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https://github.com/abdulsamie10/computernetwrokingproject
Computer Networking simulation using EIGRP, OSPF, and RIP with VLSM and NAT.
https://github.com/abdulsamie10/computernetwrokingproject
cnet computer-network computer-networking computer-networking-lab computer-networks eigrp fast-nu nat ospf project protocol rip subnetting vlsm
Last synced: about 7 hours ago
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Computer Networking simulation using EIGRP, OSPF, and RIP with VLSM and NAT.
- Host: GitHub
- URL: https://github.com/abdulsamie10/computernetwrokingproject
- Owner: abdulsamie10
- Created: 2023-01-09T08:55:25.000Z (almost 2 years ago)
- Default Branch: main
- Last Pushed: 2023-01-09T08:57:36.000Z (almost 2 years ago)
- Last Synced: 2024-04-28T04:56:18.403Z (6 months ago)
- Topics: cnet, computer-network, computer-networking, computer-networking-lab, computer-networks, eigrp, fast-nu, nat, ospf, project, protocol, rip, subnetting, vlsm
- Homepage:
- Size: 907 KB
- Stars: 1
- Watchers: 2
- Forks: 0
- Open Issues: 0
-
Metadata Files:
- Readme: README.md
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README
# ComputerNetwrokingProject
Computer Networking simulation using EIGRP, OSPF, and RIP with VLSM and NAT.
# Software Dependency
1. Use Packet Tracer Instructor Version to simulate this network.
# “Our greatest weakness lies in giving up. The most certain way to succeed is always to try just one more time.”
# “A creative man is motivated by the desire to achieve, not by the desire to beat others.”
# Instructions
You are given the network design with minimal technical documentation; your task is to
make this up and run in 4 hrs. Use all your mind capabilities to solve this.
1. Following are the steps you need to perform in the topology according to the given layout.
Configure this scenario and find your given IP address in the file "IP addresses" attached with
this. Find out the Network Addresses and start working with them. And use them as required.
2. Please find the number of required hosts per subnet in the given file. Each student is given
a different number of required hosts per subnet. Networks are labeled alphabetically in the
given file of IP ADDRESSES. The networks with Router23 are not labeled so you can choose any
number of hosts for those subnets.
3. Use EIGRP in First Block for Routing, OSPF with area 1 in Second Block, Rip in Third Block,
and OSPF with area 0 in the last block as mentioned on the top of each block.
4. Use Redistribution on Router6 and Router13 for connecting EIGRP with OSPF and OSPF
with RIP.
5. All hosts in EIGRP, OSPF area 1, and RIP will get IP addresses from the "DHCP
Server" present in the first block.
6. All hosts in OSPF area 0 will get hosts from the “DHCP Server” present in its own
block. (named as web server in the picture)
7. You have to use VLSM in each network of the topology.
8. You have to IMPLEMENT NAT in Router7 with the Network G. Use the Private IP Address
given to you in the attached file for Natting.
9. One of the PCs of Network L will not be allowed to access the TFTP server. One of the PCs
of Network E will not be allowed to access the Data server in the 1st block. All hosts connected
in network A will not be allowed to access "Web Server".
10. The TFTP and Data servers do not need to have running services. They will simply be
treated as hosts. You just need to block the access of those servers from respective
networks. (Access List)