ICTSUS501 Implement server virtualisation for a sustainable

Assignment Detail:- ICTSUS501 Implement server virtualisation for a sustainable ICT system - Western Sydney College Virtual Server Installation -VMWare/Oracle Virtual Box with Windows 2016 and 2010- Within your practice environment, you are required to, for a scenario provided by your Assessor, install a VMWare/Oracle Virtual Box virtual server- You will need to communicate with clients for business purposes -your Assessor will play the role of the client in this case- and determine and meet client requirements for installation and testing a virtual server- You must produce a validation test plan utilising the attached template and once approved, install, integrate and test virtualisation components according to vendor and technical specifications- The server selected must be fully functional upon installation and accommodate for:• power supply requirements and management• registered random access memory -RAM-• server design and network architecture• set up and configuration procedures• single and multiple processors• vendor specifications and requirements for software installation• virtual server functionality-Once the server installation has been satisfactorily tested, produce user documentation to ensure that the organisational Information Technology support staff are able to maintain the server- Validation Test Plan: Running -Software Product- on VMWare/Oracle Virtual Box Infrastructure GoalsThe following test plan outlines the specific steps and configurations to be tested in the validation process for VMWare/Oracle Virtual Box Infrastructure- The goals are to quantify the likely performance of -product name-, and to confirm that support of such a configuration will not introduce new risk to our mutual customers- Outline additional goals/deliverables for this exercise below: Application Configuration and Requirements: This section provides details on the specific components of the application- Where possible, a graphical representation of the application should also be provided, with mappings of various functional requirements to specific hardware hosts or virtual machines- Virtual Machine Configurations The test configuration consists of -n- VMWare/Oracle Virtual Box ESX hosts, each running VMWare/Oracle Virtual Box ESX version -x-y- update -z-- Note: Configuration below is a sampling of hardware available at the VMWare/Oracle Virtual Box validation lab, list out additional configurations as per the requirements of the software product: Additional test cases -if any-: -Optionally- VMWare/Oracle Virtual Box Infrastructure Testing In order to understand how -ISV Product- works with higher level functionality of VMWare/Oracle Virtual Box Infrastructure, we will perform one or more of the following tests- VMWare/Oracle Virtual BoxvMotion Testing While running the workload, VMWare/Oracle Virtual BoxvMotion is used to execute manual migration of the database virtual machine from one VMWare/Oracle Virtual Box ESX host to another- During this test, response time and transaction rates are monitored, and any observed slowdown in performance is measured- Five such operations will be executed, and averages are then determined across the five- VMWare/Oracle Virtual Box Distributed Resource Scheduler -DRS- Testing During this test, virtual machines are assigned to VMWare/Oracle Virtual Box ESX hosts such that the majority of the load will be on one host- In the first test, set the aggressiveness level of VMWare/Oracle Virtual Box DRS to "Conservative-" Start up the test and monitor how VMWare/Oracle Virtual Box DRS moves virtual machines across a cluster to balance the load- Monitor transaction throughput, as well as CPU utilization of the various hosts in the cluster- You should see CPU utilization balance across the hosts with little decrease in throughput- Now run the same test after setting the aggressiveness of VMWare/Oracle Virtual Box DRS to a substantially higher value- Typical deliverables are CPU charts from VMWare/Oracle Virtual Box vCenter Server that reflect the balancing of the load during these tests- VMWare/Oracle Virtual Box High Availability -HA- TestingRun the workload on a clustered resource pool, and then do a hard shutdown of one host of the configuration- Note how the virtual machines come up on another host in the cluster- Restart the application components if necessary, and functionally verify that the application is working again- Measure the time it takes for the virtual machine to start accepting work again- This work is often most interesting in the case of services that start automatically at reboot, such as Web servers, such that the application will automatically be ready to work as soon as the virtual machine is restarted on another host- Wrap-up and Documentation Where possible, results of testing are documented in a standard format provided by VMWare/Oracle Virtual Box- This will then be entered into a template for a deployment guide to be used as a starting place for documenting the results of the testing- Where possible, the virtual machines used for testing should be archived for possible use in the future- Any outstanding issues should be documented for further follow-up with either VMWare/Oracle Virtual Box or other ISV development teams- Attachment:- Implement server virtualisation for a sustainable ICT system-rar
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