Case Study 2: Genome4U? Due Week 6 and worth 70 points Read the Genome4U case study found in Chapter 7 of the textbook. Write a two to four (2-4) page paper in which you: Design a plan to integrate...

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Case Study 2: Genome4U? Due Week 6 and worth 70 points Read the Genome4U case study found in Chapter 7 of the textbook.  Write a two to four (2-4) page paper in which you: Design a plan to integrate the different routing protocols into a new network design for Genome4U’s lab. Identify the information you will redistribute between routing protocols. Identify the problems you expect to encounter (with different metrics, security, etc.) when you redistribute. Explain how you will overcome the problems. Explain how you will provide Internet access.


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Case Study 2: Genome4U? Due Week 6 and worth 70 points Read the Genome4U case study found in Chapter 7 of the textbook.  Write a two to four (2-4) page paper in which you: Design a plan to integrate the different routing protocols into a new network design for Genome4U’s lab. Identify the information you will redistribute between routing protocols. Identify the problems you expect to encounter (with different metrics, security, etc.) when you redistribute. Explain how you will overcome the problems. Explain how you will provide Internet access. Your assignment must follow these requirements: Be typed, double spaced, using Times New Roman font (size 12), with one-inch margins on all sides; citations and references must follow APA Thoroughly designed a plan to integrate the different routing protocols into a new network design for Genome4U’s lab. Thoroughly described the information you will redistribute between routing protocols. Thoroughly identified the problems you expect to encounter (with different metrics, security, etc.) when you redistribute. Thoroughly explained how you will overcome the problems. Thoroughly explained how you will provide Internet access. Three or more references Genome4U case study found in Chapter 7 of the textbook.  In Chapter 4, “Characterizing Network Traffic,” you learned about Genome4U, a scientific research project at a large university that plans to sequence the genomes of 100,000 volunteers. The project will also create a set of publicly accessible databases with genomic, trait, and medical data associated with the volunteers. Genome4U’s fund raising is going well, and the project is building a multistory lab for about 500 researchers. The project network engineers will be implementing a new internetwork for the lab using Cisco switches and routers. The network engineers plan to use EIGRP on the new routers. However, network designs are never that easy. The new internetwork also needs to communicate with many business...



Answered Same DayDec 29, 2021

Answer To: Case Study 2: Genome4U? Due Week 6 and worth 70 points Read the Genome4U case study found in Chapter...

David answered on Dec 29 2021
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Introduction
Genome4U is research project at a large university that plans to sequence the genomes of 100,000 volunteers. A multi-storey lab is built for the research project, which is
being interconnected to the existing infrastructure i.e. Biology lab, Fund-raising office and University Campus network. The Biology Lab is running RIP protocol, whereas the Fund-raising office is running OSPF routing protocol. The new Genome4U Lab network is decided to run on EIGRP routing protocol. The edge router of this network is used to redistribute the RIP, OSPF and EIGRP routes. It will also be used to provide internet access to the Genome4U Lab network through the University Campus Network.
Network Design
As shown in the figure below, the Biology lab network, fund-raising office network and the University Campus network would be connected to the edge router of Genome4U lab network. The Genome4U edge router would be running multiple routing protocols i.e. EIGRP for internal network, RIP for redistribution with Biology Lab network, OSPF for redistribution with Fund-raising office network. The interface facing the Biology lab network would be configured with RIP protocol, whereas the interface connected to the Fund-raising office network would be configured with OSPF protocol. The interface connected to the Genome4U lab network would be running EIGRP routing protocol. Redistribution will be configured in the edge router. RIP and OSPF will be redistributed into EIGRP LAN with two way redistribution i.e. the redistribution of routes will be done both ways, redistributing EIGRP routes into RIP and OSPF LAN and RIP, OSPF routes into EIGRP LAN. A default route will be added in this router to route all internet traffic to the University Campus Network for internet access.
Redistribution:
Route redistribution is the process of taking routes from...
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