You can set the hyperthreaded core sharing mode for a virtual machine using the vSphere Web Client.

Table 1. Hyperthreaded Core Sharing Modes




The default for all virtual machines on a hyperthreaded system. The virtual CPUs of a virtual machine with this setting can freely share cores with other virtual CPUs from this or any other virtual machine at any time.


Virtual CPUs of a virtual machine should not share cores with each other or with virtual CPUs from other virtual machines. That is, each virtual CPU from this virtual machine should always get a whole core to itself, with the other logical CPU on that core being placed into the halted state.


This option is similar to none. Virtual CPUs from this virtual machine cannot share cores with virtual CPUs from other virtual machines. They can share cores with the other virtual CPUs from the same virtual machine.

You can select this option only for SMP virtual machines. If applied to a uniprocessor virtual machine, the system changes this option to none.

These options have no effect on fairness or CPU time allocation. Regardless of a virtual machine’s hyperthreading settings, it still receives CPU time proportional to its CPU shares, and constrained by its CPU reservation and CPU limit values.

For typical workloads, custom hyperthreading settings should not be necessary. The options can help in case of unusual workloads that interact badly with hyperthreading. For example, an application with cache thrashing problems might slow down an application sharing its physical core. You can place the virtual machine running the application in the none or internal hyperthreading status to isolate it from other virtual machines.

If a virtual CPU has hyperthreading constraints that do not allow it to share a core with another virtual CPU, the system might deschedule it when other virtual CPUs are entitled to consume processor time. Without the hyperthreading constraints, you can schedule both virtual CPUs on the same core.

The problem becomes worse on systems with a limited number of cores (per virtual machine). In such cases, there might be no core to which the virtual machine that is descheduled can be migrated. As a result, virtual machines with hyperthreading set to none or internal can experience performance degradation, especially on systems with a limited number of cores.