Generally a sleep will last at least until the next system interrupt occurs. However, this
depends on settings of the multimedia timer resources. It may be set to something close to
1 ms, some hardware even allows to run at interrupt periods of 0.9765625 (ActualResolution provided by
NtQueryTimerResolution will show 0.9766 but that's actually wrong. They just can't put the correct number into the ActualResolution format. It's 0.9765625ms at 1024 interrupts per second).
There is one exception wich allows us to escape from the fact that it may be impossible to sleep for less than the interrupt period: It is the famous
Sleep(0). This is a very powerful
tool and it is not used as often as it should! It relinquishes the reminder of the thread's time slice. This way the thread will stop until the scheduler forces the thread to get cpu service again.
Sleep(0) is an asynchronous service, the call will force the scheduler to react independent of an interrupt.
A second way is the use of a
waitable object. A wait function like
WaitForSingleObject() can wait for an event. In order to have a thread sleeping for any time, also times in the microsecond regime, the thread needs to setup some service thread which will generate an event at the desired delay. The "sleeping" thread will setup this thread and then pause at the wait function until the service thread will set the event signaled.
This way any thread can "sleep" or wait for any time. The service thread can be of big complexity and it may offer system wide services like timed events at microsecond resolution. However, microsecond resolution may force the service thread to spin on a high resolution time service for at most one interrupt period (~1ms). If care is taken, this can
run very well, particulary on multi-processor or multi-core systems. A one ms spin does not hurt considerably on multi-core system, when the affinity mask for the calling thread and the service thread are carefully handled.
Code, description, and testing can be visited at the Windows Timestamp Project