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I am dealing with a set of (largish 2k x 2k) images
I need to do per-pixel operations down a stack of a few sequential images.

Are there any opinions on using a single 2D large texture + calculating offsets vs using 3D arrays?

It seems that 3D arrays are a bit 'out of the mainstream' in the CUDA api, the allocation transfer functions are very different from the same 2D functions.

There doesn't seem to be any good documentation on the higher level "how and why" of CUDA rather than the specific calls

There is the best practices guide but it doesn't address this

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Are you reading the images multiple times ? Otherwise using textures seems a bit much.. –  Pavan Yalamanchili Jun 9 '11 at 17:40
@pavan I'm throwing a video sequence into the card and doing some image-image processing then rendering the processed video. Using opengl PBO's seemed the easiest approach –  Martin Beckett Jun 9 '11 at 17:43
I personally avoid using textures, primarily because their documentation is bad. Also binding and unbinding textures takes a lot of time. I can not comment on using cuda textures and opengl PBOs though. –  Pavan Yalamanchili Jun 9 '11 at 17:52

2 Answers 2

up vote 6 down vote accepted

I would recommend you to read the book "Cuda by Example". It goes through all these things that aren't documented as well and it'll explain the "how and why".

I think what you should use if you're rendering the result of the CUDA kernel is to use OpenGL interop. This way, your code processes the image on the GPU and leaves the processed data there, making it much faster to render. There's a good example of doing this in the book.

If each CUDA thread needs to read only one pixel from the first frame and one pixel from the next frame, you don't need to use textures. Textures only benefit you if each thread is reading in a bunch of consecutive pixels. So you're best off using a 3D array.

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I've read it, but 3D arrays are a new feature and aren't covered in the book. Using textures makes the openGL interop much easier and most image processing routines access adjacent pixels anyway. –  Martin Beckett Jun 9 '11 at 22:00
Sure, there's no problem with using textures. If you plan on using a small number of frames, then you can just define multiple 1D or 2D textures textures. You mentioned that you're doing things frame-to-frame so you just need 2 textures, say textures A and B. You load in frames 1 and 2 into A and B and then your kernels processes A and B. Then you simply replace frame 1 with frame 3, and your kernel will then process textures B and A (in that order), which is equivalent to processing frames 2 and 3. –  r2jitu Jun 10 '11 at 1:03
@r2jitsu - that's pretty much what I did. cuda support for arrays of textures is poor and the 3d was confusing so I just made the texture N times as high and tilled the frames to be processed. –  Martin Beckett Jun 10 '11 at 2:08

Here is an example of using CUDA and 3D cuda arrays: https://github.com/nvpro-samples/gl_cuda_interop_pingpong_st

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