I am working on a linux-based c++ OpenGL application, utilizing the Nvidia 290.10 64bit drivers. I am trying to reduce its memory footprint as it makes use of quite a lot of live data.

I've been using valgrind/massif to analyze heap usage, and while it helped me optimize various things, by now the largest chunk of heap memory used is allocated by libGL. No matter how I set the threshold, massif doesn't let me see in detail where those allocations come from, just that it's libGL. At peak times, I see about 250MB allocated by libGL (out of 900MB total heap usage). I hold a similar amount of memory on the graphics card, as VBOs and Textures (mostly one big 4096*4096 texture).

So it appears as if a similar amount of memory as what I upload to GPU memory is allocated on the heap by libGL. The libGL allocations also peak when the volume of VBOs peaks. Is that normal? I thought one of the benefits of having a lot of GPU memory is that it keeps the RAM free?

  • 1
    what usage did you specify for the VBO in glBufferData?
    – KillianDS
    May 22, 2012 at 8:26
  • For the bulk of the VBOs, it's GL_STATIC_DRAW. In one case it's GL_STREAM_DRAW, but the behaviour is the same even if this part of the application is disabled.
    – pholz
    May 22, 2012 at 9:59
  • @KillianDS doesn't matter, because usage is just a hint, not mandatory. Also OpenGL must keep a copy around for various reasons.
    – datenwolf
    May 22, 2012 at 12:50

1 Answer 1


What you experience is perfectly normal, because a OpenGL implementation must keep a copy of the data in system memory for various reasons.

In OpenGL there's no exclusive access to the GPU, so depending on its use, it may become neccessary to swap out data (or just release some objects from GPU memory). Also GPUs may crash and drivers then just silently reset them without the user noticing. This too requires a full copy of all the buffer data.

And don't forget that there's a major difference between address space allocation (the value reported by Valgrind) and actual memory utilization.

  • Thanks, I was suspecting it might be something like that. Now when the RAM is filled, is it less of a bad thing as long as a big part of the allocations come from libGL?
    – pholz
    May 22, 2012 at 13:21
  • 2
    pholz: Well, libGL is just where the code that does the allocations comes from, but the memory is effectively allocated by the process which allocated the OpenGL resources. And for the system there's no difference inbetween. Also modern operating systems don't differentiate between RAM and storage. For them, there's only "memory" and RAM is just another cache level. See this article for a very good introduction into modern memory usage varnish-cache.org/trac/wiki/ArchitectNotes
    – datenwolf
    May 22, 2012 at 13:37

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