reputable brand PoE Managed Switch +
software etc. – FD UPS per port $ 20 – FD Cooling per port $ 20 – Data Center Port per user $30 USD – Total $505 AUD per User – Total Cost of Actives $6,060,000
• Fiber Optical LAN Active Hardware – 630 ports – OLT Per user $TBD – ONT $TBD – ONT per port $TBD – Total Per connected ONT port TBD – Total Cost of Actives TBD
• Each ONT has 24 ports and services 24 devices • 1:8 split ratio from OLT port • Total EMI immunity •The GPON delivery is 52Mbps • Full 100Gig possible on point to point connection – Copper can’t do this • iFDH can be any distance from the Bed vs 90m on Cat 6A • PoE delivery dissipates over distance by 18% per 100m leaving an 82% efficiency •With the ONT power delivery is to 99% efficiency, with only patch cords used • There’s also no power consumed at the FD All costs are rough estimates only and vary by bandwidth and PoE delivery requirements
Summary of Benefits
• Up to 50% reduction in network power consumption
• Significantly reduced cabling construction costs*
• Significant floor space savings
• The Floor can be served from 2 IDF’s with full redundancy
• Plenum rated cable and reduced bulk allow for more flexible architectural design considerations
• Easily reconfigured to change with the floor requirement
• MIL Spec. Security and EMI/RFI immunity