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What are the pitfalls I need to be aware of to use QueryPerformanceCounter/QueryPerformanceFrequency to throttle down clock speed for a CPU emulator on Win32?

The CPU is to a specification of my own design, intended as a low-power general performance microprocessor (I intend to use it primarily to run shipboard computers for addon spacecraft created for the Orbiter space flight simulator). I get the difference between clock speed and instructions per second, etc., and working that out is an ongoing part of my design, but at the end of the day I need to be able to wait a given time, equal to clock period * number of cycles the instruction requires, before moving on to the next instruction. So what drawbacks and considerations do I need to be aware of with QueryPerformanceCounter as far as, e.g. the Windows scheduler switching the processor to different tasks before coming back to it, etc.

Also, are there better ways to do this besides spinning on QueryPerformanceCounter until I detect that the appropriate interval has passed? Sleep only provides millisecond (at best) resolution, which is far coarser than appropriate.

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This makes little sense, having the simulation run fast isn't a problem. Just count simulator cycles and use GetThreadTimes() to measure the test. And divide all results you get by how much faster the simulator ran. –  Hans Passant May 25 '12 at 1:14
    
@HansPassant I'm not sure what you're saying; I'm thinking we might be talking past each other. I want the emulated CPU to run at a certain set clock speed. So, say that speed is 1 MHz, and the given instruction takes four cycles to complete, then I want to delay beginning to execute the next instruction until four microseconds after I began executing the first instruction. –  Steely Dan May 25 '12 at 1:20
    
Let's try a different tack. Say they change the spec and make it a 16 MHz processor and you find out your simulator cannot keep up. What do you do about it? –  Hans Passant May 25 '12 at 1:25
    
Give up. I'm perfectly fine with that in that case. Well, actually I'm not, but I'm not to the point of dealing with that problem yet. That complicates the issue needlessly at this stage. Handling those cases will probably consist of recognizing that we can't keep up and just doing the best we can. At the moment, I'm concerned with the problem of how to synchronize the CPU clock speed with real time; I'll build on other problems when I get there. One step at a time. –  Steely Dan May 25 '12 at 1:26

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