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When we can get good speed with OpenGL since it uses texture memory and many inbuilt graphics functions(blending,mip map etc).

Why do we need OpenCL(slow beacuse of openCL buffers) interoperability with OpenGL just because the we can combine rendering with computation or are there any good advantages like performance.

I just wanted to know the main advantage of this and are there any published papers that shows that they got increase in performance by using OpenGL interoperability with OpenCL or any proof that showed increased in performance in terms of speed and quality.

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possible duplicate of OpenCL slower than OpenGL –  talonmies Mar 29 '12 at 7:35
    
I am not an expert in this field but I doubt in gaining some performance using OGL + OCL. When one wants to use OCL then it is needed to switch context and this can harm the performance. On the other hand some algorithms are easier to write using general purpose 'shaders' like in OpenCL. –  fen Mar 29 '12 at 8:06
    
@talonmies I am saerching for a proof for why khronos has added that interoperability previous question i was not satisfied , I just want that any one can say me where they have published some paper where they are getting quality or speed –  Megharaj Mar 29 '12 at 8:34
    
@fen i dont think so there will be overhead in switch the context , as they share the context and buffers . PLease can any one say me are there any papers on this . –  Megharaj Mar 29 '12 at 8:38
    
@Megharaj: That is all well and good (although I suspect you are tilting at windmills). But you have now asked practically the same question twice, and that isn't all well and good.... –  talonmies Mar 29 '12 at 9:23

1 Answer 1

up vote 10 down vote accepted

OpenGL is just about realtime rasterized graphics. Since it's limited in scope it can be more optimized for that task and most of the hardware is also designed for that.

OpenCL is about general computing. Folding Proteins. Weather prediction. High frequency trading. Simulating neurons. Machine learning, SETI, Signal Processing, BitCoin mining and so on.

But there are plenty of cross over areas in between.

Firstly a lot of that stuff does have visual components. Scientists might want to be able too see/interact with the folded protein for example without having to copy all that data off the GPU RAM onto the CPU's memory, process it so it's in a visual format, then send it back to the GPU.

Also games can use OpenCL. Take something like Minecraft. If you where making Minecraft using modern OpenGL (rather than OpenGL 1.3 which is what Minecraft actually uses), you would want to just upload the raw map data to the GPU. Use a single pass with a geometry/tessellation shader to turn that data into cubes and other shapes then use transform feedback to capture the result (you only have to run it once).

But Minecraft also has all kinds of rules about how to update the map. Calculate lighting. Grow trees. Make water flow. Explode TNT and so on. That's stuff that you wouldn't really be able to do with shaders (or maybe not with a single pass). You can do it on the CPU (which Minecraft does) but if you have seen those videos of people setting off 1000's of TNT's at once you see this lag massively. And water flowing can cause lag for everyone on a large server. You can do it using OpenCL than send it to OpenGL but if they link together it's more efficient.

You could use OpenCL to fake new OpenGL techniques. For example if you had OpenCL but didn't have Geometry/Tessellation shaders you could do that in OpenCL (of course currently in reality it's not that useful since most systems with outdated OpenGL implementations will also lack OpenCL support). Are there things like tessellation shaders that would be useful but just don't exist?

There are plenty of visual effects that you can't accomplish within the OpenGL pipeline (at least not efficiently). One example is real-time ray-tracing. Another is particle simulations. Procedural/fractal terrain generation.

There are also other things that are of use to help with games/realtime graphics. For example Physics simulations can be moved off the CPU. Also it would be great if the rendering pipeline/scenegraph itself could be moved to the GPU. This would significantly reduce the number of calls between the CPU and the GPU and make it much more parallel. There are plenty more things like raycasting, AI, path finding and so on. Basically anything that you calculate only to be seen visually.

Finally I'm sure there is plenty of other stuff that no one has even though of before but is now possible. We are increasingly pushing for parallel algorithms as the hardware heads in that direction.

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thanks a lot for your answer i was looking for this type of answer. Are there any published papers or article where they have achieved any advantage from this in any application? Once again thanks a lot for your answer –  Megharaj Mar 29 '12 at 10:09
    
@Megharaj I don't know of any papers that show the advantages of direct integration of OpenCL->OpenGL vs OpenCL->CPU->OpenGL (I'm sure there are plenty on OpenCL+OpenGL without being integration specific). It's just going to be a performance boost. It should be possible to accomplish everything without the direct integration that you can do with it except for requiring extra needless work on the CPU side with a few possible exceptions where the overhead might be too much (for example passing all the scenegraph calls from the GPU->CPU->GPU might be slower than just doing it on the CPU.). –  David C. Bishop Mar 31 '12 at 6:58

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