A system that supports only a few processors/cores and an appropriate amount of memory for the system has the same relative levels of stress as a larger system with more processors/cores and a greater amount of memory. Therefore, the level of utilization for those resources is always commensurate with the capabilities of the system. The test then creates as many processor-specific and memory-specific stress processes as are needed to achieve a predetermined level of processor and memory utilization and will terminate those processes if the utilization level exceeds the predetermined level of stress. The test detects the number of processors/cores in the system, as well as the amount of memory in the system. The system test achieves the same relative amount of stress on the system, regardless of the number or type of processors, amount of memory, or the number of network and storage adapters in the system. Any HBA units that are attached to the SUT must be connected to the appropriate type of storage media. Similarly, Fibre Channel and iSCSI storage adapters can be tested at the same time, as long as the appropriate storage media is attached. For example, Gigabit Ethernet and 10 Gigabit Ethernet adapters can be tested at the same time, as long as network clients are connected to both devices. Additionally, the network and storage adapters and their respective resources do not need to be the same type. If the system has multiple network and storage adapters, test processes are created for each of those adapters, drivers, and connected resources (clients or storage devices) to provide the same relative stress workload. For example, if the test discovers one network adapter and one storage adapter (together with the necessary connected clients or storage devices, respectively), the test creates workload processes for that number of adapters to provide the stress workload. These workloads automatically scale to the number of network and storage adapters in the system that have connected clients or storage devices, respectively.
TANKI ONLINE TEST SERVER COMMANDS DRIVERS
The System Stress Test consists of several server scenario workloads that operate from the user level address space that is applied to the system to exercise the system hardware, system-specific devices and drivers, network and storage adapters and drivers, and any filter drivers that might be part of the system configuration, such as multipath storage drivers, storage or file system filter drivers, or intermediate layer network drivers. Some tests are run for every system, and some tests only run if the capability exists in the system. The system functionality tests are individual tests of the capabilities of the system. LoadGen is started on the master client and can use multiple stress client computers to generate network load on the SUT. LoadGen is a test tool that generates load on a system under test (SUT). Several kinds of stress tests get run against a server, including basic system functionality, system stress and shutdown/restart tests. Windows Hardware Lab Kit (Windows HLK) Studio detects all features on a server.
TANKI ONLINE TEST SERVER COMMANDS WINDOWS
A complete Windows Server Certification requires several tests that are comprised of System.Client, System.Fundamentals and System.Server tests. This section only describes System.Server tests. The specific tests you must run depends on the features that you implement on the server. Windows Server testing is primarily stress-oriented testing that include client/server I/O, network stress, CPU consumption, and memory consumption.
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