Internet Infrastucture

Table of Content

1.... Project General Specifications 3
· Projected Life. 3
· WAN Growth. 3
· LAN Growth. 3
· Workstations. 3
· Servers. 4
· Three Regional Hubs. 4
· Layer 2 Protocols-Frame Relay. 4
· Layer 3 Protocols- TCP/IP(V4) 4
· Current WAN Bandwidth. 4
· Anticipated WAN Bandwidth. 4
· Internet-Access-Servers. 4
· Horizontal Cabling. 5
· Vertical Cabling (Backbone) 5
· Classroom Cabling. 5
· Data services Distribution within the classroom.. 5
· Housing the classroom Data Switches and Cable Termination. 5
· Administrative Segment 5
· Student Segment 6
· Administrative Segment 6
· Student Segment 6
· Routing Protocol 6
· Servers and Network Interconnection Devices naming scheme. 6
· Administrative segments—IP addressing. 6
· Student Segments—IP Addressing. 6
2.... Physical Network Topology. 7
3. Specification of servers, workstations and protocols 8
· Server function-IP addressing, naming scheme and Server protocols. 8
· Router Switches and Naming Scheme. 10
· IP range for student Computers in R.E. Miller School 10
· IP range for staff computers R.E. Miller School 11
3.... Predicted Bandwidth to satisfy requirements 11
· WAN.. 11
· LAN.. 11
4.... Technical specification and pricing from vendors 11
· Servers. 11
· Routers. 15
· Layer 2 Switches. 16
5.... R.E. Miller School MDF and IDF network documentation 17
· Server Rack in MDF. 17
· LAN logical map diagram.. 17
· MDF CUT sheets. 18
6.... Reference: 25









































1. Project General Specifications

1.1. Project Scope
This is a case study regarding to the assignment project 3664B- Produce a Network Architecture Design. One focus of network design here are three district hubs, which are established at District Office/Data Centre, Service Centre and Shaw Butte Elementary School; the other focus is the detailed network plan of the R.E. Miller School.

1.2. Scalability Requirements

· Projected Life
The projected life of this case study will be 7 to 10 years; therefore the design will have to take into consideration the demand growth within this period. Moreover, the hardware chosen should be stable, durable enough to serve the clients with consistent quality during this time. Manufacturer warranty and after-sale services are also important factors based on this project life.

· WAN Growth
The current WAN usage is not specified. The main traffic in the WAN will include accessing the mail server and FTP server and accessing internet though a proxy server. It is assumed that each teacher has their own email and the email activities are average level. Students only have access to filtered websites so no large amount of download is allowed. It is assumed that the bandwidth at the moment is 4 mbps. Since the estimated WAN growth is 100%, 8 mbps will be our projected bandwidth requirement.

· LAN Growth
LAN growth will mainly be the growth of users and a small amount of network activity increase. According to the scalability requirements, there will be 200% LAN growth. Therefore, there will be 250*3=750 computers in each school for curriculum usage by students; meanwhile, there will be 75*2=150 computers in each school for administration usage.

1.3. Throughput

· Workstations
The throughput of workstations is 1Mbps at the moment. It is estimated that it will increase to 3 Mbps according to the 200% projected LAN growth.

· Servers
The throughput of servers is 100Mbps currently. In the future, it will increase to 200Mbps according to the 100% projected WAN growth.

1.4. Wide Area Network
· Three Regional Hubs
Three Regional Hubs are established at District Office/Data Centre, Service Centre and Shaw Butte Elementary School. They will be high-end powerful routers.

· Layer 2 Protocols-Frame Relay
In the regional hub WAN transport, Layer 2 Protocol—Frame Relay Protocol is used. This enables cost-efficient data transmission for intermittent traffic between LANs and between end-points in a WAN. Because the virtual circuits used in Frame relay consume bandwidth only when they transport data, many virtual circuits can exist simultaneously across a given transmission line. In addition, each device can use more of the bandwidth as necessary, and thus operate at higher speeds. Also the Frame Relay protocol will discard erroneous frames and thus eliminate time-consuming error-handling processing.

· Layer 3 Protocols- TCP/IP(V4)
The layer 3 Protocol used here is TCP/IP (version 4). It manages the connectionless transfer of data one hop at a time, from end system to ingress router, router to router, and from egress router to destination end system. It detects and discards error packets. IP can also fragment large packets so that the medium can accept it.

· Current WAN Bandwidth
As we mentioned above, the current WAN bandwidth is not specified. 4Mbps will be a reasonable assumption considering the network traffic is controlled average level.

· Anticipated WAN Bandwidth
With 100% growth in WAN, the anticipated WAN bandwidth will be 8 Mbps.

· Internet-Access-Servers
The Internet Access Server housing proxy server, web server and firewall will locate in the District Office/Data Centre Server room. It is connected to the gateway and then a XDSL link to the ISP.

1.5. Local Area Network and Wiring Scheme
a) Australian Cabling Standards in use
The Australian Cabling Standards in use is AS 3080(EIA/TIA 568B).These Commercial Building Telecommunications Cabling Standards cover the specifications for categories 3, 4, and 5 Unshielded Twisted-Pair (UTP) cables and connecting hardware. New specifications for 62.5/125m optical fiber and single-mode optical fiber cables, connectors and cabling practices have also been included.

· Horizontal Cabling
Horizontal cabling is Category Unshielded Twisted Pair (CAT 5e UTP) and will have the capacity to accommodate 100 Mbps.
· Vertical Cabling (Backbone)
Vertical Cabling will be 62.5 micron fiber optic multi-mode cable. Multi-mode fiber comes in two standard widths, 62.5 micron and 50 micron. 62.5 micron multi-mode fiber can support Gigabit Ethernet over distances as long as 275 meters; 50 micron multi-mode fiber can increase that range to 550 meters. In our case, the distance reflected in the diagram between MDF and IDF is less than 275 meters; therefore, 62.5 micron will be sufficient.
· Classroom Cabling
Category Unshielded Twisted Pair (CAT 5e UTP) will be used and there will be 5 runs cablings. There will be three runs of cabling for students, one for teachers and the other run as a spare run.

· Data services Distribution within the classroom
Data services will be distributed within the room from wall outlet via decorative wire moulding to patch panel.
· Housing the classroom Data Switches and Cable Termination
The MDF room will house the classroom data switches and cable termination. It will also be the point of presence for the WAN network connection.

1.6. District Office/Data Centre
· Administrative Segment
In this segment, there will be 5 enterprise servers: DNS server, Mail server, WEB server, FTP server and library. There will be 3workgroup servers:
· The administration server to house the student tracking, attendance, grading and other administration functions;
· The application server for users to retrieve applications such as Word processing, Excel, PowerPoint;
· The library server to automated library information for curricular research purposes.

Currently, there are 75 teacher PCs and with estimated growth of 200%, there will be 225 teacher PCs in the future.
· Student Segment
In the student segment, currently there are 250 student PCs and in the future, this number will grow to 750.

1.7. R.E. Miller School
· Administrative Segment
In R.E. Miller School, there will be 2 Enterprise servers: DNS server and mail server.
Similar to the District Office, in this school, there are 3 workgroup servers: the administration server, the application server and the library server.

Currently, there are 75 teacher PCs and with estimated growth of 200%, there will be 225 teacher PCs in the future.

· Student Segment
In the student segment, currently there are 250 student PCs and in the future, this number will grow to 750.

1.8. Addressing , Networking Management and Routing Protocols
· Routing Protocol

TCP/IP and Frame Relay are the protocol used here.
· Servers and Network Interconnection Devices naming scheme
Servers and network interconnection devices will follow this naming scheme: Location + function +No.
· Administrative segments—IP addressing
The administrative segments will follow static addressing for security and stability.
· Student Segments—IP Addressing
The student segments will use dynamic addressing for efficiency and flexibility.

2. Physical Network Topology

3. Specification of servers, workstations and protocols
· Server function-IP addressing, naming scheme and Server protocols
In our plan, in each school, there will be about 250 people in one subnet. In total, there will be 23 subnets, 16 of them have to accommodate 250 users. 6 of them will accommodate 2 hosts and 1 of them needs to support 6 hosts.
All the servers will use static addressing. The detail is as follows:

DMZ

Server Function
Server Type
Sever Name
Server IP
Protocols
FIREWALL

DMZ_FIREWALL01
172.0.144.1

Web Server
Enterprise server
DMZ_WEB01
172.0.144.2
HTTP/HTTPS
FTP Server
Enterprise server
DMZ_FTP01
172.0.144.3
FTP

DISTRICT OFFICE/DATA CENTRE
Server Function
Server Type
Sever Name
Server IP
Protocols
Web Server
Enterprise server
DO_WEB01
172.0.128.1
HTTP
FTP Server
Enterprise server
DO_FTP01
172.0.128.2
FTP

DNS Server
Enterprise server
DO_DNS01
172.0.128.3
TCP/UDP

Mail server
Enterprise server
DO_Mail01
172.0.128.4
SMTP/IMAP


Library Server
Enterprise server
DO_Library01
172.0.128.5
TCP/IP

DHCP Server
Workgroup server
DO_DHCP01

172.0.128.6
TCP/IP

Administration Server
Workgroup server
DO_Admin01
172.0.128.7
TCP/IP

Application Server
Workgroup server
DO_App01
172.0.128.8
UDP


SERVICE CENTRE
Server Function
Server Type
Sever Name
Server IP
Protocols
DNS Server
Enterprise server
SC_DNS01
172.0.132.1
UDP/TCP

Mail server
Enterprise server
SC_MAIL01
172.0.132.2
SMTP/IMAP
DHCP Server
Workgroup server
SC_DHCP01
172.0.132.3
UDP
Administration Server
Workgroup server
SC_AD01
172.0.132.4
TCP/IP
Application Server
Workgroup server
SC_APP01
172.0.132.5
TCP/IP

SHAW BUTTE ELEMENTARY SCHOOL
Server Function
Server Type
Sever Name
Server IP
Protocols

DNS Server
Enterprise server
SB_DNS01
172.0.136.1
UDP/TCP
Mail server
Enterprise server
SB_Mail01
172.0.136.2
SMTP/IMAP
DHCP Server
Workgroup server
SB_DHCP01
172.0.136.3
UDP
Administration Server
Workgroup server
SB_Admin01
172.0.136.4
TCP/IP
Application Server
Workgroup server
SB_App01
172.0.136.5
TCP/IP


R.E.MILLER SCHOOL
Server Function
Server Type
Sever Name
Server IP
Protocols

DNS Server
Enterprise server
RE_DNS01
172.0.140.1
UDP/TCP
Mail server
Enterprise server
RE_Mail01
172.0.140.2
SMTP/IMAP
DHCP Server
Workgroup server
RE_DHCP01
172.0.140.3
UDP
Administration Server
Workgroup server
RE_Admin01
172.0.140.4
TCP/IP
Application Server
Workgroup server
RE_App01
172.0.140.5
TCP/IP

· Router Switches and Naming Scheme

Location
Router Name
Switch Name
Function
Gateway
GA-R1

connect the network to the ISP
District Office/Data Centre
DO-R2




DO-SRV-S1
teacher/ server

DO-STU-S2
student subnet1

DO-STU-S3
student subnet2

DO-STU-S4
student subnet3
SERVICE CENTRE
SC-R3




SC-SRV-S1
teacher/ server

SC-STU-S1
student subnet1

SC-STU-S2
student subnet2

SC-STU-S3
student subnet3
SHAW BUTTE ELEMENTARY SCHOOL
SB-R4




SB-SRV-S1
teacher/ server

SB-STU-S1
student subnet1

SB-STU-S2
student subnet2

SB-STU-S3
student subnet3
R.E.MILLER SCHOOL
RE-R5




RE-SRV-S1
teacher/ server

RE-STU-S1
student subnet1

RE-STU-S2
student subnet2

RE-STU-S3
student subnet3


· IP range for student Computers in R.E. Miller School
The IP range for student Computers in R.E. Miller School is: 172.0.141.1 to 172.0.143.254.

· IP range for staff computers R.E. Miller School
The IP range for staff computers R.E. Miller School is 172.0.140.6 to 172.0.140.254.

3. Predicted Bandwidth to satisfy requirements
· WAN
In the WAN, the predicted demand of bandwidth will be 2Mbs, double amount of the current bandwidth.
· LAN
In the LAN, the predicted demand of bandwidth will be 30Mbs, triple the amount of the current capacity.
4. Technical specification and pricing from vendors
· Servers
Server
Choice
Specification
Pricing
Web Server
HP ProLiant DL360 G5 2.00GHz Rack Server

Processor
Quad-Core Intel® Xeon® E5405 (2.00GHz, 1333MHz FSB, 80W) Processor
Memory
HP 1GB Fully Buffered DIMM PC2-5300 2X512 Memory
Storage controller
Smart Array E200i SAS RAID Controller with 64MB cache
Network card
2 Embedded NC373i Multifunction Gigabit Network Adapters
Power supply
HP 1u Server 700w Hot Plug Power Supply
Redundant fan options
HP Redundant Fans
Server management
Integrated Lights Out 2 (iLO 2) Standard Management
Warranty
HP Standard Limited Warranty - 3 Years Parts and on-site Labor, Next Business Day


$1929.00
FTP Server
HP ProLiant DL360 G5 2.00GHz Rack Server

Processor
Quad-Core Intel® Xeon® E5405 (2.00GHz, 1333MHz FSB, 80W) Processor
Memory
HP 1GB Fully Buffered DIMM PC2-5300 2X512 Memory
Storage controller
Smart Array E200i SAS RAID Controller with 64MB cache
Network card
2 Embedded NC373i Multifunction Gigabit Network Adapters
Power supply
HP 1u Server 700w Hot Plug Power Supply
Redundant fan options
HP Redundant Fans
Server management
Integrated Lights Out 2 (iLO 2) Standard Management
Warranty
HP Standard Limited Warranty - 3 Years Parts and on-site Labor, Next Business Day


$1929.00
DNS Server
HP ProLiant DL380 G5 2.00GHz Server
Processor
Quad-Core Intel® Xeon® E5405 (2.00GHz, 1333MHz FSB, 80W) Processor
Memory
HP 1GB Fully Buffered DIMM PC2-5300 2X512 Memory
Storage controller
Smart Array E200i SAS RAID Controller with 64MB cache
Network card
Embedded NC373i Multifunction Gigabit Network Adapter
Power supply
HP 1000-W Hot-Plug Power Supply
Redundant fan options
HP Redundant Hot-Plug Fans
Server management
Integrated Lights Out 2 (iLO 2) Standard Management
Warranty
HP Standard Limited Warranty - 3 Years Parts and on-site Labor, Next Business Day


$2109.00
Mail server
HP ProLiant DL385 G5
Processor
Quad-Core AMD Opteron™ Processor Model 2352 (2.1GHz, 75W ACP)
Memory
HP 2GB REG PC2-5300 2x1GB 1Rank Memory
Storage controller
HP Smart Array P400/256 Controller
Network card
Dual embedded NC373i Multifunction Gigabit Network Adapters
Power supply
HP 1000-W Hot-Plug Power Supply
Redundant fan options
HP Redundant Hot-Plug Fans
Server management
Integrated Lights Out 2 (iLO 2) Standard Management
Warranty
HP Standard Limited Warranty - 3 Years Parts and on-site Labor, Next Business Day

$2129.00
Library Server
HP ProLiant DL320 G5p Server


Processor
Quad-Core Intel® Xeon® Processor X3210 (2.13GHz/8M)

Memory
HP 2GB Unbuffered Advanced ECC PC2-6400 DDR 2x1GB Memory
Storage controller
Integrated Intel® 82801GR Serial ATA Host Controller
Network card
Embedded NC326i Dual Port Gigabit Server Adapter
Server management
Integrated Lights Out 2 (iLO 2) Standard Management
Warranty
HP Standard Limited Warranty - 3 Years Parts and on-site Labor, Next Business Day


$1369.00
DHCP Server
HP ProLiant DL320 G5p Server


Processor
Quad-Core Intel® Xeon® Processor X3210 (2.13GHz/8M)
Memory
HP 2GB Unbuffered Advanced ECC PC2-6400 DDR 2x1GB Memory
Storage controller
Integrated Intel® 82801GR Serial ATA Host Controller
Network card
Embedded NC326i Dual Port Gigabit Server Adapter
Server management
Integrated Lights Out 2 (iLO 2) Standard Management
Warranty
HP Standard Limited Warranty - 3 Years Parts and on-site Labor, Next Business Day


$1369.00
Administration Server
HP ProLiant DL320 G5p Server


Processor
Quad-Core Intel® Xeon® Processor X3210 (2.13GHz/8M)
Memory
HP 2GB Unbuffered Advanced ECC PC2-6400 DDR 2x1GB Memory
Storage controller
Integrated Intel® 82801GR Serial ATA Host Controller
Network card
Embedded NC326i Dual Port Gigabit Server Adapter
Server management
Integrated Lights Out 2 (iLO 2) Standard Management
Warranty
HP Standard Limited Warranty - 3 Years Parts and on-site Labor, Next Business Day


$1369.00
Application Server
HP ProLiant DL320 G5p Server


Processor
Quad-Core Intel® Xeon® Processor X3210 (2.13GHz/8M)
Memory
HP 2GB Unbuffered Advanced ECC PC2-6400 DDR 2x1GB Memory
Storage controller
Integrated Intel® 82801GR Serial ATA Host Controller
Network card
Embedded NC326i Dual Port Gigabit Server Adapter
Server management
Integrated Lights Out 2 (iLO 2) Standard Management

Warranty
HP Standard Limited Warranty - 3 Years Parts and on-site Labor, Next Business Day


$1369.00


· Routers

5 routers will be used in our network architecture; the main requirements are the number and type of LAN Ethernet ports to support our network. In our case, to support the fibre optic cable used in the backbone and 4 subnets is the key consideration. I have chosen Cisco ASR 1002 Router for our network.

Cisco ASR 1002
Physical specifications
Size : 2 rack units
Height: 3.5 in. (88.9 mm)
Width: 17.2 in. (437.4 mm)
Depth: 22 in. (558.8 mm)
Weight:
• 33.65 lb (15.23 kg) (with dual AC power supply and SPA blank covers)
• 36.85 lb (16.75 kg) (with dual AC power supply, blank covers and ASR1000-ESP5)
• No SPAs included
Note: The Cisco ASR 1002 has the route processor and SIP integrated.
Shared port adapters
3 SPA slots
Cisco ASR 1000 Series ESP
1 ESP slot
Route processor
Integrated in chassis
Number of SIPs supported
Integrated in chassis
Redundancy
Software: Yes
Built-in Gigabit Ethernet ports
Yes: 4 Gigabit Ethernet Small Form-Factor Pluggable (SFP) ports
Airflow
Front-to-back
Price
$12571.25

· Layer 2 Switches
The switch chosen here is Cisco Catalyst 4506-E and the main reason is that it meets the port number requirement to support all the users in one subnet. In total we need 4*4=16 switches.

Specification of the switch is as follows:

Switched 10/100 Fast Ethernet (RJ-45)
240
Switched 100 LX-10 (MT-RJ) or 100 BX-D (LC) Fast Ethernet
240
Switched 1000 Gigabit Ethernet (fiber)
244
Switched 10/100/1000BASE-T Gigabit Ethernet
240
Switched 10,000 (10 Gigabit Ethernet)
32
Dimensions(H x W x D)
17.38 x 17.31 x 12.50 in. (44.13 x 43.97 x 31.70 cm)
Rack Units (RU)
10 RU
Chassis Weight (with fan tray)
40.50 lb (18.37 kg)
Mounting
19 and 23 in. rack compatible (19 in. rack and cable guide hardware included)
Price
$3,535.99



5. R.E. Miller School MDF and IDF network documentation
· Server Rack in MDF
The server Room in MDF will house 1 router(2RU), 1 main switch(10RU), 1 fibre optic patch panel(1RU), 1 teacher patch panel(1RU), 1 student patch panel(1RU) an d 5 servers(5RU).
All these will take up 20 Rack Units. Considering redundancy and potential growth, a 24u rack will be a reasonable choice for our plan.

· LAN logical map diagram


MDF Location
Room AD13
IDF1 Location Media Centre
Room MC8
IDF2 Location South
Building Room SB9
IDF3 Location North Building
Room NB3
10 strand fiber optic cables
5 used (5 spare)
Link Speed=10Mb
Service area
Room MC1
Room MC3
Room MC4
Room MC6



Service area




Room SB10
Room SB18
Room SB11
Room SB19
Room SB12
Room SB20
Room SB13
Room SB21
Room SB14
Room SB22
Room SB15
Room SB23
Room SB16
Room SB24

Room SB25
Room P1
Room P2
Room P3
Room P4
Room P5
Room P6


















Room SB19
Room SB20
Room SB21
Room SB22
Room SB23
Room SB24
Room SB25


Service area

Room NB12
Room NB18

Room NB13
Room NB19

Room NB14
Room NB20

Room NB15
Room NB22

Room NB16
Room NB23

Room NB17
Room NB26


Room NB27



Room P7
Room P8
Room P9
Room P10
Room P11


Legend:
MDF= Main Distribution Facility
IDF=Intermediate Distribution Facility


· MDF CUT sheets

Cut Sheet 1. MDF - Location
Room AD13

Connection
Cable ID
Cross Connection Paired # Port#
Patch panel
Cable Type
Status
MDF to IDF1 Media Centre
IDF 1-1
VCC1 /Port 1
FPP
Multi-Mode Fibre
Used
MDF to IDF1 Media Centre
IDF 1-2
VCC1/ Port 2
FPP
Multi-Mode Fibre
Not Used
MDF to IDF 2 South Building
IDF 2-1
VCC2/ Port 3
FPP
Multi-Mode Fibre
Used
MDF to IDF 2 South Building
IDF 2-2
VCC2/ Port 4
FPP
Multi-Mode Fibre
Used
MDF to IDF 2 South Building
IDF 2-3
VCC2/ Port 5
FPP
Multi-Mode Fibre
Not Used
MDF to IDF 2 South Building
IDF 2-4
VCC2/ Port 6
FPP
Multi-Mode Fibre
Not Used
MDF to IDF 3 North Building
IDF 3-1
VCC3/ Port 7
FPP
Multi-Mode Fibre
Used
MDF to IDF 3 North Building
IDF 3-2
VCC3/ Port 8
FPP
Multi-Mode Fibre
Used
MDF to IDF 3 North Building
IDF 3-3
VCC3/ Port 9
FPP
Multi-Mode Fibre
Not Used
MDF to IDF 3 North Building
IDF 3-4
VCC3/ Port 10
FPP
Multi-Mode Fibre
Not Used
MDF to Room AD9
AD9-1
MCC1/ Port 1
SPP
Cat 5 UTP
Used
MDF to Room AD9
AD9-2
MCC1/ Port2
SPP
Cat 5 UTP
Not Used
MDF to Room AD9
AD9-3
MCC1/ Port3
SPP
Cat 5 UTP
Not Used
MDF to Room AD9
AD9-4
MCC1/ Port1
TPP
Cat 5 UTP
Used
MDF to Room AD14
AD14-1
MCC2/ Port 4
SPP
Cat 5 UTP
Used
MDF to Room AD14
AD14-2
MCC2/ Port5
SPP
Cat 5 UTP
Not Used
MDF to Room AD14
AD14-3
MCC2/ Port6
SPP
Cat 5 UTP
Not Used
MDF to Room AD14
AD14-4
MCC2/ Port2
TPP
Cat 5 UTP
Used




· CUT sheets
1) North Building IDF
Cut Sheet 4. IDF3 North Building) – Location
Room NB3

Connection
Cable ID
Cross Connection Paired # Port#
Patch Panel
Cable Type
Status
IDF3 North Building to MDF
IDF3-1
VCC1/ Port 1
FPP
Multi-Mode Fibre
Used
IDF3 North Building to MDF
IDF3-2
VCC1/ Port 2
FPP
Multi-Mode Fibre
Not Used
IDF3 North Building to MDF
IDF3-3
VCC2/ Port 3
FPP
Multi-Mode Fibre
Used
IDF3 North Building to MDF
IDF3-4
VCC2/ Port 4
FPP
Multi-Mode Fibre
Not Used
IDF3 to Room P7
P7-1
HCC1/ Port1
SPP1
Cat 5e UTP
Used
IDF3 to Room P7
P7-2
HCC1/ Port2
SPP1
Cat 5e UTP
Not Used
IDF3 to Room P7
P7-3
HCC1/ Port3
SPP1
Cat 5e UTP
Not Used
IDF3 to Room P7
P7-4
HCC1/ Port1
TPP2
Cat 5e UTP
Used
IDF3 to Room P8
P8-1
HCC2/ Port4
SPP1
Cat 5e UTP
Used
IDF3 to Room P8
P8-2
HCC2/ Port5
SPP1
Cat 5e UTP
Not Used
IDF3 to Room P8
P8-3
HCC2/ Port6
SPP1
Cat 5e UTP
Not Used
IDF3 to Room P8
P8-4
HCC2/ Port2
TPP2
Cat 5e UTP
Used
IDF3 to Room P9
P9-1
HCC3/ Port7
SPP1
Cat 5e UTP
Used
IDF3 to Room P9
P9-2
HCC3/ Port8
SPP1
Cat 5e UTP
Not Used
IDF3 to Room P9
P9-3
HCC3/ Port9
SPP1
Cat 5e UTP
Not Used
IDF3 to Room P9
P9-4
HCC3/ Port3
TPP2
Cat 5e UTP
Used
IDF3 to Room P10
P10-1
HCC4/ Port10
SPP1
Cat 5e UTP
Used
IDF3 to Room P10
P10-2
HCC4/ Port11
SPP1
Cat 5e UTP
Not Used
IDF3 to Room P10
P10-3
HCC4/ Port12
SPP1
Cat 5e UTP
Not Used
IDF3 to Room P10
P10-4
HCC4/ Port4
TPP2
Cat 5e UTP
Used
IDF3 to Room P11
P11-1
HCC5/ Port13
SPP1
Cat 5e UTP
Used
IDF3 to Room P11
P11-2
HCC5/ Port14
SPP1
Cat 5e UTP
Not Used
IDF3 to Room P11
P11-3
HCC5/ Port15
SPP1
Cat 5e UTP
Not Used
IDF3 to Room P11
P11-4
HCC5/ Port5
TPP2
Cat 5e UTP
Used
IDF3 to North Building Classroom

Connection
Cable ID
Cross Connection Paired # Port#
Patch Panel
Cable Type
Status
IDF3 to Room NB12
NB12-1
HCC6/ Port16
SPP1
Cat 5e UTP
Used
IDF3 to Room NB12
NB12-2
HCC6/ Port17
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB12
NB12-3
HCC6/ Port18
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB12
NB12-4
HCC6/ Port6
TPP2
Cat 5e UTP
Used
IDF3 to Room NB13
NB13-1
HCC7/ Port19
SPP1
Cat 5e UTP
Used
IDF3 to Room NB13
NB13-1
HCC7/ Port20
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB13
NB13-1
HCC7/ Port21
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB13
NB13-1
HCC7/ Port7
TPP2
Cat 5e UTP
Used
IDF3 to Room NB14
NB14-1
HCC8/ Port22
SPP1
Cat 5e UTP
Used
IDF3 to Room NB14
NB14-1
HCC8/ Port23
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB14
NB14-1
HCC8/ Port24
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB14
NB14-1
HCC8/ Port8
TPP2
Cat 5e UTP
Used
IDF3 to Room NB15
NB15-1
HCC9/ Port25
SPP1
Cat 5e UTP
Used
IDF3 to Room NB15
NB15-1
HCC9/ Port26
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB15
NB15-1
HCC9/ Port27
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB15
NB15-1
HCC9/ Port9
TPP2
Cat 5e UTP
Used
IDF3 to Room NB16
NB16-1
HCC10/ Port28
SPP1
Cat 5eUTP
Used
IDF3 to Room NB16
NB16-1
HCC10/ Port29
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB16
NB16-1
HCC10/ Port30
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB16
NB16-1
HCC10/ Port10
TPP2
Cat 5e UTP
Used
IDF3 to Room NB17
NB17-1
HCC11/ Port31
SPP1
Cat 5e UTP
Used
IDF3 to Room NB17
NB17-1
HCC11/ Port32
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB17
NB17-1
HCC11/ Port33
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB17
NB17-1
HCC11/ Port11
TPP2
Cat 5e UTP
Used



Connection
Cable ID
Cross Connection Paired #
Cross Connection Ports #
Cable Type
Status
IDF3 to Room NB18
NB18-1
HCC12/ Port34
SPP1
Cat 5e UTP
Used
IDF3 to Room NB18
NB18-1
HCC12/ Port35
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB18
NB18-1
HCC12/ Port36
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB18
NB18-1
HCC12/ Port12
TPP2
Cat 5e UTP
Used
IDF3 to Room NB19
NB19-1
HCC13/ Port37
SPP1
Cat 5e UTP
Used
IDF3 to Room NB19
NB19-2
HCC13/ Port38
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB19
NB19-3
HCC13/ Port39
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB19
NB19-4
HCC13/ Port13
TPP2
Cat 5e UTP
Used
IDF3 to Room NB20
NB20-1
HCC14/ Port40
SPP1
Cat 5e UTP
Used
IDF3 to Room NB20
NB20-2
HCC14/ Port41
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB20
NB20-3
HCC14/ Port42
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB20
NB20-4
HCC14/ Port14
TPP2
Cat 5e UTP
Used
IDF3 to Room NB22
NB22-1
HCC15/ Port43
SPP1
Cat 5e UTP
Used
IDF3 to Room NB22
NB22-2
HCC15/ Port44
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB22
NB22-3
HCC15/ Port45
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB22
NB22-4
HCC15/ Port15
TPP2
Cat 5e UTP
Used
IDF3 to Room NB23
NB23-1
HCC16/ Port46
SPP1
Cat 5e UTP
Used
IDF3 to Room NB23
NB23-2
HCC16/ Port47
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB23
NB23-3
HCC16/ Port48
SPP1
Cat 5e UTP
Not Used
IDF3 to Room NB23
NB23-4
HCC16/ Port16
TPP2
Cat 5e UTP
Used
IDF3 to Room NB26
NB26-1
HCC17/ Port1
SPP2
Cat 5e UTP
Used
IDF3 to Room NB26
NB26-2
HCC17/ Port2
SPP2
Cat 5e UTP
Not Used
IDF3 to Room NB26
NB26-3
HCC17/ Port3
SPP2
Cat 5e UTP
Not Used
IDF3 to Room NB26
NB26-4
HCC17/ Port17
TPP2
Cat 5e UTP
Used
IDF3 to Room NB27
NB27-1
HCC18/ Port4
SPP2
Cat 5e UTP
Used
IDF3 to Room NB27
NB27-2
HCC18/ Port5
SPP2
Cat 5e UTP
Not Used
IDF3 to Room NB27
NB27-3
HCC18/ Port6
SPP2
Cat 5e UTP
Not Used
IDF3 to Room NB27
NB27-4
HCC18/ Port18
TPP2
Cat 5e UTP
Used


2) South Building IDF
Cut Sheet 3. IDF2 South Building) – Location
Room SB9

Connection
Cable ID
Cross Connection Paired # Port#
Patch Panel
Cable Type
Status
IDF2 South Building to MDF
IDF2-1
VCC1/ Port 1
FPP
Multi-mode Fibre
Used
IDF2 South Building to MDF
IDF2-2
VCC1/ Port 2
FPP
Multi-mode Fibre
Not Used
IDF2 South Building to MDF
IDF2-3
VCC2/ Port 3
FPP
Multi-mode Fibre
Used
IDF2 South Building to MDF
IDF2-4
VCC2/ Port 4
FPP
Multi-mode Fibre
Not Used
IDF2 to Portable Classroom





IDF2 to Room P1
P1-1
HCC1/ Port1
SPP1
Cat 5e UTP
Used
IDF2 to Room P1
P1-2
HCC1/ Port2
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P1
P1-3
HCC1/ Port3
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P1
P1-4
HCC1/ Port1
TPP
Cat 5e UTP
Used
IDF2 to Room P2
P2-1
HCC2/ Port4
SPP1
Cat 5e UTP
Used
IDF2 to Room P2
P2-2
HCC2/ Port5
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P2
P2-3
HCC2/ Port6
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P2
P2-4
HCC2/ Port2
TPP
Cat 5e UTP
Used
IDF2 to Room P3
P3-1
HCC3/ Port7
SPP1
Cat 5e UTP
Used
IDF2 to Room P3
P3-2
HCC3/ Port8
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P3
P3-3
HCC3/ Port9
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P3
P3-4
HCC3/ Port3
TPP
Cat 5e UTP
Used
IDF2 to Room P4
P4-1
HCC4/ Port10
SPP1
Cat 5e UTP
Used
IDF2 to Room P4
P4-2
HCC4/ Port11
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P4
P4-3
HCC4/ Port12
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P4
P4-4
HCC4/ Port4
TPP
Cat 5e UTP
Used
IDF2 to Room P5
P5-1
HCC5/ Port13
SPP1
Cat 5e UTP
Used
IDF2 to Room P5
P5-2
HCC5/ Port14
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P5
P5-3
HCC5/ Port15
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P5
P5-4
HCC5/ Port5
TPP
Cat 5e UTP
Used
IDF2 to Room P6
P6-1
HCC6/ Port16
SPP1
Cat 5e UTP
Used
IDF2 to Room P6
P6-2
HCC6/ Port17
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P6
P6-3
HCC6/ Port18
SPP1
Cat 5e UTP
Not Used
IDF2 to Room P6
P6-4
HCC6/ Port6
TPP
Cat 5e UTP
Used
IDF2 to South Building Classroom





IDF2 to Room SB10
SB10-1
HCC7/ Port19
SPP1
Cat 5e UTP
Used
IDF2 to Room SB10
SB10-1
HCC7/ Port20
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB10
SB10-1
HCC7/ Port21
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB10
SB10-1
HCC7/ Port7
TPP
Cat 5e UTP
Used
IDF2 to Room SB11
SB11-1
HCC8/ Port22
SPP1
Cat 5e UTP
Used
IDF2 to Room SB11
SB11-1
HCC8/ Port23
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB11
SB11-1
HCC8/ Port24
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB11
SB11-1
HCC8/ Port8
TPP
Cat 5e UTP
Used
IDF2 to Room SB12
SB12 -1
HCC9/ Port25
SPP1
Cat 5e UTP
Used
IDF2 to Room SB12
SB12 -1
HCC9/ Port26
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB12
SB12 -1
HCC9/ Port27
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB12
SB12 -1
HCC9/ Port9
TPP
Cat 5e UTP
Used
IDF2 to Room SB13
SB13 -1
HCC10/ Port28
SPP1
Cat 5e UTP
Used
IDF2 to Room SB13
SB13 -1
HCC10/ Port29
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB13
SB13 -1
HCC10/ Port30
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB13
SB13 -1
HCC10/ Port10
TPP
Cat 5e UTP
Used
IDF2 to Room SB14
SB14 -1
HCC11/ Port31
SPP1
Cat 5e UTP
Used
IDF2 to Room SB14
SB14 -1
HCC11/ Port32
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB14
SB14 -1
HCC11/ Port33
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB14
SB14 -1
HCC11/ Port11
TPP
Cat 5e UTP
Used



Connection
Cable ID
Cross Connection Paired # Port#
Patch Panel
Cable Type
Status
IDF2 to Room SB15
SB15 -1
HCC12/ Port34
SPP1
Cat 5e UTP
Used
IDF2 to Room SB15
SB15 -1
HCC12/ Port35
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB15
SB15 -1
HCC12/ Port36
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB15
SB15 -1
HCC12/ Port12
TPP
Cat 5e UTP
Used
IDF2 to Room SB16
SB16-1
HCC13/ Port37
SPP1
Cat 5e UTP
Used
IDF2 to Room SB16
SB16-2
HCC13/ Port38
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB16
SB16-3
HCC13/ Port39
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB16
SB16-4
HCC13/ Port13
TPP
Cat 5e UTP
Used
IDF2 to Room SB18
SB18-1
HCC14/Port40
SPP1
Cat 5e UTP
Used
IDF2 to Room SB18
SB18-2
HCC14/Port41
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB18
SB18-3
HCC14/Port42
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB18
SB18-4
HCC14/Port14
TPP
Cat 5e UTP
Used
IDF2 to Room SB19
SB19-1
HCC15/ Port43
SPP1
Cat 5e UTP
Used
IDF2 to Room SB19
SB19-2
HCC15/ Port44
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB19
SB19-3
HCC15/ Port45
SPP1
Cat 5e UTP
Not Used
IDF2 to Room SB19
SB19-4
HCC15/ Port15
TPP
Cat 5e UTP
Used
IDF2 to Room SB20
SB20-1
HCC16/ Port1
SPP2
Cat 5e UTP
Used
IDF2 to Room SB20
SB20-2
HCC16/ Port2
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB20
SB20-3
HCC16/ Port3
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB20
SB20-4
HCC16/ Port16
TPP
Cat 5e UTP
Used
IDF2 to Room SB21
SB21-1
HCC17/ Port4
SPP2
Cat 5e UTP
Used
IDF2 to Room SB21
SB21-2
HCC17/ Port5
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB21
SB21-3
HCC17/ Port6
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB21
SB21-4
HCC17/ Port18
TPP
Cat 5e UTP
Used
IDF2 to Room SB22
SB22-1
HCC18/ Port7
SPP2
Cat 5e UTP
Used
IDF2 to Room SB22
SB22-2
HCC18/ Port8
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB22
SB22-3
HCC18/ Port9
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB22
SB22-4
HCC18/ Port19
TPP
Cat 5e UTP
Used
IDF2 to Room SB23
SB23-1
HCC19/ Port10
SPP2
Cat 5e UTP
Used
IDF2 to Room SB23
SB23-2
HCC19/ Port11
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB23
SB23-3
HCC19/ Port12
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB23
SB23-4
HCC19/ Port20
TPP
Cat 5e UTP
Used
IDF2 to Room SB24
SB24-1
HCC20/ Port13
SPP2
Cat 5e UTP
Used
IDF2 to Room SB24
SB24-2
HCC20/ Port14
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB24
SB24-3
HCC20/ Port15
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB24
SB24-4
HCC20/ Port21
TPP
Cat 5e UTP
Used
IDF2 to Room SB25
SB25-1
HCC21/ Port16
SPP2
Cat 5e UTP
Used
IDF2 to Room SB25
SB25-2
HCC21/ Port16
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB25
SB25-3
HCC21/ Port18
SPP2
Cat 5e UTP
Not Used
IDF2 to Room SB25
SB25-4
HCC21/ Port22
TPP
Cat 5e UTP
Used




· Media centre IDF
Cut Sheet2. IDF1 Media Centre) – Location
Room MC8

Connection
Cable ID
Cross Connection Paired # Port #
Patch Panel
Cable Type
Status
IDF1 Media Centre to MDF
IDF1-1
VCC1/ Port 1
FPP
Mutli-mode Fibre
Used
IDF1 Media Centre to MDF
IDF1-2
VCC1/ Port 2
FPP
Mutli-mode Fibre
Not Used
IDF1 to Room MC1
MC1-1
HCC1/ Port 1
SPP
Cat 5e UTP
Used
IDF1 to Room MC1
MC1-2
HCC1/ Port 2
SPP
Cat 5e UTP
Not Used
IDF1 to Room MC1
MC1-3
HCC1/ Port 3
SPP
Cat 5e UTP
Not Used
IDF1 to Room MC1
MC1-4
HCC1/ Port1
TPP
Cat 5e UTP
Used
IDF1 to room MC3
MC3-1
HCC2/ Port 4
SPP
Cat 5e UTP
Used
IDF1 to room MC3
MC3-2
HCC2/ Port5
SPP
Cat 5e UTP
Not Used
IDF1 to room MC3
MC3-3
HCC2/ Port6
SPP
Cat 5e UTP
Not Used
IDF1 to room MC3
MC3-4
HCC2/ Port2
TPP
Cat 5e UTP
Used
IDF1 to Room MC4
MC4-1
HCC2/ Port7
SPP
Cat 5e UTP
Used
IDF1 to Room MC4
MC4-2
HCC3/ Port8
SPP
Cat 5e UTP
Not Used
IDF1 to Room MC4
MC4-3
HCC3/ Port9
SPP
Cat 5e UTP
Not Used
IDF1 to Room MC4
MC4-4
HCC3/ Port3
TPP
Cat 5e UTP
Used
IDF1 to Room MC6
MC6-1
HCC4 /Port 10
SPP
Cat 5e UTP
Used
IDF1 to Room MC6
MC6-2
HCC4 /Port11
SPP
Cat 5e UTP
Not Used
IDF1 to Room MC6
MC6-3
HCC4 /Port12
SPP
Cat 5e UTP
Not Used
IDF1 to Room MC6
MC6-4
HCC4 /Port4
TPP
Cat 5e UTP
Used

· Classroom cabinet and POP connection

In each classroom, there will be a lockable cabinet to house a patch panel, a switch and to act as the POP connection. The appropriate size for the cabinet will around 30cm*40cm* 70cm*. Here are some options from Hallam ECCO Wall Mount Cabinet and the model with size of 6 RU will be quite proper for our case.
·





6. Reference:
http://www.hp.com/cgi-bin/sbso/buyguides/tsg_product_select.cgi#Domain%20controller
http://h10010.www1.hp.com/wwpc/pscmisc/vac/us/en/sm/proliant/proliant-dl.html?jumpid=re_R295_prodexp/busproducts/computing-server/proliant-dl&psn=servers
http://www.cisco.com/en/US/prod/collateral/routers/ps9343/data_sheet_c78-447652.html
http://www.cisco.com/en/US/products/ps9436/index.html

www.pc.pcconnection.com/1/1/221402-cisco-asr1002-aggregation-services-router-chassis-dual-p-s-2u.html
http://www.cisco.com/en/US/prod/collateral/switches/ps5718/ps4324/product_data_sheet09186a008033a3bd.html

http://www.cisco.com/en/US/prod/collateral/switches/ps5718/ps7077/product_data_sheet0900aecd805bbe67.html

http://www.cisco.com/en/US/prod/collateral/switches/ps5718/ps4324/product_data_sheet0900aecd801e7846.html
http://www.superwarehouse.com/Cisco_Catalyst_4506-E_Switch_Chassis_with_PoE/WS-C4506-E/p/1513616

http://sholl.com.au/Cabinets_Racks/ECCO_Wall_Cabinets.html