Part 1 Assignment
A new organization named
Assignment Requirements
Open a brand new Cisco Packet Tracer file.
Create the assignment network topology in Cisco Packet Tracer.
Use proper NIC hardware for each port and assign proper cables between the devices.
Create a spreadsheet in Microsoft Excel and add this to your Microsoft Word document that shows all devices, interfaces, IP addresses, subnet masks, wildcard masks, default gateways and any other relevant information. Design and assign proper IP addresses per the topology to all NIC cards on the routers, switches, servers, and PCs. Use efficient subnets. IPv4 or IPv6 can be used.
Label the NIC cards in Packet Tracer with their assigned IP addresses.
Design and configure a fully operational network with the multi area open shortest path first (OSPF) protocol in Cisco Packet Tracer.
Design, configure, and implement a minimum of three (3) unique OSPF areas using a minimum of four (4) routers.
Add a minimum of four (4) switches with laptops or PCs on each switch that can test the complete operation of multi area OSPF.
Add an Internet at the network edge or core layer of the network topology that includes a minimum of one router, one switch, and one web server. Ensure all laptops can access the web server and its websites using proper DNS records.
Once each of the assignment requirements are completed, show proper screenshots that validate the network is completely functional per the latter objectives.
Part 2 Assignment
A new organization named
Assignment Requirements
Add to and modify the part 1 Cisco Packet Tracer file as necessary.
Create the new Part 2 assignment network topology in Cisco Packet Tracer.
Use proper NIC hardware for each port and assign proper cables between the devices.
Create a spreadsheet in Microsoft Excel that shows all devices, interfaces, IP addresses, subnet masks, wildcard masks, default gateways and any other relevant information. Add the spreadsheet to your Microsoft Word document. Design and assign proper IP addresses per the topology to all NIC cards on the routers, switches, servers, and PCs. Use efficient subnets. IPv4 or IPv6 can be used.
Label the NIC cards in Packet Tracer with their assigned IP addresses.
For the WAN, design, create, and implement a minimum of three (3) external BGP peers in three (3) different autonomous systems (AS) using proper routers. These must be external BGP networks operating over public IP subnets in contrast to private IP subnets. Connect a minimum of one fault tolerant data center and two LANs to the eBGP WAN networks.
Design a minimum of one data center. Include at least a working DNS server and web server in the design that can communicate with all LAN laptops/PCs.
Once each of the assignment requirements are completed, show proper screenshots that validate the network is completely functional per the latter objectives.