So I have a cube of images. 512X512X512, I want to sum up the images pixel-wise and save it to a final resulting image. So if all the pixels were value 1...the final image would all be 512. I am having trouble understanding the indexing to do this in CUDA. I figure one thread's job will be to sum up all 512 at it's pixel...so the total thread number will be 512X512. So I plan to do it with 512 blocks, with 512 threads each. From here, I am having trouble coming up with the indexing of how to sum the depth. Any help will be greatly appreciated.
One way to solve this problem is imaging the cube as a set of Z slides. The coordinates X, Y refers to the width and height of the image, and the Z coordinate to each slide in the Z dimension. Each thread will iterate in the Z coordinate to accumulate the values.
With this in mind, configure a kernel to launch a block of 16x16 threads and a grid of enough blocks to process the width and height of the image (I'm assuming a gray scale image with 1 byte per pixel):
If you are clear how to index a 2D array, loop through the Z dimension would be also clear
This is a naive implementation. In order to maximize memory throughput, the data should be properly aligned.
This can be done easily using ArrayFire GPU library ( free). In ArrayFire, you can construct 3D arrays like the following :