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When I started programming in OpenCL I used the following approach for providing data to my kernels:

cl_mem buff = clCreateBuffer(cl_ctx, CL_MEM_READ_WRITE, object_size, NULL, NULL);
clEnqueueWriteBuffer(cl_queue, buff, CL_TRUE, 0, object_size, (void *) object, NULL, NULL, NULL);

This obviously required me to partition my data in chunks, ensuring that each chunk would fit into the device memory. After performing the computations, I'd read out the data with clEnqueueReadBuffer(). However, at some point I realised I could just use the following line:

cl_mem buff = clCreateBuffer(cl_ctx, CL_MEM_READ_WRITE | CL_MEM_USE_HOST_PTR, object_size, (void*) object, NULL);

When doing this, the partitioning of the data became obsolete. And to my surprise, I experienced a great boost in performance. That is something I don't understand. From what I got, when using a host pointer, the device memory is working as a cache, but all the data still needs to be copied to it for processing and then copied back to main memory once finished. How come using an explicit copy ( clEnqueRead/WriteBuffer ) is an order of magnitude slower, when in my mind it should be basically the same? Am I missing something?

Thanks.

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Yes, you're missing the CL_TRUE in the clEnqueueWriteBuffer call. This makes the write operation blocking, which stalls the CPU while the copy is made. Using the host pointer, the OpenCL implementation can "optimize" the copy by making it asynchronous, thus in overall the performance is better.

Note that this depends on the CL implementation, and there's no guarantee that will be faster/equal/slower.

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I am aware of the blocking flag on clEnqueueRead/WriteBuffer. However when I did the measures, I used a clFinish (at least I'm pretty sure I did), which should have the same effect as the blocking flag, or not? That is, of course, only if the same amount of data is processed. Hm, maybe the CL implementation is smart enough to leave out the part of an object that is not accessed (some 70% of it)... Thanks anyway! –  VHristov Aug 10 '10 at 17:09
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