Network Topology

Genome4U is a scientific research project at a large university in the United States. Genome4U has recently
started a large-scale project to sequence the genomes of 100,000 volunteers with a goal of creating a set of
publicly accessible databases with human genomic, trait, and medical data.
The project’s founder, a brilliant man with many talents and interests, tells you that the public databases
will provide information to the world’s scientific community in general, not just those interested in medical
research. Genome4U is trying not to prejudge how
The data will be used because there may be opportunities for interconnections and correlations that computers
can find that people might have missed.The founder envisions clusters of servers that will be accessible by
researchers all over the world.The databases will be used by end users to study their own genetic heritage,
with the help of their doc­ tors and genetic counselors. In addition, the data will be used by computer
scientists, •. mathematicians, physicists, social scientists, and other researchers.
The genome for a single human consists of complementary DNA strands wound together in a double helix.The
strands hold 6 billion base pairs of nucleotides connected by hydrogen bonds.To store the research data, 1
byte of capacity is used for each base pair. As a result, 6 GB of data capacity is needed to store the genetic
information of just one person. The project plans to use network-attached storage (NAS) clusters.

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 partners, including a nearby biology
lab that uses RIP and a fund-raising office that uses OSPF. The lab also needs Internet access, which it hopes
can be achieved by simply connecting the network to the university’s campus network, which has Internet
access.
1. Design a plan to integrate the different routing protocols into a new network design for Genome4U’s lab.
2. Identify the information you will redistribute between routing protocols.
3. Identify the problems you expect to encounter (with different metrics, security, etc.) when you
redistribute.
4. Explain how you will overcome the problems.
5. Explain how you will provide Internet access.
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