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Is this even possible? Im learning DirectX atm and am trying to apply some of what i've learnt to OpenGL.

I know you can have multi-threaded rendering in DirectX using deferred contexts, but i didnt think OpenGL had this support, i've found examples of multithreading in OpenGL but not multithreaded rendering which is what im trying to find out; or maybe i've mis-understood the difference?

If it is possible, could anyone provide some basic code for me as an example.

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Just use asynchronous uploads.. also: opengl.org/wiki/OpenGL_and_multithreading –  harold Mar 13 '12 at 21:02
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I'm not sure what you'd gain from MT rendering. AFAIK, D3D and OpenGL must eventually serialise commands down to a single thread at the driver level. I imagine MT rendering just severely complicates the issue. –  Robinson Mar 13 '12 at 21:28
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"I know you can have multi-threaded rendering in DirectX using deferred contexts" That isn't multithreaded rendering. That's simply storing some rendering commands and playing them back. –  Nicol Bolas Mar 13 '12 at 22:00
    
The idea behind deferred contexts is that the driver work can be split across multiple CPU cores. Even if the instructions are eventually sent to the GPU sequentially, this could still be a performance gain if you were CPU limited. –  Tom Gillen May 11 '12 at 9:46

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OpenGL doesn't have an equivalent to D3D11's Deferred Contexts. The closest thing to that would be display lists, but these solve an entirely different problem and are very much not meant to be rebuilt over and over again.

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This is not really an answer to the OPs question, but it is of importance to his request:

The GPU is somewhat like a mutually exclusive resource. If you have multiple threads performing drawing operations you're generating management overhead. The work has to split up to shader units or some timeslicing is involved. Either way, if the drawing operations go to the same framebuffer the operations must be synchronized, which means the GPU pipelines get stalled quite oftenly.

The net result is, that performing multithreaded operation on a GPU will most likely result in largely reduced performance.

Also there's no need to do multithreaded operation on a GPU to parallelize the work. This already happens by single drawing operations being split up to the GPUs individual shader units.

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