network design for hs3.pptx
TRANSCRIPT
Network Design for HS3 Building
Abhimanyu PandeyAnil Manandhar
Mahesh TripathyPawan Adhikari
Introduction
• Aim of project: To model network of HS3 building• Network should be:
o Reliableo Accessibleo Scalableo Secure
• Need for simulation: o Expensive hardwareo Network parameters
• Tools used: OPNET Simulation
HS3 Building departmentsProsthetics & Orthotics 7
Podiatry 10
Social Work & Policy 2
Physiotherapy 20
Occupational Therapy 24
Dietetics & Human Nutrition 9
Allied Health HOS 17
Health Science Clinics 5
service /Desktop support 1
Graduate Assistant Teacher/Fellow 2
Associate Dean International 1
Coordinate HIM professor 1
Senior Advisor,clinicical school 1
MFD fleet support officer 1
User Profiles/Application profiles Teacher
roomsPractical room/ class room
Lab rooms Common meetingrooms
Common sharedrooms
Record rooms
Web browsing heavy ✓ ✓ ✓
Web browsing medium ✓ ✓ ✓
Email Heavy ✓ ✓ ✓
Email medium ✓ ✓ ✓
File transfer heavy ✓ ✓
File transfer medium ✓ ✓ ✓
File print heavy ✓ ✓
File print light ✓ ✓ ✓
Selection of network topology
Flat network Topology Vs. Multilayered Design→Networking Devices→Cost efficiency with contrast to network Debugging→ Broadcast Domain/Collision Domain
Multilayered Design→ MDF and IDF→Scalability
Access Layer Design
→ Unshielded Twisted cabling→Switches and not Hubs-CISC0 2960S →Power over Ethernet→ Link Standards in IDF and MDF platforms
- 100 Base T over CAT5 UTP→Need of Gigabit Ethernet
- Exploding Bandwidth Requirements-Existing UTP instead of Fiber gigabit
Access Layer Design
Introduction to VLAN
→ Feature of Multilayered Topology→ Switches Separating Broadcast Domains.→ Native VLAN→ Subnets Vs. VLAN
Building topology
Opnet Modelling – Native VLAN• Link utilization with default VLAN
VLAN• Allows mulitple IP network and subnets to
exist in the same switched network• VLAN ID: identification of same group of
network• Access link: link with single VLAN ID• Trunk Link: link with multiple VLAN ID
WHY VLAN? -Security
WHY VLAN?-STP use• STP: bridge protocol that utilizes the spanning-tree
algorithm• helps the bridges or switches to be loop free • shut down bridge interface to maintain loop free• Priority to block: 1. A lower Root Bridge ID.
2. A lower path cost to the Root.3. A lower Sending Bridge ID.4. A lower Sending Port ID.
WHY VLAN?-Limited Recourse Management
• PVST+: per VLAN STP
Inter VLAN Communication• One Armed Router: single physical interface
route the different vlan on a network• router accepts VLAN tagged traffic on the trunk
interface • then internally route the VLANs using
subinterfaces
One Armed Router-Secure Resource management
Project implementation- on Fifth floorcomponents ip addresss subnet maskPrinter_1 192.0.1.200 255.255.255.0Printer_2 192.0.2.200 255.255.255.0Printer_3 192.0.3.200 255.255.255.0
Teacher_DeptC 192.0.3.250 255.255.255.0
Teacher_DeptD 192.0.4.250 255.255.255.0
Teacher_DeptE 192.0.5.250 255.255.255.0Class 192.0.8.10 255.255.255.0Class_2 192.0.8.100 255.255.255.0Record room 192.0.10.10 255.255.255.0Shared 192.0.7.10 255.255.255.0Meeting 192.0.6.10 255.255.255.0
Results comparison-Queuing delay from core switch to floor switch
Result comparison-page response of HTTP by Teacher Dept C
Result comparison-HTTP received by Teacher Dept C
