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3. Role and Types of Hypervisor
4. Types of Virtualization
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Hope it will gave you the good understanding to related topic.
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Technical Proposal - IT Infrastructure
1. Site 6 - Prototype 3
KAP 2 – King Abdullah Project
Technical Proposal – Revision 2.03
Section: Data Network Solution
Document author: Wael Ghazzawi
Revision date: December 01, 2011
1
2. Site 6 - Prototype 3
Table of Contents
Introduction ............................................................................................................................................ 3
Single Line Diagram ................................................................................................................................ 4
Quantitative Analysis ............................................................................................................................. 4
Stacking Modules and Uplinks ............................................................................................................... 4
Future Expansion .................................................................................................................................... 4
Bill of Quantities ..................................................................................................................................... 5
Component Specifications ..................................................................................................................... 9
Power Load & Heat Dissipation ........................................................................................................... 11
Appendix............................................................................................................................................... 12
A. Specification Sheet – 8488-SO-06-03-039-FD-T-300-00.dwg;
B. Specification Sheet – 8488-SO-06-03-039-FD-T-310-00.dwg;
C. Specification Sheet – 8488-SO-06-03-039-FD-T-320-00.dwg;
D. Specification Sheet – 8488-SO-06-03-039-FD-T-512-00.dwg;
E. Data Sheet – HP Core Switch 7510
F. Data Sheet – HP 5500G
G. Data Sheet – HP 5406
H. Data Sheet – HP MSR30-20 Router
I. Data Sheet – HP Proliant DL380 G6
J. Data Sheet – HP JF377AAE
2
3. Site 6 - Prototype 3
Introduction
This Technical Submittal details the proposed HP Data Network Solution designed to be
deployed in PROTOTYPE 3 (Site 6), “Soldiers Institute in King Fahad Security College” subject to
the initial riser diagram(s) with:
Reference number:
8488-SO-06-03-039-FD-T-300-00.dwg;
8488-SO-06-03-039-FD-T-310-00.dwg;
8488-SO-06-03-039-FD-T-320-00.dwg;
8488-SO-06-03-039-FD-T-512-00.dwg;
Titled: “King Fahad Security College in Riyadh Educational Building”
Consultant: “Not Specified”
File Description: The riser diagram(s) reflect the cabinet layout for the Low Current Rooms that
are distributed over (Ground, 1st, 2nd floors) in addition to a dedicated drawing that shows the
general layout of the designated cabinets for the IPTV on each floor. This allows the generation
of a quantitative analysis table that reflects the number of Nods and associated Switches per
cabinet based on which the stacking can be determined.
3
4. Site 6 - Prototype 3
Single Line Diagram
The Following Diagram provides a high detail equivalent Riser diagram (subject to the project
riser drawing: “8488-SO-06-03-039-FD-T-3X0-00.dwg”) with special emphases on showing the
exact models constituting each stage of the design.
4
5. Site 6 - Prototype 3
Quantitative Analysis
The table below uses quantitative analysis based on the drawing(s) “Structured cabling network
– Master Plan” projecting the exact number and type of Nods connected to each Low Current
room in addition to projecting the number of switches and patch panels required to service
them.
Educational Building
Ground Floor
Copper Switch Security
Cabinet UPC T/D IPTV
N# Cabinet Patch Panel - 24 Outlets
Size Capacity outlets Outlets
24U Ports (DC- CCTV)
1 LC Cabinet GR32A 42 U 4 KW - 3 U 2 2 20 4 9
2 LC Cabinet GR44 42 U 4 KW - 3 U 2 2 28 7 6
3 LC Cabinet GR55A 42 U 4 KW - 3 U 2 2 25 8 6
4 LC Cabinet GR72 42U 4 KW - 3 U 2 2 24 8 6
5 LC Cabinet GR83A 42 U 4 KW - 3 U 2 2 16 5 7
First Floor
Copper Switch Security
Cabinet UPC T/D IPTV
Cabinet Patch Panel - 24 Outlets
Size Capacity outlets Outlets
24U Ports (DC- CCTV)
6 LC Cabinet 029 42 U 4 KW - 3 U 4 4 58 2 10
7 LC Cabinet 048 42U 4 KW - 3 U 3 3 41 12 4
8 LC Cabinet 065 42 U 4 KW - 3 U 9 9 164 12 7
9 LC Cabinet 082 42 U 4 KW - 3 U 4 4 67 12 6
10 LC Cabinet 100A 42 U 4 KW - 3 U 2 2 30 7 7
2nd Floor
Copper Switch Security
Cabinet UPC T/D IPTV
Cabinet Patch Panel - 24 Outlets
Size Capacity outlets Outlets
24U Ports (DC- CCTV)
11 LC Cabinet 052 42 U 4 KW - 3 U 3 3 31 8 7
12 LC Cabinet 081 42 U 4 KW - 3 U 4 4 51 12 8
13 LC Cabinet 106A 42 U 4 KW - 3 U 8 8 138 9 13
14 LC Cabinet 134 42 U 4 KW - 3 U 4 4 57 12 6
15 LC Cabinet 158A 42 U 4 KW - 3 U 3 3 32 8 6
5
6. Site 6 - Prototype 3
Stacking Modules & Uplinks
In this Table the number of stacking module packs is listed based on the maximum size of the
stack in addition to listing the required number of 1G Links required to connect the stacks to the
core switch.
Educational Building
Ground Floor
GLC 1G Stacking
N# Cabinet Switch - 24 Ports
Required Modules
1 LC Cabinet GR32A 2 2 2
2 LC Cabinet GR44 2 2 2
3 LC Cabinet GR55A 2 2 2
4 LC Cabinet GR72 2 2 2
5 LC Cabinet GR83A 2 2 2
First Floor
GLC 1G Stacking
Cabinet Switch - 24 Ports
Required Modules
6 LC Cabinet 029 4 2 4
7 LC Cabinet 048 3 2 3
8 LC Cabinet 065 4-5 4 9
9 LC Cabinet 082 4 2 4
10 LC Cabinet 100A 2 2 2
2nd Floor
GLC 1G Stacking
Cabinet Switch - 24 Ports
Required Modules
11 LC Cabinet 052 3 2 3
12 LC Cabinet 081 4 2 4
13 LC Cabinet 106A 4-4 4 8
14 LC Cabinet 134 4 2 4
15 LC Cabinet 158A 3 2 3
Total 34 54
Note: Based on the above the overall deployment of Site 6- Prototype 3 is made up of 17 stacks
connected via 34 1Gbps uplinks to the core switch.
6
8. Site 6 - Prototype 3
Bill of Quantities
The tables below provide a quantitative list of the required components/Sub-components, to
achieve the required performance criteria as set forth in the project specifications and in
alignment with the notes provided by the consultant on the approved drawings.
Line # General D. Vendor P# Material ID Description ∑ Qty
1.1 JD238B HP 7510 Switch Chassis 2
1.2 JD218A HP 7500 1400W AC Power Supply 4
1.3 JC684A HP 7500 1GB Compact Flash Card 4
HP 7500 20-port Gig-T / 4-port GbE
1.4 JC668A 2
PoE-upgradable Combo SA Module
1. Core Switch HP 1.5 JD211B HP 7500 48-port GbE SFP Module 2
1.6 JD119B HP X120 1G SFP LC LX Transceiver 34
1.7 JF290A HP 7500 8-port 10G SFP+ Module 2
1.8 JD117B HP X130 10G XFP LC SR Transceiver 6
HP 3y SupportPlus24 Networks 7510
HP788E 2
1.9 Svc
2.1 JD371A HP 5500-24G-PoE SI Switch 54
HP 5500 2-port 10GbE Local Connect
2.2 JD360B 54
Module
HP X230 Local Connect 100cm CX4
Access 2.3 JD364B 48
2. HP Cable
Switches HP 5500/4800 2-port GbE SFP
2.4 JD367A 34
Module
2.5 JD119B HP X120 1G SFP LC LX Transceiver 34
2.6 UV879E HP 3y 24x7 Networks 55xx SW Supp 54
HP 5406 zl Switch with Premium
3.1 J9642A 1
Software
3.2 J8712A HP 875W zl Power Supply 2
HP 20-port Gig-T / 4-port SFP v2 zl
3.3 J9549A 1
Module
Firewall HPN HP Threat Management Services zl
3. HP
TMS Module 3.4 J9156A Module with 1-year IPS Subscription 1
Service
HP 3y 24x7 5406 zl switch bndl SW
3.5 UY912E 1
Supp
HP 3y 24x7 Networks Threat Mgmt
3.6 UQ593E 1
SW Supp
8
9. Site 6 - Prototype 3
Bill of Quantities (Continued)
The tables below provide a quantitative list of the required components/Sub-components, to
achieve the required performance criteria as set forth
Line # General D. Vendor P# Material ID Description ∑ Qty
4.1 JF284A HP MSR30-20 Router 1
HP MSR 1-port Fractional E1 SIC
4.2 JD634B 1
Internet Module
4. HP HP 3y 24x7 Networks MSR30 router
Router 4.3 UX160E 1
SW Supp
HP 3y Nbd Exch Networks MSR30 HW
4.4 UX150E 1
Supp
HP IMC Standard Edition Software
5.1 JF377AAE 1
Platform with 100-node E-LTU
HP 3y 24x7 Networks Group 170 Lic
5.2 UV749E 1
Supp
HP Proliant DL380 G6: (1) Single
Processor (2) Single Xeon Quad Core
2.93GHz X5570 8MB Intel Smart
HP IMC
Cache (3) 6GB (3 x 2GB) (4) HP 146GB
5. Network HP
6G SAS SFF 15K w/ Hot Plug Tray (5)
Management
HP Proliant HP 146GB 6G SAS SFF 15K w/ Hot
5.5 1
DL380 G6 Plug Tray (6) NC364T PCI Express
Quad Port Gigabit Adapter (7)
P410i/0 (RAID 0, 1, 1+0) (8) Dual 460
Watt Redundant Watt Power Supply
(9) HP Windows Server 2008 R2
Enterprse w/10 CALs (10) Ground
9
10. Site 6 - Prototype 3
Component Specifications
Based on the previous section we will now start discussing our solution components and
present a general overview on their performance details.
(1) Core-Switch: This represents the main singular point of data aggregation for the Data,
Telephony, and IPTV system, with a switching capacity of 2.304 T-bps while having the
core switches running in a Full-virtualized mode. Each core switch will be loaded
identically with the following:
a. “JE290A” HP 7500 8-port 10G XFP LC SR Transceiver
b. “JD211B” HP 7500 48-port GbE SFP
c. “JC688A” HP 7500 20 ports Gig-T/4-port GbE
Where item (a) is meant for achieving full virtualization between the two switches in
order to allow them to function as one in the above depicted capacity, this is achieved by
linking the two core-switches with 4-10Gbps fiber links via module (a). And Item (b) will
allow each stack to connect with 2 – 1Gbps links to the core switch. Finally Item (c) is
meant to allow interconnection of different component in the MTR with the core switch
such as the Firewall and additional Monitoring & Management equipment.
Refer to Appendix 1: Data Sheet- HP 7510
(2) Access Switches: This represents the Edge switches used to connect the different type
of nodes to the network, supporting (24 ports, 10GbbE uplinks, L2/L3 (RIP), PoE, IRF,
IPv4/IPv6.
The Switches will be organized into stacks using the following connection mediums:
a. “JD360B” HP 5500 2-port 10GbE local Connect Module.
b. “JD364B” HP X230 local Connect 100cm CX4 cable.
Where item (a) is meant as an expansion module for stacking that is fitted to the back of
the switch and has two ports each, one to connect to the switch above in the stack and
one to connect to the switch after of the same stack. And item (b) is a specially designed
connection cable that interconnects the two expansion modules stated in item (a)
between two different switches of the same stack.
Refer to Appendix 2: Data Sheet – HP 5500
(3) Firewall: This represents the digital separation and protection between the global
out-of-site internet network and the intranet network hosting the local services and
clients. It consist of the following components:
a. “J9642A” HP 5406Zl switch
b. “J9549A” HP 20-port Gig-T / 4 port SFP v2 zl module
c. “J9156A” HP threat management services zl module with 1 year IPS subscription
Where item (a) represents a modular switch allowing for the integration of multiple
modules and services to create an intermediate medium between the intranet and the
internet. And item (b) provides the physical data interface to which both mediums -
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11. Site 6 - Prototype 3
Component Specifications (continued)
-are connected. Finally item (c) is a threat management system with intrusion
prevention update subscription that acts on filtering incoming and outgoing connection
for any hacking threats.
Refer to Appendix 3: Data Sheet – HP 5406 with J9156A
(4) Internet Router: The purpose of this device is negotiating a connection between the
STC supplied internet line and the Main Telecom Room.
Refer to Appendix 4: Data Sheet – HP MSR30-20
(5) Network Management System: The purpose of this device is providing a GUI enabled
management system that allows tracking and controlling the different Switches and
other devices infrastructure devices deployed in the intranet network. This system
consists of the following components:
a. “HP Proliant DL380 G6” Intel Xeon Server
b. “JF377AAE” HP IMC Standard Edition Software Platform with 100-node E-LTU
Where item (a) is the server medium that will provide the running environment for item
(b), and finally item (b) is the management software for the Network Switching
hardware supporting 100 nodes.
Refer to Appendix 5: Data Sheet – JF277AAE
Appendix 6: Data Sheet – HP Proliant DL380 G6
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12. Site 6 - Prototype 3
Power Load & Heat Dissipation
The following section will present the Power Load ratting of the components making up the
above presented Data Solution for the purpose of facilitating electric-design power calculation
concerning the power-cable amp-load ratting and UPS ratting required for this section of the
MTR. In addition the BTU head dissipation of each component and operational temperature is
listed to help determine the best suited HVAC cooling system ratting.
Operational
N# Vendor - Model/Device Maximum Power Load Maximum Heat Dissipation
Temperature
JD238B - HP A7510
0 – 45 degree
1. 2800 Watt Component Dependent
Celsius
HP Proliant DL380 G6
0 – 45 degree
2. 920 Watt 2968.6 BTU/hr (3132.04 kJ/hr)
Celsius
JD371A HP 5500-24G-PoE
0 – 45 degree
3. 455 Watt 290 BTU/hr (305.95 kJ/hr)
Celsius
JF284A HP MSR30-20 Router
0 – 45 degree
4. 125 Watt 426 BTU/hr (449.43 kJ/hr)
Celsius
J9642A HP 5406
0 – 45 degree
5. 1500 Watt 3700 BTU/hr (3903 kJ/hr)
Celsius
Note: To achieve the highest performance the room temperature must be kept at a maximum of
, As well note that the BTU ratting specified above is per unit quantity, the HVAC must in
addition take into consideration the dissipation of any additional active or radiant passive
device placed within the same area.
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