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I tried to implement cumulative sum with opencl as follows:

__kernel void cumsum(__global float *a)
{
    int gid = get_global_id(0);
    int n = get_global_size(0);

    for (int i = 1; i < n; i <<= 1)
        if (gid & i)
            a[gid] += a[(gid & -i) - 1];
}

I called this code using pyopencl:

import pyopencl as cl
import pyopencl.array as cl_array
import numpy as np

a = np.random.rand(50000).astype(np.float32)

ctx = cl.create_some_context()
queue = cl.CommandQueue(ctx)

a_dev = cl_array.to_device(queue, a)

with open("imm/cluster.cl", 'r') as f:
    prg = cl.Program(ctx, f.read()).build()

prg.cumsum(queue, a.shape, None, a_dev.data)
print(np.cumsum(a)[:33], a_dev[:33])

However, the first 32 numbers are correct, after which they're wrong (too low). Is this something to do with the work group sizes? How do I fix this?

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1 Answer 1

up vote 2 down vote accepted

When i becomes large enough, you will be reading the output of another work-group. Nothing in the OpenCL execution model guarantees this other work-group will have finished execution.

In general it will not be the case, and you will read a partial sum, getting lower values than expected at the end.

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Thank you. I believe these are called "scanning algorithms"? Do you by any chance know of a good tutorial? –  Neil G Sep 2 '13 at 4:19
    
Since you are using PyOpenCL, you could probably take a look at its implementation of such algorithms. –  Bogdan Sep 2 '13 at 5:01
    
@bogdan: Thank you, I did find that page, but it's not the clearest tutorial. I'm reading the specification pdfs, which are more complete, but not the greatest. –  Neil G Sep 2 '13 at 5:07
    
This answer is correct. However, the problem I was seeing was happening at element 32 — much smaller than the work group size (400). Adding a memory barrier caused the problem to happen at element 400 as predicted by Eric. –  Neil G Sep 2 '13 at 5:09

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