2. Network Design Philosophy
Data center Design Philosophy
•Security,
•availability,
•scalability,
•manageability.
3. Security
•Network designed to
prevents unauthorised access
identify and isolate illegal actions.
•Usually neglected in the physical
layer.
•Critical to monitor both logical &
physical connectivity.
•Asset management
5. Availability
•Networks are designed to minimize the
occurrence of service problems
•Redundancy based design.
•Capacity to be higher than minimum to
cater for
increased traffic loads
bandwidth intensive applications
•SlowtimeTM
Network must not only be up but
throughput must be maximised.
•High performance / bandwidth solutions
6. Flexibility / Scalability
•Ability to grow with your business
•System must adapt to ever-
changing network requirements
•Scalable deployment of network
services
speed of deployment
optimise existing investment
7. Manageability
KISS
Managing a network should be easy
designed for dummies
real time information
Facilitate upgrades and maintenance
Flexible to meet any sudden
changes.
11. 10 Gigabit Ethernet
IEEE 802.3an
10 Gigabit Ethernet on twisted pair cabling
standard completed in July 2006
Objectives
•35m over Cat 6 UTP cabling
•100m over augmented Cat 6 cabling
current cabling may not support 10GBase-T.
•Existing Cat 6 cabling need to be qualified to TSR 155 / TR24750
•New cabling standard Cat 6A to be published under EIA/TIA 568b.2-10
13. Normal fiber operating windows
1.2
O E S C L U
0.9
Conventional
Fiber Loss
(dB /
km)
0.6
Loss
0.3
0
Wavelength (nm)
1250 1300 1350 1400 1450 1500 1550 1600
Why are there no applications @ 1400nm?
ANSWER: HIGH LOSS!!!
1350nm to 1450nm (E-band)
traditionally no operation due to high loss.
14. E-band
Standard Fiber Partially Blocked by Water
1310 nm band
Lanes
Closed 1400 nm band
1550 nm band
•1280 to 1625nm
•highest loss at 1383nm
•loss caused by hydroxl ions in the glass
•traditional manufacturing process unable to remove these ions.
•Commonly known as “Water Peak”
•Ordinary singlemode fiber (G.652 compliant fiber) suffers from
this problem.
15. Zero Water Peak Full Spectrum fiber
Singlemode Fiber
− 9um SINGLEMODE
− G.652.C compliant
− no water peak
− removes Hydroxl ions from fiber
− Increases capacity per Fiber
− Due to elimination of water peak causing high loss
− 60% more usable wavelengths
− Maximizes support for CWDM / DWDM
− Low Cost Future Proofing for Next Generation Equipment
16. Zero Water Peak fiber opens Possibilities
1.2
O E S C L U
0.9
Conventional
(dB / km)
Fiber Loss
“water peak”
0.6
Loss
0.3
Full Spectrum
fiber
0
1250 1300 1350 1400 1450 1500 1550 1600
Wavelength (nm)
Zero Water Peak Full Spectrum Fiber
Eliminates high loss & opens E-band channel capacity
availing full spectrum for any use
17. Which would you rather have?
Standard Fiber Partially Blocked by Water
1310 nm band
Lanes 240 optical
1400 nm band
Closed
channels
1550 nm band
Zero Water Peak Fiber Completely Open,
1310 nm band
1400 nm band 400 optical
channels
1550 nm band
Zero Water Peak Fiber gives additional optical channels for DWDM/CWDM
18. High availabilty requires
− high capacity medium to avoid network congestion
Scalabilty requires a medium that
− supports current network methodology
− supports current technology
− flexibility in exploiting new technologies
Design concept 1
Design shall provide 10Gigabit Ethernet &
support next generation technologies (DWDM)
21. Data center considerations
• Fast installation
•Installer spend less time in data center
•shorter cut-over
• High Performance
•minimise down-time
•Low loss allow for flexibility in design
• Minimise space used
•Data center high cost due to supporting facilities
• No chemicals
•confined areas - fumes difficult to disperse
•prevents accidental fires / damage
22. Connector Options
Connectors
• Modules support wide range of connectors
– SC, ST, LC
• Modules connect to trunk
– MTP connectors.
MTP
connector
SC, ST, LC, MTRJ connectors
23. Plug & Play
• Improve installation time
by as much as 70%
• Saves up to 60% rack and
floor space
• No site terminations, no
chemicals
• Factory terminated &
tested for high
performance
24. Scalabilty requires
− rapid deployment / expansion
− factory terminated performance
Manageability requires
− lower cable counts for easy handling
Design Concept 2
Datacenter cabling shall be preterminated
for fast deployment & expansion
26. Angled Patchpanel
Vertical Cable Manager
Angled Patchpanel
Allows cables to be routed
directly to vertical CM.
No need for horizontal cable
CISCO 6500 series managers
27. Angled Patchpanel
•Eliminates
Eliminates
horizontal cable
mgrs.
Double Your
Density !
•Saves floor
Saves
space & rental.
29. COMPARISION
Conventional Angled patchpanel.
patchpanels
No. of horizontal cable 21 0
managers
No. of patchpanels 21 42
No. of ports 504 1008
Density Doubled!!!
30. Manageability requires
− patchcords to be routed easily and neatly
− both equipment and patchpanel
− ease of search
− patchcords to maintain bend radius
Scalability requires
− space to be maximised for future expansion
Design concept 3
Patching solution must be based on angled
patch design.
31. Integrated Network Monitoring
Traditional Network Management System (NMS)
Monitors active equipment.
Gives info on logical level.
No info at the physical level.
ROUTER SWITCH PATCHPANEL DEVICES
Network Mgt solution
33. Integrated Network Monitoring
Intelligent cabling integrated with NMS
Monitors both active and passive devices.
Gives complete physical & logical information.
Complete real time information on network.
Aids troubleshooting & maintenance.
ROUTER SWITCH PATCHPANEL DEVICES
Network Mgt solution Intelligent cabling solution
34. Manageability requires
− always knowing how your cabling are patched
− integration of physical layer with network monitoring
Security requires
− any unauthorised changes to be tracked
Design Concept 4
Cabling system shall be supported by a intelligent
cabling system
35. Design concept - Summary
Design Concept 1
Cabling shall support 10G & next generation technologies
Design Concept 2
Datacenter cabling shall be preterminated for fast deployment &
expansion
Design Concept 3
Patching solution must be based on angled patch design.
Design Concept 4
Cabling system shall be supported by a intelligent cabling system
36. Design concept - Summary
Design Concept 1
Cabling shall support 10G & next generation technologies
>>>GIGASPEED X10D / Teraspeed / Lazrspeed
Design Concept 2
Datacenter cabling shall be preterminated for fast deployment &
expansion
>>>INSTAPATCH
Design Concept 3
Patching solution must be based on angled patch design.
>>>GIGASPEED X10D ANGLED PATCH
Design Concept 4
Cabling system shall be supported by a intelligent cabling system
>>>IPATCH