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I have 200 frames to be displayed per second. The frames are very very simple, black and white, just a couple of lines. A timer is driving the animation. The goal is to play back the frames at approx. 200 fps.

Under Linux I set the timer to 5 ms and I let it display every frame (that is 200fps). Works just fine but it fails under Win 7.

Under Win 7 (the same machine) I had to set the timer to 20 ms and let it display every 4 frame (50 fps × 4 = 200). I found these magic numbers by trial and error.

What should I do to guarantee (within reasonable limits) that the animation will be played back at a proper speed on the user's machine?

For example, what if the user's machine can only do 30 fps or 60 fps?

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You're almost never going to actually be able to display at 200fps. Most LCDs are currently displaying at 60hz. You might want to sample your animation data at 60fps to begin with, then go from there. –  Olhovsky Jan 27 '11 at 7:07

4 Answers 4

up vote 4 down vote accepted

The short answer is, you can't (in general).

For best aesthetics, most windowing systems have "vsync" on by default, meaning that screen redraws happen at the refresh rate of the monitor. In the old CRT days, you might be able to get 75-90 Hz with a high-end monitor, but with today's LCDs you're likely stuck at 60 fps.

That said, there are OpenGL extensions that can disable VSync (don't remember the extension name off hand) programmatically, and you can frequently disable it at the driver level. However, no matter what you do (barring custom hardware), you're not going to be able to display complete frames at 200 fps.

Now, it's not clear if you've got pre-rendered images that you need to display at 200 fps, or if you're rendering from scratch and hoping to achieve 200 fps. If it's the former, a good option might be to use a timer to determine which frame you should display (at each 60 Hz. update), and use that value to linearly interpolate between two of the pre-rendered frames. If it's the latter, I'd just use the timer to control motion (or whatever is dynamic in your scene) and render the appropriate scene given the time. Faster hardware or disabled VSYNC will give you more frames (hence smoother animation, modulo the tearing) in the same amount of time, etc. But the scene will unfold at the right pace either way.

Hope this is helpful. We might be able to give you better advice if you give a little more info on your application and where the 200 fps requirement originates.

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Thanks! :) There is no need to achieve 200 fps. I have to play back the motion recorded at 200 Hz at a speed that is a good a approximation of its real speed. So, I need seemingly 200 fps. I have so simple frames that rendering them is no problem. BTW, how can Linux render 200 fps? –  Ali Jan 26 '11 at 1:28
@Ali: Ahh, so I think you essentially want to sample and/or interpolate frames as in my first suggestion. Linux does it most likely by having vsync disabled and just living with the consequences (tearing). Updating the frame buffer at 200 fps is not the same thing as displaying at 200 fps. Essentially, you're viewing a 200 Hz scene through a 60 Hz strobe. –  Drew Hall Jan 26 '11 at 1:39
Thanks for the explanation! –  Ali Jan 26 '11 at 11:30

I've already read, that you've data sampled at 200Hz, which you want to play back at natural speed. I.e. one second of sampled data shall be rendered over one second time.

First: Forget about using timers to coordinate your rendering, this is unlikely to work properly. Instead you should measure the time a full rendering cycle (including v-sync) takes and advance the animation time-counter by this. Now 200Hz is already some very good time resolution, so if the data is smooth enough, then there should be no need to interpolate at all. So something like this (Pseudocode):

objects[] # the objects, animated by the animation
animation[] # steps of the animation, sampled at 200Hz
ANIMATION_RATE = 1./200. # Of course this shouldn't be hardcoded,
                         # but loaded with the animation data

animationStep = 0

timeLastFrame = None
    timeNow = now() # time in seconds with (at least) ms-accuracy
    if timeLastFrame:
        stepTime = timeNow - timeLastFrame
        stepTime = 0

    animationStep = round(animationStep + stepTime * ANIMATION_RATE)
    drawObjects(objects, animation[animationStep])

    timeLastFrame = timeNow

It may be, that your rendering is much faster than the time between screen refreshs. In that case you may want to render some of the intermediate steps, too, to get some kind of motion blur effect (you can also use the animation data to obtain motion vectors, which can be used in a shader to create a vector blur effect), the render loop would then look like this:

    timeNow = now() # time in seconds with (at least) ms-accuracy
    if timeLastFrame:
        stepTime = timeNow - timeLastFrame
        stepTime = 0

    timeRenderStart = now()
    animationStep = round(animationStep + stepTime * ANIMATION_RATE)
    drawObjects(objects, animation[animationStep])

    glFinish() # don't call SwapBuffers
    timeRender = now() - timeRenderStart


    intermediates = floor(stepTime / timeRender) - 1 # subtract one to get some margin
    backstep = ANIMATION_RATE * (stepTime / intermediates)
    if intermediates > 0:
        for i in 0 to intermediates:
            drawObjects(objects, animation[animationStep - i * backstep])

    timeLastFrame = timeNow
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Yes, this is another approach, thanks! But in my case the motion blur effect would be an overkill: I have a simple white stick figure consisiting of a couple of lines and the background is black. –  Ali Jan 26 '11 at 11:27

One way is to sleep for 1ms at each iteration of your loop and check how much time has passed.

If more than the target amount of time has passed (for 200fps that is 1000/200 = 5ms), then draw a frame. Else, continue to the next iteration of the loop.

E.g. some pseudo-code:

target_time = 1000/200; // 200fps => 5ms target time.
timer = new timer(); // Define a timer by whatever method is permitted in your
                     // implementation.
    if(timer.elapsed_time < target_time){

    timer.reset(); // Reset your timer to begin counting again.

    do_your_draw_operations_here(); // Do some drawing.


This method has the advantage that if the user's machine is not capable of 200fps, you will still draw as fast as possible, and sleep will never be called.

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I already draw as fast as possible, the problem is to play back the frames at seemingly 200 fps. Drawing every 4 frame at 50 fps is seemingly 200 fps. But how can I figure out how many frames the user's machine can draw per second? –  Ali Jan 26 '11 at 1:19
I guess I misunderstood what you wanted. –  Olhovsky Jan 26 '11 at 5:43
It sounds like you want to skip frames when you are drawing slow, because you have some source animation that is stored at 200fps. However, if you are generating the animation yourself, then I don't recommend "skipping" frames. –  Olhovsky Jan 26 '11 at 5:49

There are probably two totally independant factors to consider here:

  1. How fast is the users machine? It could be that you are not achieving your target frame rate due to the fact that the machine is still processing the last frame by the time it is ready to start drawing the next frame.

  2. What is the resolution of the timers you are using? My impression (although I have no evidence to back this up) is that timers under Windows operating systems provide far poorer resolution than those under Linux. So you might be requesting a sleep of (for example) 5 mS, and getting a sleep of 15 mS instead.

Further testing should help you figure out which of these two scenarios is more pertinent to your situation.

If the problem is a lack of processing power, you can choose to display intermediate frames (as you are doing now), or degrade the visuals (lower quality, lower resolution, or anything else that might help speed thigns up).

If the problem is timer resolution, you can look at alternative timer APIs (Windows API provides two different timer functionc alls, each with different resolutions, perhaps you are using the wrong one), or try and compensate by asking for smaller time slices (as in Kdoto's suggestion). However, doing this may actually degrade performance, since you're now doing a lot more processing than you were before - you may notice your CPU usage spike under this method.


As Drew Hall mentions in his answer, there's another whole site to this: The refresh rate you get in code may be very different to the actual refresh rate appearing on screen. However, that's output device dependent, and it sounds from your question like the issue is in code, rather than in output hardware.

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My solution does not add any significant processing time since sleep calls are only made if the user's machine is drawing too fast. A precise timer is not needed for my method either. –  Olhovsky Jan 26 '11 at 5:46
Thanks for tips! 1. The frames are so simple that even old machines should be able to render them in a timely manner. 2. Yes, timers can be very unreliable but in this case the timers seems to be accurate enough. –  Ali Jan 26 '11 at 11:16

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