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I have this simple kernel for testing.

__kernel void nfa(__global const int *a, __global int *output)
{
        output[0] = a[0];
}

Note: This is running on a cpu, and memory is probably on the host. It results in this error.

* glibc detected ./program: malloc(): smallbin double linked list corrupted: 0x0000000000a4a540 **

I suspect somehow this is corrupting a part of the program, since it's accessing host memory. But as far I know all memory allocated correctly. It is on the stack, but stays in scope while running.

However if I do this:

   __kernel void nfa(__global const int *a, __global int *output)
    {
            a = a;
            output[0] = a[0];
    }

It results in the answer 2, which is correct since a is an array with [2, 4, 8];

An allocation to its self fixed the issue...

This is also fine, resulting in 4.

   __kernel void nfa(__global const int *a, __global int *output)
    {
            output[0] = a[1];
    }

It seems as though just accessing a[0], without assigning to its self causes the problem.

Does anyone know what's going on?

I'm on linux with AMD OpenCL Drivers(With an intel CPU, but I have a AMD Card).

Edit:

The code the buffer is created with(Condensed down, there is other code between the array and buffer):

int a[3];
a[0] = 2;
a[1] = 4;
a[2] = 8;

cl::Buffer bufferA = cl::Buffer(context, CL_MEM_READ_ONLY | CL_MEM_USE_HOST_PTR , sizeof(int) * 3, &a);
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Did you allocate the memory with malloc, or with clCreateBuffer()? I believe the latter is required, even if you're on a CPU device. –  Drew Hall Jul 17 '12 at 3:42
    
Memory is on the stack. clCreateBuffer is used(Well its equivalent i'm using c++ bindings), and the clCreateBuffer method is passed the pointer to the array, it uses the flag "CL_MEM_USE_HOST_PT". As far as i'm aware this can result in either using the memory directly, and copying it to the GPU. Since i'm not using the GPU, it is on the host. –  UK-AL Jul 17 '12 at 3:45
1  
Can we see your clSetKernelArg() call? –  Drew Hall Jul 18 '12 at 18:55
    
Why don't you test with CL_MEM_COPY_HOST_PTR? I mean, I don't see how you are making sure that OpenCL doesn't access the array after the function returned? –  Dudeson Mar 18 '13 at 8:03
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1 Answer

I may be wrong (I've not used C++ OpenCL but I believe its roughly the same as the C bindings) but I believe:

The last type the argument to the call to cl::Buffer is void*. What you want is a pointer to the block of memory you're passing in, in this case the array (which is auto converted to pointer because arrays). You've passed in a pointer to the array (ie pointer to pointer), which gets cast to void* quietly by the compiler. This means, you end up copying the array pointer, and then whatever happens to be after that by 2 ints in memory. I can imagine this causing poor results

I'm not sure why a=a or output = a[1] would fix it since I have no experience doing CPU OpenCL and I'm not sure how the specifics work. On a GPU you might be able to explain it away as the device caching the memory for performance reasons, and thus preventing the memory invalidation from occuring (or something)

Edit: Whoops, just realised how old this is, I should learn to read better

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