Is it possible to dynamically allocate global memory from the kernel? In CUDA it is possible but I would like to know if this is also possible in OpenCL on Intel GPUs.

for example:

__kernel void foo()



call malloc or clCreateBuffer here


is it possible? If yes how exactly?

1 Answer 1


No, this is not currently allowed in OpenCL.

You could implement your own heap by creating one very large buffer up front, and then 'allocate' regions of the buffer by handing out offsets (using atomic_add to avoid synchronisation issues). However, in most cases I suspect it would be better just to rethink your algorithm and come up with an approach that doesn't require dynamic memory allocation in the first place.

Here's an example that uses a preallocated buffer to emulate dynamic heap allocation inside kernels. The heap and index of the next free element are passed into the kernel as arguments, and need to passed onto our malloc function. In OpenCL 2.0, we could use program scope global variables to avoid the need to do this.

global void* malloc(size_t size, global uchar *heap, global uint *next)
  uint index = atomic_add(next, size);
  return heap+index;

kernel void foo(global uchar *heap, global uint *next)
  // Allocate some memory from heap
  global void *data = malloc(4, heap, next);
  • Could you please elaborate more on this atomic_add usage ? Aug 23, 2014 at 12:11
  • @user3891236 I've added a simple example that shows how you can emulate a heap.
    – jprice
    Aug 23, 2014 at 12:27
  • This is allocated in Host or device ? Aug 23, 2014 at 13:05
  • 1
    You allocate the heap all at once on the host, and then distribute smaller chunks of that buffer on the device with this malloc function.
    – jprice
    Aug 23, 2014 at 13:37
  • Some address offsets may not satisfy alignment restrictions for some structs so it may require same sized structs/variables only, unless there is variable padding added to 'size'. Apr 17, 2016 at 9:05

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