Increasing the priority of the thread waiting for a timer to get signalled will let the scheduler run the waiting thread before other possible "ready to run threads" are chosen.
This can be tuned as far as setting the process priority class to REALTIME_PRIORITY_CLASS and thread priority to THREAD_PRIORITY_TIME_CRITICAL. But: Make sure that your waiting thread is fairly quickly releasing these high priority settings BEFORE it starts taking much cpu load,
particulary when running in a single cpu/core.
Another advantage on multi-core systems is to use
SetThreadAffinityMask to put the execution of the waiting thread on cpu 0. Interrupts are handled on cpu 0 when not specifically configured differently. This way you'll obtain a slight advantage in accuracy.
Also make sure to NOT expect a timer event at impossible times. Arguments of time for most timer functions only represent an approximation. Timer events are coming along with system interrupts. Thus two conditions must be met:
- An interrupt has to occur
- The desired timeout value has to expire.
Only if those to condition are met, the system timers will "fire".
You may use the systems multimedia interface to increase the systems interrupt frequency up to in the 1ms regime.
You may even use the high resolition timers in a separat thread of high priority to spin for a specific time and set a named event on which your code can wait for. This will be independent of the systems interrupt period and can deliver high resolution. More details on such an approach can be found at the Window Timestamp Project.