8.
The following parameters are calculated for each of the node in each of the server wings: Voltage, Temperature, Fan Speed, CPU Utilization. After we calculate the theoretical values of the parameters we calculate the threshold value using the above, if the calculated value exceeds the threshold value there is a chances of the node to fail, and hence we take the previously mentioned migration policies to tackle the situation.
B. User Interface:
Figure 4. UI of the server.
The main UI of the project is divided into 2 parts: Server: Shows the details of the Nodes of all the server.
Control: Control actions of the server.
Server Side: Displays status of 3 servers and 10 nodes in each server.
Button: Helps change the status of the node. …show more content…
The Graph displays the parameters of each of the node present in the respective server. The X-Axis represents the number of nodes of each server. The Y-Axis represents the parameters. Each Legend of the graph.
Each Legend of the graph. Red: Threshold of the parameters of the calculated result value. Black: Calculated result value by using the Proactive Algorithm. Green: Temperature of the individual nodes. Blue: CPU Utilization of the individual nodes. Yellow: Voltage consumed at each node. Cyan: Fan speed of the CPU at each node.
9. Results
The result of this project is the graph generated with the following specifications. The Graph displays the parameters of each of the node present in the respective server. The X-Axis represents the number of nodes of each server. The Y-Axis represents the parameters. Each Legend of the graph. As shown in figure 8.
– Red: Threshold of the parameters of the calculated result value.
– Black: Calculated result value by using the Proactive Algorithm.
– Green: Temperature of the individual nodes.
– Blue: CPU Utilization of the individual nodes.
– Yellow: Voltage consumed at each