I am having a memory allocation problem I can't quite understand. I am trying to allocate a fairly large chunk of the GPU's memory (I am guessing it is probably a memory fragmentation issue perhaps?)

My very simplified code is:

#include <stdio.h>
#include <cuda.h>

int main()
    CUcontext ctx;
    CUdevice dev = 0;
    void *toSpace;
    CUdeviceptr ptr = (CUdeviceptr)NULL;
    int status;
    int size = 1280*1024*1024;

    status = cuInit(0);
    printf("status: %i\n",status); 

    status = cuCtxCreate(&ctx, 0, dev);
    printf("status: %i\n",status); 

    status = cuMemHostAlloc(&toSpace, size, 0); 
    printf("status: %i\n",status); 

    status = cuMemAlloc(&ptr, size);
    printf("status: %i\n",status); 

    status = cuCtxDestroy(ctx);
    printf("status: %i\n",status); 

    printf("\nPress any key to exit...");
    char c;
    scanf("%c", &c);

    return 0;


cuMemHostAlloc only lets me allocate 686MB, anymore and I get out of memory errors. But I have over 4GB free of RAM.

I then want to allocate GPU memory too if i try the allocating with cuMemAlloc I can do a maximum of 1279MB. But according to the device info I have 2048MB of which 1981MB are free.

If this is a fragmentation problem is there anyway to find the largest chunk of memory I can allocate?

Device info is

Version:                       2.1
Name:                          GeForce GT 525M
Total global memory:           1981/2047 (Free/Total) MBytes
Total registers per block:     32768    
Warp size:                     32
Maximum memory pitch:          2147483647
Maximum threads per block:     1024
Total shared memory per block  49152 Bytes
Clock rate:                    1 MHz
Memory Clock rate:             900000
Total constant memory:         65536
Integrated:                    0
Max threads per multiprocessor:1536
Number of multiprocessors:     2
Maximum dimension x of block:  1024
Maximum dimension y of block:  1024
Maximum dimension z of block:  64
Maximum dimension x of grid:   65535
Maximum dimension y of grid:   65535
Maximum dimension z of grid:   65535


So after mucking around alot the GPU memory allocation is fine I believe it is the host allocation going wrong.

Problem is I free'd up even more RAM now to 6GB (8GB total) and the host allocation still fails. If I try and malloc 4GB though it works fine.

  • Also I have another person trying the same code in which they can only allocate ~150MB. I haven't tried this on a discrete GPU though, only on my laptop – dblanky Aug 15 '12 at 12:35
  • The cuMemHostAlloc function, as its name suggests, allocates host memory, not device memory. – David Schwartz Aug 15 '12 at 12:35
  • I have plenty of host memory though, 4GB free? – dblanky Aug 15 '12 at 12:36
  • cuMemHostAlloc allocates page locked host memory, not GPU memory. What is it you are actually trying to do here? – talonmies Aug 15 '12 at 12:36
  • Sorry my mistake, I want to allocate a block of memory on both in the end, but I am having problems on both. Editted the mesage to reflect this. I am trying to debug someone else's code, from my understanding they are trying to allocate memory that is then used to transfer data to the gpu – dblanky Aug 15 '12 at 12:42

When you allocate with cudaMemHostAlloc(), CUDA uses native operating system calls to allocate page-locked host memory. The OS cannot page-lock all physical memory, so it's only willing to give CUDA a certain percentage of physical memory before it fails the call from CUDA, which then propagates the failure to your application. This behavior is OS-specific.

One avenue might be for you to allocate page-locked memory by other means (e.g. on Windows, call VirtualAlloc() with MEM_LARGE_PAGES and the resulting memory allocation is guaranteed to be page-locked), then call cuMemHostRegister(), which page-locks and maps an existing virtual memory range for the GPU. If the memory is already page-locked, this will just add a reference to the existing OS structures and the OS will not fail the page-locking part of the call. This strategy doesn't guarantee success, since cuMemHostAlloc() and cuMemHostRegister() both map the host pages into the GPU's address space, which does require some resource allocation that may fail; but it may work better than just asking CUDA for the pinned memory.

  • That's a very interesting work around! I've given it a go on Windows 7, using MEM_LARGE_PAGES was a pain to get working due to the fact my SeLockMemoryPrivilege privilege wasn't enabled. However I am getting "Insufficient system resources" errors when using VirtualAlloc with MEM_LARGE_PAGES, even when using the minimum large page size. i.e. char * p = (char * )VirtualAlloc( NULL, GetLargePageMinimum(), MEM_LARGE_PAGES|MEM_COMMIT|MEM_RESERVE, PAGE_READWRITE ); – dblanky Aug 17 '12 at 19:08
  • Interesting, sorry to hear it :-). Before you give up, you might want to try doing VirtualAlloc() without MEM_LARGE_PAGES. Using VirtualAlloc()/cuMemHostRegister() I have gotten Windows to page-lock up to 22G on a machine with 24G of physical, so I suspect it is not strictly a percentage, there are some absolute minimums that the OS is working around. Also, there are dependencies on whatever else is running in the system. – ArchaeaSoftware Aug 18 '12 at 2:54

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