Netw320 Week 2 iLab Essay Example
NETW320, Professor Haidar
11/10/13
Lab #2, Silent Suppression
Lab Report
1. Which run has a better (lower) DB Query Response time? The red line (silent_suppression_wss).
2. In regard to your answer to part a, approximate how much faster (in seconds or milliseconds) of a response time the better scenario has. 0.2sec
2. Expand E-mail and select Download Response Time (sec). Select Show and zoom into the last half portion of the graph for better granularity and to avoid start up oscillation time to stabilize. Copy and label this graph to your lab report and answer the following: 3. Which run has a better (lower) e-mail Download Response time? The red line (s_s_wss) 4. In regard to your answer to part a, approximate how much faster (in seconds or milliseconds) of a response time the better scenario has. 0.6 sec
3. Expand HTTP and select Page Response Time (sec). Select Show and zoom into the last half portion of the graph for better granularity and to avoid start up oscillation time to stabilize. Copy and label this graph to your lab report and answer the following: 5. Which run has a better (lower) page response time? Red line (s_s_wss) 6. In regard to your answer to part a, approximate how much faster (in seconds or milliseconds) of a response time the better scenario has. 0.5 sec
4. Expand Voice and select Traffic Sent (bytes/sec). Change the view from AS IS to time_average. Copy and label this graph to your lab report and answer the following:
7. For the (2) runs used in this lab was the amount of Voice Traffic sent about the same? If not, which scenario sent more and by how much? The one not using silence suppression sent about 10,000 more bytes/sec than the one using silence suppression.
5. Expand Voice and select Traffic Received (bytes/sec). Change the view from AS IS to time_average. Copy and label this graph to your lab report and answer the following:
6.
8. For the (2) runs used in this lab,
11/10/13
Lab #2, Silent Suppression
Lab Report
1. Which run has a better (lower) DB Query Response time? The red line (silent_suppression_wss).
2. In regard to your answer to part a, approximate how much faster (in seconds or milliseconds) of a response time the better scenario has. 0.2sec
2. Expand E-mail and select Download Response Time (sec). Select Show and zoom into the last half portion of the graph for better granularity and to avoid start up oscillation time to stabilize. Copy and label this graph to your lab report and answer the following: 3. Which run has a better (lower) e-mail Download Response time? The red line (s_s_wss) 4. In regard to your answer to part a, approximate how much faster (in seconds or milliseconds) of a response time the better scenario has. 0.6 sec
3. Expand HTTP and select Page Response Time (sec). Select Show and zoom into the last half portion of the graph for better granularity and to avoid start up oscillation time to stabilize. Copy and label this graph to your lab report and answer the following: 5. Which run has a better (lower) page response time? Red line (s_s_wss) 6. In regard to your answer to part a, approximate how much faster (in seconds or milliseconds) of a response time the better scenario has. 0.5 sec
4. Expand Voice and select Traffic Sent (bytes/sec). Change the view from AS IS to time_average. Copy and label this graph to your lab report and answer the following:
7. For the (2) runs used in this lab was the amount of Voice Traffic sent about the same? If not, which scenario sent more and by how much? The one not using silence suppression sent about 10,000 more bytes/sec than the one using silence suppression.
5. Expand Voice and select Traffic Received (bytes/sec). Change the view from AS IS to time_average. Copy and label this graph to your lab report and answer the following:
6.
8. For the (2) runs used in this lab,