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Below is cuda code I would expect to work. I'm getting a "double free or corruption" error. After much debugging, I've identified the offending line to be "cudaMemcpy(out, out_device...). I'm completely dumbfounded as to why this error persists. Any help would be appreciated. ComplexFloat is typedef-ed as float2.

void covariance2(float alpha, complex float* in, complex float* out, int dims[5])
    int x = dims[0];
    int y = dims[1];
    int z = dims[2];
    int N = dims[3];
    int M = dims[4];

    ComplexFloat* in_device;
    ComplexFloat* out_device;
    int siz = x*y*z*N*(N+1)/2;
    assert(cudaMalloc(&in_device, sizeof(ComplexFloat)*x*y*z*N*M) == cudaSuccess);
    assert(cudaMalloc(&out_device, sizeof(ComplexFloat)*siz) == cudaSuccess);
    assert(cudaMemcpy(in_device, in, sizeof(ComplexFloat)*x*y*z*N*M, cudaMemcpyHostToDevice) == cudaSuccess);
    dim3 numBlocks(x,y,z);
    dim3 numThreads(1);
    size_t sharedMem = N*M + N*(N+1)/2;

    cudaMemcpy(out, out_device, sizeof(ComplexFloat)*siz, cudaMemcpyDeviceToHost);

int main()
    int xxx = 2;
    int yyy = 2;
    int zzz = 1;
    int MMM = 7;
    int NNN = 3;
    int dims[5] = { xxx, yyy, zzz, MMM, NNN };
    float alpha = 5.;
    complex float a = 1.314 + 5.42*_Complex_I;
    complex float* in = (complex float*) malloc(sizeof(complex float)*NNN*MMM*xxx*yyy*zzz);
    for (int i = 0; i < xxx*yyy*zzz*MMM*NNN; i++)
        in[i] = a*pow(i,2);
    complex float* out = (complex float*) malloc(sizeof(complex float)*xxx*yyy*zzz*NNN*(NNN+1)/2);
    covariance2(alpha, in, out, dims);
    for (int i = 0; i < NNN*(NNN+1)/2; i++)
        printf("i = %d, real = %f, imag = %f\n", i, __real__(out[i]), __imag__(out[i]));
share|improve this question
Do you deliberately not have a kernal call in there? Currently, you are copying something into memory, and then copying other stuff out of memory. That other stuff will be junk, unless you do something to it. And you should definitely check that sizeof(ComplexFloat) == sizeof(complex float). One more thing: why would you want multiple blocks with only one active thread in them each? You are only going to get a maximum performance of 1/32 of what is possible doing it that way - the GPU processes in warps of 32 threads, regardless of how many you are actually using. –  3Pi Dec 20 '12 at 22:33
i did have a kernel call, I removed it just for the sake of the question. Once this works, I will add more threads. sizeof(complex float) == sizeof(float2). –  user1850462 Dec 21 '12 at 3:26

1 Answer 1

up vote 1 down vote accepted

Inside your covariance2 function you have:

int N = dims[3];
int M = dims[4];

but inside your main() you have:

int dims[5] = { xxx, yyy, zzz, MMM, NNN };

Note that M is a parameter preceding N in dims[]

Since your malloc (of out) and cudaMalloc (of out_device) depend on N, you are using two different values for N (3 and 7) to compute the sizes. This means out and out_device are not the same size, which I don't think was your intent. Since (size of) out was computed with N of 3, and (size of) out_device was computed with N of 7, you are trying to cudaMemcpy a larger data structure onto a smaller one. The fix is presumably something like this in covariance2:

int M = dims[3];
int N = dims[4];
share|improve this answer
It's the sly things like this that keep you on your toes :P –  3Pi Dec 21 '12 at 21:18

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