I wrote simple kernel code, trying to manipulate one dimensional array elements:

```
#include "stdio.h"
__global__ void Loop(double *X, int CellsNum, int VarNum,const double constant1)
{
int idx = threadIdx.x+blockDim.x*blockIdx.x;
int i = (idx+1)*VarNum ;
double exp1,exp2,exp3,exp4 ;
if(idx<CellsNum-2) {
exp1=double(0.5)*(X[i+6+VarNum]+X[i+6])+X[i+10] ;
exp2=double(0.5)*(X[i+8+VarNum]+X[i+8]) ;
if(i==0) {
printf("%e %e",exp1,exp2) ;
}
exp3=X[i+11]-constant1*(exp1*exp2)/X[i+5] ;
exp4=constant1*(X[i+9]*exp1-X[i+9-VarNum]*exp2)/X[i+5] ;
X[i+12]=exp3+exp4;
}
}
extern "C" void cudacalc_(double *a, int* N1, int* N2, double* N3)
{
int Cells_Num = *N1;
int Var_Num = *N2;
double constant1 = *N3;
Loop<<<1,Cells_Num>>>(a,Cells_Num,Var_Num,constant1);
}
```

But it doesn't work if I comment this piece of code:

```
if(i==0) {
printf("%e %e",exp1,exp2) ;
}
```

even when variable i always greater then zero. Than I do comment this lines code produces NaN in X array. I'm trying to run this code compiled with -arch sm_20 flag on Tesla GPU. Maybe somebody can help me with this issue ?

`exp1`

and`exp2`

, but the more aggressive optimization may require more register usage. If the number of registers per thread times the number of threads per block exceeds the limit, your kernel will fail to launch (and return an error code). – Robert Crovella Aug 23 '13 at 23:01`X[i+12]`

. But each thread also reads from several different locations in`X`

, so threads are reading values that are being written by other threads. That looks like trouble if`Cells_Num`

is larger than 32. Adding or removing the`printf`

statement could be affecting the outcome of the various races. See if the problem goes away by having the code write to a separate output array, like`Xo[i+12]`

or something like that. – Robert Crovella Aug 23 '13 at 23:22