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I want to traverse a tree at GPU with OpenCL, so i assemble the tree in a contiguous block at host and i change the addresses of all pointers so as to be consistent at device as follows:

TreeAddressDevice = (size_t)BaseAddressDevice + ((size_t)TreeAddressHost - (size_t)BaseAddressHost);

I want the base address of the memory buffer: At host i allocate memory for the buffer, as follows: cl_mem tree_d = clCreateBuffer(...);

The problem is that cl_mems are objects that track an internal representation of the data. Technically they're pointers to an object, but they are not pointers to the data. The only way to access a cl_mem from within a kernel is to pass it in as an argument via setKernelArgs.

Here http://www.proxya.net/browse.php?u=%3A%2F%2Fwww.khronos.org%2Fmessage_boards%2Fviewtopic.php%3Ff%3D37%26amp%3Bt%3D2900&b=28 i found the following solution, but it doesnot work:

__kernel void getPtr( __global void *ptr, __global void *out )

    {
    *out = ptr;
    }

that can be invoked as follows

Code:

...

    cl_mem auxBuf = clCreateBuffer( context, CL_MEM_READ_WRITE, sizeof(void*), NULL, NULL );
    void *gpuPtr;

    clSetKernelArg( getterKernel, 0, sizeof(cl_mem), &myBuf );
    clSetKernelArg( getterKernel, 1, sizeof(cl_mem), &auxBuf );
    clEnqueueTask( commandQueue, getterKernel, 0, NULL, NULL );
    clEnqueueReadBuffer( commandQueue, auxBuf, CL_TRUE, 0, sizeof(void*), &gpuPtr, 0, NULL, NULL );

    clReleaseMemObject(auxBuf);

...

Now "gpuPtr" should contain the address of the beginning of "myBuf" in GPU memory space.

The solution is obvious and i can't find it? How can I get back a pointer to device memory when creating buffers?

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1 Answer 1

It's because in the OpenCL model, host memory and device memory are disjoint. A pointer in device memory will have no meaning on the host.

You can map a device buffer to host memory using clEnqueueMapBuffer. The mapping will synchronize device to host, and unmapping will synchronize back host to device.

Update. As you explain in the comments, you want to send a tree structure to the GPU. One solution would be to store all tree nodes inside an array, replacing pointers to nodes with indices in the array.

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Thank you fo the answer... :D With flag CL_MEM_ALLOC_HOST_PTR the application wants the OpenCL implementation to allocate memory from host accessible memory, it's like pinned memory at CUDA. But, i don't want this. I need to copy the whole tree to device, but i should change the addresses in host: (size_t)base address of memory object on device +((size_t)Ptr - (size_t)HostPtr). For this reason, i need the base address of memory object on device. Is there any way? –  zoe vas Jan 15 '13 at 12:58
    
@zoevas No, you're not doing it the right way. Your tree should not care about the "base address" and should be using offsets (or indices, as Eric suggested). In each node on the host, compute (nodeAddress - baseAddress) / nodeSize and that's your offset. On the device, access a node by using nodeList[nodeOffset]. –  Thomas Mar 2 '13 at 6:14

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