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I have a dedicated compute GPU in my computer (not used for display). It's properties are:

Device 0: "Tesla C2050"
CUDA Driver Version / Runtime Version          6.0 / 6.0
CUDA Capability Major/Minor version number:    2.0
Total amount of global memory:                 2688 MBytes (2818244608 bytes)
(14) Multiprocessors, ( 32) CUDA Cores/MP:     448 CUDA Cores
GPU Clock rate:                                1147 MHz (1.15 GHz)
Memory Clock rate:                             1500 Mhz
Memory Bus Width:                              384-bit
L2 Cache Size:                                 786432 bytes
Maximum Texture Dimension Size (x,y,z)         1D=(65536), 2D=(65536, 65535), 3D=(2048, 2048, 2048)
Maximum Layered 1D Texture Size, (num) layers  1D=(16384), 2048 layers
Maximum Layered 2D Texture Size, (num) layers  2D=(16384, 16384), 2048 layers
Total amount of constant memory:               65536 bytes
Total amount of shared memory per block:       49152 bytes
Total number of registers available per block: 32768
Warp size:                                     32
Maximum number of threads per multiprocessor:  1536
Maximum number of threads per block:           1024
Max dimension size of a thread block (x,y,z): (1024, 1024, 64)
Max dimension size of a grid size    (x,y,z): (65535, 65535, 65535)
Maximum memory pitch:                          2147483647 bytes
Texture alignment:                             512 bytes
Concurrent copy and kernel execution:          Yes with 2 copy engine(s)
Run time limit on kernels:                     No
Integrated GPU sharing Host Memory:            No
Support host page-locked memory mapping:       Yes
Alignment requirement for Surfaces:            Yes
Device has ECC support:                        Enabled
Device supports Unified Addressing (UVA):      Yes

I am trying to run the following simple program on it (copy an array to the device):

#include <cuda.h>
#include <curand_kernel.h>

#define N 252000 

int main( void ) {
    int a[N];
    int *dev_a;
    cudaSetDevice(0);

    cudaMalloc( (void**)&dev_a, N * sizeof(int) );
    for (long i=0; i<N; i++) {
        a[i] = 1;
    }
    cudaMemcpy( dev_a, a, N * sizeof(int), cudaMemcpyHostToDevice ); //**Crashes here**

    cudaFree( dev_a );
    cudaDeviceReset();
    return 0;
}

If N = 251000 the program works. But if N = 252000 the program crashes at cudaMemcpy(). Any idea why this might be happening?

share|improve this question
up vote 5 down vote accepted

Congratulations, you've just found the limit on your stack size:

int a[N];

allocate your host array dynamically instead:

int *a = (int *)malloc(N*sizeof(int));

This will allocate from the heap instead. If you search on SO you will find many questions like this one that explain stack vs. heap allocations, and the limitations.

share|improve this answer
    
Thanks Robert. That worked. Do you know why the program crashed at cudaMemcpy? Why wouldn't it crash when I loop over each element of the array and fill it with 1 if I had reached the stack size limit? – Joel Vroom May 23 '14 at 17:04
2  
I do not know exactly. A corrupted stack can lead to very strange program behavior. For example, the actual allocation int a[N]; may not actually corrupt the stack, even though it may not be supportable. Then you actually write to every location in that allocation, which does corrupt the stack, because your write operation is overwriting data it should not. Now further program activities (cudaMemcpy- a function call which uses the stack to pass parameters and return address) are now operating in a program with a corrupted stack, and bad things happen. But all that is just speculation. – Robert Crovella May 23 '14 at 17:48

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