pdf transforming your infrastructure into a utility-grade network
TRANSCRIPT
Graybar helps customers power, network and secure their facilities with speed, intelligence and efficiency.
SPEAKERS
Dave Cunningham Director, Business Development
Tellabs
Ray Barnes Manager, LAN Market Development Corning
The Association for Passive Optical LAN is a non-profit organization composed of manufacturers, distributors, integrators, and consulting companies who are actively involved in the Passive Optical LAN marketplace.
ACCESS FOR TODAY. CONNECTED FOR TOMORROW.
Today’s LAN Challenges
© 2014 Tellabs Inc. All rights reserved. 5
ACCESS FOR TODAY. CONNECTED FOR TOMORROW.
A lot has changed on the Local Area Network
Then… - 80% of LAN traffic stayed local* - Served computer access to departmental servers - Server access was occasional and generally non-time-critical
© 2014 Tellabs Inc. All rights reserved. 6
And nobody seemed to notice…
*February 2011 – Gartner Research — Rethinking LAN Switching Architectures — ID Number: G00210808
Core Switch
ACCESS FOR TODAY. CONNECTED FOR TOMORROW.
A lot has changed on the Local Area Network
Then… - 80% of LAN traffic stayed local* - Served computer access to departmental servers - Server access was occasional and generally non-time-critical
Now… - 90% of LAN traffic flows directly thru core router to wide area network* - Today’s LAN serves
» Internet traffic, virtual desktop, hosted/managed and cloud-based applications, voice, video, building automation, lighting, security systems,
» Wireless (WiFi and Cellular) » Even employee personal traffic needs to be factored
- Security concerns exist from external and internal source - LAN access is pervasive and time-critical
© 2014 Tellabs Inc. All rights reserved. 7
And nobody seemed to notice…
*February 2011 – Gartner Research — Rethinking LAN Switching Architectures — ID Number: G00210808
Core Switch
ACCESS FOR TODAY. CONNECTED FOR TOMORROW.
The Local Area Network hasn’t changed
• Traditional Core/Distribution/Access-based designs are unnecessarily complex
- Throwing more bandwidth at problems is often the only option - Adding electronics in the “middle” of the LAN add costs, complexity, and reliability
risks - IDF’s are increasing in size, power/cooling requirements are exploding, and security
risks are real.
© 2014 Tellabs Inc. All rights reserved. 8
Compounding problems for IT
ACCESS FOR TODAY. CONNECTED FOR TOMORROW.
The Local Area Network hasn’t changed
• Traditional Core/Distribution/Access-based designs are unnecessarily complex
- Throwing more bandwidth at problems is often the only option - Adding electronics in the “middle” of the LAN add costs, complexity, and reliability
risks - IDF’s are increasing in size, power/cooling requirements are exploding, and security
risks are real.
• Network complexity contributes to downtime - Misconfiguration of a single switch can affect the entire network - The “Best Effort” nature of Ethernet makes troubleshooting difficult - Lack of true centralized control and management add to the frustrations
© 2014 Tellabs Inc. All rights reserved. 9
Compounding problems for IT
ACCESS FOR TODAY. CONNECTED FOR TOMORROW.
Problems are compounded by critical traffic
• The always-connected nature of today’s employees does not allow for unnoticed downtime
- Voice and Video calls require low-latency - Security devices require constant, reliable data paths - Internet access to Cloud-based services drives the traffic bottlenecks to the Wide Area Network
connection
© 2014 Tellabs Inc. All rights reserved. 10
Outages and slow-downs don’t go unnoticed
ACCESS FOR TODAY. CONNECTED FOR TOMORROW.
Problems are compounded by critical traffic
• The always-connected nature of today’s employees does not allow for unnoticed downtime
- Voice and Video calls require low-latency - Security devices require constant, reliable data paths - Internet access to Cloud-based services drives the traffic bottlenecks to the Wide Area Network
connection • NetworkWorld Magazine article: Our Bullet-proof LAN failed. Here is what we learned
- By Paul Whimpenny, Senior Officer for IT Architecture in the IT Division of the Food and Agriculture Organization of the United Nations
- Lessons Learned: - Risk 1: The greater the complexity of failover, the greater the risk of failure - Risk 2: The greater the reliability, the greater the risk of not having operational procedures in
place to respond to a crisis. - Risk 3: The greater the reliability, the greater the risk of not having people that can fix a problem
© 2014 Tellabs Inc. All rights reserved. 11
Outages and slow-downs don’t go unnoticed
ACCESS FOR TODAY. CONNECTED FOR TOMORROW.
Problems are compounded by critical traffic
• The always-connected nature of today’s employees does not allow for unnoticed downtime
- Voice and Video calls require low-latency - Security devices require constant, reliable data paths - Internet access to Cloud-based services drives the traffic bottlenecks to the Wide Area Network
connection • NetworkWorld Magazine article: Our Bullet-proof LAN failed. Here is what we learned
- By Paul Whimpenny, Senior Officer for IT Architecture in the IT Division of the Food and Agriculture Organization of the United Nations
- Lessons Learned: - Risk 1: The greater the complexity of failover, the greater the risk of failure - Risk 2: The greater the reliability, the greater the risk of not having operational procedures in
place to respond to a crisis. - Risk 3: The greater the reliability, the greater the risk of not having people that can fix a problem
© 2014 Tellabs Inc. All rights reserved. 12
Outages and slow-downs don’t go unnoticed
These are not just IT Problems. These are Business Problems.
ACCESS FOR TODAY. CONNECTED FOR TOMORROW.
Passive Optical LAN is the path forward for LANs
Passive Optical LANs better serve modern LAN traffic patterns - Direct traffic management capabilities allow you to allocate guaranteed bandwidth
» Single point of configuration and monitoring » Native encryption and optical network enhances security
- Fewer managed devices » Fewer moving parts mean less things to buy, rack, stack, power, A/C, ventilate, provision, manage
and fewer things to break » Fewer latency conerns
- Fewer electrical-to-electrical and optical-to-electrical conversions » To improve energy consumption the industry can reduce these conversions (3) » And, gain benefit of reduced latency (4)
- Passive-middle infrastructure eliminates or reduces IDF closet requirements
An infrastructure designed for modern LAN requirements
© 2014 Tellabs Inc. All rights reserved. Tellabs Internal and Confidential. 13
Core Switch
ACCESS FOR TODAY. CONNECTED FOR TOMORROW.
Passive Optical LAN is the path forward for LANs
Passive Optical LANs better serve modern LAN traffic patterns - Direct traffic management capabilities allow you to allocate guaranteed bandwidth
» Single point of configuration and monitoring » Native encryption and optical network enhances security
- Fewer managed devices » Fewer moving parts mean less things to buy, rack, stack, power, A/C, ventilate, provision, manage
and fewer things to break » Fewer latency conerns
- Fewer electrical-to-electrical and optical-to-electrical conversions » To improve energy consumption the industry can reduce these conversions (3) » And, gain benefit of reduced latency (4)
- Passive-middle infrastructure eliminates or reduces IDF closet requirements
An infrastructure designed for modern LAN requirements
© 2014 Tellabs Inc. All rights reserved. Tellabs Internal and Confidential. 14
GPON OLT
Core Switch
Core Switch
ACCESS FOR TODAY. CONNECTED FOR TOMORROW.
Tellabs Optical LAN is Industry-proven
• Deployed in the most secure DOD and Homeland Security Local Area Networks
• Leading Panorama Management Platform • Software options to customize the deployment to your specific needs
• Advanced Security • Advanced Operations • Advanced Availability
• Robust ONT options from 2 to 24 Ethernet ports with PoE • Dual-core redundancy option • Participation in the most influential industry organizations
© 2014 Tellabs Inc. All rights reserved. 15
The world leader in Passive Optical LAN
POL Preparing a Utility Grade Network for the Internet of Things Ray Barnes Manager, LAN Market Development Corning Cable Systems [email protected]
18 Corning Incorporated
Increased Mobile complexity
IT strategy overhaul
Infrastructure upgrades
Better asset utilization
Data Center
Enterprise & Campus
End users Mobility Collaboration
Cloud Services
Cloud Services
Workstations Peripherals
Mobile devices
Increased mobility
Extended collaboration
BYOD
Social networking
Cloud Services
Increasing complexity
Anytime, anywhere connectivity
Many sourcing models
Supplier integration
Virtualization
Processes Trends
People Applications support and performance
WLAN connections, security and interference
Lack of flexibility & scalability
Operations
Network
Challenges
Internet of Things impact on Enterprise Networks Increasing Demand on Cable and Connectivity
19 Corning Incorporated
Provides simplified infrastructure management capability to provide the operational insights and integration to meet the required availability, capacity planning, asset tracking, and increased productivity
Leverages converged infrastructure approaches to align the physical infrastructure with the logical infrastructure and improve operational efficiency – including building management, monitoring, access control, security, video, voice, and data systems
Designs using advanced optical solution to provide virtually unlimited bandwidth to support all network needs, capacity enhancements and backhaul of multiple networks to a centralized switching or MDF.
1
2
3
Simplified Management of Cabling Infrastructure for Moves, Adds, and Changes
Converged Cabling systems using a single infrastructure with connectivity for multiple services
Advanced Infrastructure to provide capacity for future network needs, expansion and sustainability
Infrastructure Connectivity to Require Advanced Capabilities Bandwidth Demands to Drive the Need for IT Overhaul
20 Corning Incorporated
Trends And Challenges Drive Quest for Infrastructure Solutions Converged Solutions Enable CapEx and Opex Savings
All Optical Backbone Delivers • Support for LAN, Wi-Fi, DAS, etc. • Support for Building Systems • Capacity to Upgrade • Reduced, Adaptable Footprint • Easy Install & Maintenance • Flexibility to Incorporate Future
Technologies
Ethernet
Wireless Infrastructure Cloud, Virtualization, DC
20-35% MAC cost savings and faster deployment time
Materials yield size, weight and significant savings
Pathway labor savings, no cable pull to add services
Average maintenance cost savings
30- 40% Up to 40% Up to 15%
21 Corning Incorporated
Why deploy a Passive Optical LAN? • Single-Mode “Utility Grade” Infrastructure
– Convergence Ready Backward and Forward Compatible Infrastructure – Virtually unlimited bandwidth to the EDGE – Direct Upgrade path with no infrastructure rip and replace – Just upgrade “fixtures” on the Ends not the “pipes”
• With Composite Cable Class 2 Power to the Edge – Eliminates a local AC plug at the ONT – Centralizes battery backup at the closet – ONT’s remote powered in TE’s, PoE to wide range of devices(WAP’s,
Security, Access Control, Telemetry, Etc.) – ONT’s at User Level can be locally powered for economy
22 Corning Incorporated
Why deploy a Passive Optical LAN? – Pathways & Spaces
• 60% Reduction in cable weight • J-Hooks instead of Cable Trays • Reduced or eliminated Telecommunications Closet footprint
– No Power infrastructure (Supply, Conditioning, UPS) required – No Cooling infrastructure required – Telecommunications Closet Space available for other uses
• Lower Operating costs – Lower overall power consumption – Reduced Cooling
*Based on the size and complexity of the network
23 Corning Incorporated
Vertical Deployed/Deploying Government US Army
US Air Force US Marine Corps US Navy US Coast Guard Intelligence Agencies Department of Homeland Security Department of Defense Department of Energy State/Local Government
Commercial Cannon LF USA Getty Images Shearman & Sterling Miles & Stockbridge PolarStar Consulting DFW International Airport TIA Headquarters
Healthcare Guthrie Hospital Moosejaw Hospital Western State Hospital Camp Pendleton Naval Hospital Pardubice Hospital ArchCare at Terence Cardinal Cooke Presbyterian Homes of Georgia
Who has deployed POL in the Enterprise Space? Widespread Deployment in Multiple Verticals
Vertical Deployed/Deploying Education Virginia Tech
Rutgers Cal State University of Mary Washington American College of Radiology Howard Community College BridgePoint Education Dalhousie University Amherst College Stony Brook University Chilliwak School System Orangeburg Public Schools Santa Fe Public Schools Texas A&M
Hospitality Marriott Mandarin Crowne Plaza Trump Towers, FL Kitittian Hill Resort, St. Kitts Buccament Bay Resort Ice Hotels
Financial Russell Investments Bank of New York
24 Corning Incorporated
Corning LANscape Leads POL and Convergence
• CCH Lanscape family has led LAN interconnects for 20 years • Scalable, Flexible, Easy • Familiar Lanscape Footprint • Panels, Splice Cassettes, Pre-Term Modules, Copper Panels(Molex), Power Distribution
Unit(PDU), EDGE Modules • 1U-4U, WCH and FZB in same Family
25 Corning Incorporated
LANscape CCH Splitter – POL Ready
• Splitter technology integrated with the LANscape product set – Leveraged the flexibility of the LANscape solution set – Supports Structured Cabling Approach – Field-terminated, Pigtailed and Pre-terminated options
• Available in the following configurations: - Versatile Split Ratios 1x8 up to 2x64 - Most Common 1x32, 2x32,1x16, 2x16
26 Corning Incorporated
Sample Design POL
Zone
Des
ign
Star
Des
ign
Telecommunications Room Single-mode Horizontal Cable
WAN
Single-mode Jumper
Optical Network Terminal
Optical Network Terminal
Single-mode Horizontal Cable Single-mode
Jumper
Single-mode Cable
LANscape Optical Splitter
FZB-04U
Single-mode Building
Backbone Cable
LANscape Optical Splitter
Single-mode Jumper
Rackmount CCH-04U
CCH-04U
Wallmount WCH-02P
Telecommunications Room
27 Corning Incorporated
POL and Convergence
Zone
Dis
tribu
tion
WAN
LCAPC Bulk, Pigtail or Pre-term Trunk
Rackmount CCH-04U
Equipment Room / Main Cross Connect
LCAPC Splice Cassette
• ONT’s • DAS Antennae
SPH’s
RIM / HEU / OLT
ICU
CCH Spiitter
Optical Network Terminal
Sigle-mode Horizontal Cable
Single-mode Jumper
• WAP’s • Securty • Access Control • Any IP device
Questions?
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