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When we use nVidia GPU we can use UVA (unified virtual addressing) as on the picture. But we can use GPU+UVA from different CPU-processes with different contexts.

Will be UVA use the same Page-Table (virtual address <-> physical address) for UVA in all CPU-processes(contexts), look like as it done for kernel-space addressing, or for each of CPU-process will be created own Page-Table in their address space of this process (i.e. CPU-process can not write to memory(UVA) in GPU-RAM allocated by other CPU-process)?

enter image description here

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Different CPU processes have different process-based virtual to physical pointer mappings. Therefore a (virtual) pointer created in one CPU process cannot be reliably used in another process. UVA has no control over harmonizing separate CPU process virtual mappings.

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i.e. UVA-pointers from different CPU processes located in different Page-Table and in different virtual address spaces? But cudaHostAllocPortable isn't what we talking about? "cudaHostAllocPortable: The memory returned by this call will be considered as pinned memory by all CUDA contexts, not just the one that performed the allocation." developer.download.nvidia.com/compute/cuda/4_1/rel/toolkit/docs/… – Alex Nov 22 '13 at 16:31
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cudaHostAllocPortable is associated with a host memory allocation, not a "GPU-RAM" allocation. – Robert Crovella Nov 22 '13 at 16:39
    
Ok. Does it mean that cudaHostAllocPortable I can use to share host-memory between two devices (GPUs)? – Alex Nov 22 '13 at 16:55

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