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Performance analysis and Capacity planning of Home LAN

Performance analysis and Capacity planning of Home LAN. Mobile Networks Lab 4 mobilenetworkslab@gmail.com. Lab Objective. Investigate application performance and capacity planning, by changing the link speed between a home LAN and its ISP

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Performance analysis and Capacity planning of Home LAN

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  1. Performance analysis and Capacity planning of Home LAN Mobile Networks Lab 4 mobilenetworkslab@gmail.com

  2. Lab Objective • Investigate application performance and capacity planning, by changing the link speed between a home LAN and its ISP • Perform “what if” analyses on network designs by looking at how response times, latency (delays) and other network performance measures will change under different network design approaches

  3. Network Topology • Model a family’s home PC network, which has three PCs connected to the Internet for game playing, web browsing, E-mail, audio streaming, and FTP (file transfer protocol)

  4. Conduct a series of what-if simulations (scenarios) to see how performance differs if the family connects to the Internet using 1) a slow modem downloading at 20 kbps, 2) a fast modem downloading at 40 kbps, 3) a cable modem or DSL line downloading at 512 kbps, 4) a T1 line with download speed of 1.544 Mbps • For each scenario, you will set the download speed in the simulation model, run a simulation, and view the results. You will be addressing the question of whether faster connections are worth higher prices for the home network.

  5. Network Topology • Configure Applications: • Web (light browsing) • Web(heavy) • Email (light browsing) • FTP (light) • Create profiles: • Web browsing (web (light)) • Researcher (web (heavy), email(light)) • Game player(FTP (light))

  6. Drag and drop devices: • Home network: • 3 Ethernet workstations (Web Browser, Researcher, Game Player) • Ethernet 16switch • 1 router (ethernet_slip8_gtwy) • Internet Cloud • 3 servers (PPP servers) • Web server • Email Server • Data(files) server • Links: • Client switch: 100BaseT • Switch router: 100BaseT • Router Internet cloud: ppp_adv • Internet  servers: T3

  7. Statistics • Individual: • Web Browser Client: • Client HTTP (page response time, traffic received) • Researcher: • Client HTTP (page response time, traffic received) • Client Email (download response time, upload response time) • Game Player • Client FTP (all) • WAN Link utilization • Global: • FTP, HTTP, Email, TCP, Ethernet

  8. Scenario 1: Dialup link • Configure the WAN Link(routerInternet) to 20 Kbps • Right-click on the WAN link select Edit Attributes • Click in the Value field of the data rate attribute and select Edit… • Enter 20000; press Enter and then click OK • Configure and Run the Simulation (8 hours) • View various statistics including the web application Response Time experienced by the Researcher and the WAN link utilization

  9. WAN Link Utilization • Right-click on the WAN link and select View Results to view the utilization results for this link. • Expand point-to-point and select utilization in both directions. • Select Overlaid Statistics from the pull-down menu on the bottom right- hand corner to place the results in the same panel.

  10. Lab Tasks • Task 1. • Many statistics are being collected like the throughput and the queuing delay on the WAN link. View these 2 results for the four scenarios and prepare a brief report of your observation. • Task 2: • Create a duplicate scenario. Change the data rate of the WAN link between the Router and the ISP to get an average response time of 1sec. (Hint: From the results, we can see that the data rate might fall between 40 Kbps and 512 Kbps.) What WAN speed did your find to give this response time?

  11. Task 3: • What would happen if there were two more PCs? Select and Copy the Researcher PC. Then paste the PC. Copy one more PC in the similar manner. Connect these two PCs to the switch by copying and pasting the links connecting the first researcher PC and the switch. Run the simulation and see view the web Response Times of each of these PCs for all the data rates. What did you find?

  12. Task 4: • Add more applications to the researcher PC and check the response time that it gets. (Hint: To add applications to a client, you need to edit the attributes of the Profile object and edit the Profile Configuration.)

  13. Researcher PC performance • Right-click on the PC2 Researcher client and select View Results to view the web Response Time and Traffic Received. • Expand Client Http and select Page Response Time (seconds). Also make sure that the pull-down menu on the bottom right-hand corner is set to As Is.

  14. Observations • Observe the download link Utilization and researchers Response Time. • The download link Utilization averages about 80% and the upload link Utilization about 2%. With a download link utilization of 80%, this does not give much available bandwidth for potential new applications or users. • The Response Time that the Researcher experiences is in the range of 5 to 7.5 seconds, which is painfully long. This slow WAN link is badly overloaded.

  15. Scenario 2 • 40 kbps Scenario • Similar to above scenario, Configure the Link to 40 Kbps • Right-click on the WAN link and change the data rate attribute to 40000 • View Results for 40Kbps Scenario • Follow the same steps mentioned before to view the link utilization, and Response Time by the researcher PC. • Notice the difference between two statistics

  16. Scenario 3 and 4 • Scenario 3: Set the link to 512 Kbps and run the simulation • Set the data rate for the WAN link to 512000. • Rerun the simulation. • View the results for link utilization, Response Time and Traffic Received by the Researcher PC. • Scenario 4: Configure the link to T1 line and run the simulation • For T1 data rate is 1.544 Mbps in both directions

  17. Compare Results • Compare results of all scenarios • Show the difference in link utilization and response time with all scenarios.

  18. Lab Report • A cover page with your name, course information, lab number and title, and date of submission. • A summary of the addressed topic and objectives of the lab. • Implementation: a brief description of the process you followed in conducting the implementation of the lab scenarios.

  19. Results obtained throughout the lab implementation, the analysis of these results, and a comparison of these results with your expectations. • Answers to the given questions at the end of the lab. If an answer incorporates new graphs, analysis of these graphs should be included here. • A conclusion that includes what you learned, difficulties you faced, and any suggested extensions/improvements to the lab.

  20. Submission Details • Hardcopy: Due by 10th Oct 2011, at the start of lab • Softcopy: (For those who missed the deadline of Assignment2) Complete 1st two lab tasks and submit the report before 2400 hrs today (3rd Oct 2011) • Write your name, reg#, syn, and ‘A2 missed deadline penalty’ in the subject field of email.

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