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I'm new to Cuda and I'm trying to build a simple program for moleculare dynamics. After having written the code on c i translated it to CUDA where it did not to work. I simplified as much as possible the code and the problem seem to be that the function Position do not work although the copying process on device memory gives me no problem. This is the code

/* Programma di simulazione di dinamica molecolare */
#include <stdlib.h>
#include <stdio.h>
#include <math.h>
#include <cuda.h>

#define Natoms 256 // 4*(x^3) --> 32, 108, 256, 500, 864, ...
#define NUM_THREAD 64  // Number of threads per block
#define NUM_BLOCK (int) ceil (Natoms/NUM_THREAD)  // Numb of thread blocks

typedef struct{

    float x, y, z; // coordinates
    // free parameter

    } M_double4;

void Initialization (M_double4 *r); // initialises atoms configuration

    /****************************************************************************************/
/* positions updates */

__global__ void Position (M_double4 *d_r){

    int i = blockIdx.x*blockDim.x+threadIdx.x;

        d_r[i].x = 5.0;
        d_r[i].y = 5.0;
        d_r[i].z = 5.0;
}


int main () {

    int i;
    M_double4 *h_r;
    M_double4 *d_r;
    size_t size = NUM_BLOCK * NUM_THREAD * sizeof ( M_double4 );

    dim3 dimGrid (NUM_BLOCK, 1, 1);
    dim3 dimBlock (NUM_THREAD, 1, 1);

    FILE *fp;
    fp = fopen("analisic.dat","w+");  

    /* allocating memory on the host */
    h_r = ( M_double4 * ) malloc ( size );

    /* allocating memory on the device */
    cudaMalloc ((void**)&d_r, size);

    Initialization (h_r);
for (i=0;i<Natoms;i++)
fprintf (fp, "particle %d  r=%lf\n", i,sqrt(h_r[i].x*h_r[i].x+h_r[i].y*h_r[i].y+h_r[i].z*h_r[i].z));

    /* copying data from host to device */
     cudaMemcpy (d_r, h_r, size, cudaMemcpyHostToDevice);

    Position <<<dimGrid, dimBlock>>>(d_r);    

            /* controlling parameters copying them back on host memory */
            cudaMemcpy (h_r, d_r,size, cudaMemcpyDeviceToHost);

         for (i=0;i<Natoms;i++) fprintf (fp, " particle %d  r=%lf\n",i,sqrt(h_r[i].x*h_r[i].x+h_r[i].y*h_r[i].y+h_r[i].z*h_r[i].z));


    free (h_r); // freeing host memory

    cudaFree (d_r); // freeing device memory

    fclose(fp);
}
    /****************************************************************************************/
/* Questa funzione, chiamata una sola volta dal pogramma inizializza gli array di posizione     e velocità riscalando il momento totale a zero */

void Initialization (M_double4 *r){

        int i;
        for (i=0;i<Natoms;i++){

        r[i].x = 1.0;
        r[i].y = 1.0;
        r[i].z = 1.0;

    }
}

the result I get is r=1.732051 (sqrt(3)) for each particle, as if the function Position was not here. Thanks for help:)

share|improve this question
2  
Each CUDA API call returns an status. You should check them all to ensure that no errors are occurring at runtime. –  talonmies Oct 22 '12 at 21:32
    
Also, could you do something about your code formatting, the host code in particular is a real mess. –  talonmies Oct 22 '12 at 21:36
    
It's not the source of your present issues, but as a note, I don't think this is going to do what you want it to: #define NUM_BLOCK (int) ceil (Natoms/NUM_THREAD) The compiler will use an integer divide unless one of the two arguments is expressly a floating point argument. Taking the ceil of an integer divide is not a useful operation. –  Robert Crovella Oct 22 '12 at 21:50
3  
I ran your code and it works for me. the first 256 lines of analisic.dat show a particle xxx r= 1.732... and the last 256 lines of analisic.dat show particle xxx r = 8.660... Also none of the cuda calls are returning errors. So I think the problem is that the system you are running on does not have a cuda-enabled gpu that is properly available. You may want to try running nvidia-smi -a command or else run the deviceQuery sample from the cuda SDK/Samples. If you did error checking as @talonmies suggested, and a cuda enabled gpu was not present, one of the cuda calls would throw an error. –  Robert Crovella Oct 22 '12 at 21:57
    
Ok, I solved the problem for this small piece of code, in fact I was trying to compile with double while my gpu is of 1.1 compute capability, putting back float as in the code makes it working. Now the bigger problem is to make the whole code work, I try to post it if somebody wants to have a look on it. –  Manfredo Oct 23 '12 at 15:11
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