EDIT: I've edited my answer to fix some of the deficiencies pointed out in the other answers (@tudorturcu) and comments.
- Use CURAND to generate a uniform
distribution
between 0.0 and 1.0. Note: 1.0 is included and 0.0 is excluded
- Then multiply this by the desired range (largest value - smallest
value + 0.999999).
- Then add the offset (+ smallest value).
- Then truncate to an integer.
Something like this in your device code:
int idx = threadIdx.x+blockDim.x*blockIdx.x;
// assume have already set up curand and generated state for each thread...
// assume ranges vary by thread index
float myrandf = curand_uniform(&(my_curandstate[idx]));
myrandf *= (max_rand_int[idx] - min_rand_int[idx] + 0.999999);
myrandf += min_rand_int[idx];
int myrand = (int)truncf(myrandf);
You should:
#include <math.h>
for truncf
Here's a fully worked example:
$ cat t527.cu
#include <stdio.h>
#include <curand.h>
#include <curand_kernel.h>
#include <math.h>
#include <assert.h>
#define MIN 2
#define MAX 7
#define ITER 10000000
__global__ void setup_kernel(curandState *state){
int idx = threadIdx.x+blockDim.x*blockIdx.x;
curand_init(1234, idx, 0, &state[idx]);
}
__global__ void generate_kernel(curandState *my_curandstate, const unsigned int n, const unsigned *max_rand_int, const unsigned *min_rand_int, unsigned int *result){
int idx = threadIdx.x + blockDim.x*blockIdx.x;
int count = 0;
while (count < n){
float myrandf = curand_uniform(my_curandstate+idx);
myrandf *= (max_rand_int[idx] - min_rand_int[idx]+0.999999);
myrandf += min_rand_int[idx];
int myrand = (int)truncf(myrandf);
assert(myrand <= max_rand_int[idx]);
assert(myrand >= min_rand_int[idx]);
result[myrand-min_rand_int[idx]]++;
count++;}
}
int main(){
curandState *d_state;
cudaMalloc(&d_state, sizeof(curandState));
unsigned *d_result, *h_result;
unsigned *d_max_rand_int, *h_max_rand_int, *d_min_rand_int, *h_min_rand_int;
cudaMalloc(&d_result, (MAX-MIN+1) * sizeof(unsigned));
h_result = (unsigned *)malloc((MAX-MIN+1)*sizeof(unsigned));
cudaMalloc(&d_max_rand_int, sizeof(unsigned));
h_max_rand_int = (unsigned *)malloc(sizeof(unsigned));
cudaMalloc(&d_min_rand_int, sizeof(unsigned));
h_min_rand_int = (unsigned *)malloc(sizeof(unsigned));
cudaMemset(d_result, 0, (MAX-MIN+1)*sizeof(unsigned));
setup_kernel<<<1,1>>>(d_state);
*h_max_rand_int = MAX;
*h_min_rand_int = MIN;
cudaMemcpy(d_max_rand_int, h_max_rand_int, sizeof(unsigned), cudaMemcpyHostToDevice);
cudaMemcpy(d_min_rand_int, h_min_rand_int, sizeof(unsigned), cudaMemcpyHostToDevice);
generate_kernel<<<1,1>>>(d_state, ITER, d_max_rand_int, d_min_rand_int, d_result);
cudaMemcpy(h_result, d_result, (MAX-MIN+1) * sizeof(unsigned), cudaMemcpyDeviceToHost);
printf("Bin: Count:
");
for (int i = MIN; i <= MAX; i++)
printf("%d %d
", i, h_result[i-MIN]);
return 0;
}
$ nvcc -arch=sm_20 -o t527 t527.cu -lcurand
$ cuda-memcheck ./t527
========= CUDA-MEMCHECK
Bin: Count:
2 1665496
3 1668130
4 1667644
5 1667435
6 1665026
7 1666269
========= ERROR SUMMARY: 0 errors
$
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