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I have a buffer created with CL_MEM_USE_HOST_PTR | CL_MEM_READ_WRITE flags. I have used this in one kernel and then downloaded (queue.enqueueReadBuffer(...)) the data back to the host memory set when the buffer was created. I have modified these data on CPU and now I'd like to use them in another kernel. When I have uploaded (queue.enqueueWriteBuffer) the data manually using non-blocking write and then enqueued kernel with this buffer as argument, it returned the CL_OUT_OF_RESOURCES error. Blocking write was just fine.

Why did this happen? I thought that the blocking/non-blocking version only controls if I can work with the memory on CPU after the enqueueWriteBuffer call returns, with in-order queue there should be no difference for the kernel. Second question is whether I have to upload it manually at all - does the CL_MEM_USE_HOST_PTR mean that the data has to be uploaded from host to device in for every time some kernel uses the buffer as argument? As I have to download the data manually when I require them, has the above mentioned flag any pros?

Thanks

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1 Answer 1

I can't be sure of the specific problem for your CL_OUT_OF_RESOURCES error. This error seems to be raised as kind of a catch-all for problems in the system, so the actual error you're getting might be caused by something else in your program (maybe the kernel).

In regards to using the CL_MEM_USE_HOST_PTR, you still still have to manually upload the data. The OpenCL specification states:

This flag is valid only if host_ptr is not NULL. If specified, it indicates that the application wants the OpenCL implementation to use memory referenced by host_ptr as the storage bits for the memory object. OpenCL implementations are allowed to cache the buffer contents pointed to by host_ptr in device memory. This cached copy can be used when kernels are executed on a device.

For some devices the data will be cached on the device memory. In order to sync your data you would have to use some clEnqueueReadBuffer / clEnqueueWriteBuffer or clEnqueueMapBuffer / clEnqueueUnmapBuffer. For discrete CPU+GPU combinations (i.e. seperate GPU card), I'm not sure what benefit there would be to doing CL_MEM_USE_HOST_PTR, since the data will be cached anyway.

Upon reading the specification, there might be some performance benefit for using clEnqueueMapBuffer / clEnqueueUnmapBuffer instead of clEnqueueReadBuffer / clEnqueueWriteBuffer, but I haven't tested this for any real devices.

Best of luck!

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