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Sorry for start new question, I tried to use histogram.cu(in thrust example) to do the concentration, but its(brute force) time consuming if the number of particles are over 100k(takes about 5secs). What I want to do is calculate how many particles in each cell of the domain? assume cell size is 1 X 1 X 1, domain size is 100 X 100 X 100, there are 50k particles pos are (50, 50, 50),20k particles pos are (15, 15, 15),30k particles pos are (20, 20, 20). so cell(50, 50, 50) has 50k particles, cell(15, 15, 15)has 20k, cell(20, 20, 20)has 30k, no particles in other cells

my code is this posPtr* is an array of particles, device_cons* gonna be the output of concetration of each cell. But it doesnt work well, please help.(I think my shared memory control has some problem)

__global__ void concentration_kernel(float3* posPtr, uint* device_cons) 
{
    __shared__ uint cache[256];
    uint x = threadIdx.x + blockIdx.x * blockDim.x;
    uint y = threadIdx.y + blockIdx.y * blockDim.y;
    uint offset = x + y * blockDim.x * gridDim.x; 

    float3 posf3 = posPtr[offset];//make_float3(43.5,55,0.66);//
    uint cellIndex = (uint)(posf3.z+1)*153*110 + (uint)(posf3.y)*153 + (uint)posf3.x;

    cache[threadIdx.x] = device_cons[cellIndex];
    __syncthreads();
    uint a = cache[threadIdx.x];
    a++;
    cache[threadIdx.x] = a;
    __syncthreads();

    device_cons[cellIndex] = cache[threadIdx.x]; 
}

thanks!

for better understanding here is my c++ code

for(uint i=0; i<numParticles; i++)
{
  float3 posf3 = dev_pos[i]; 
  uint cellIndex = (uint)(posf3.z)*153*110 + 
       (uint)(posf3.y)*153 + (uint)posf3.x; 
  dev_con[cellIndex]++;
}

the domain size is(152, 110, 30) thats why I do

uint cellIndex = (uint)(posf3.z)*153*110 + 
       (uint)(posf3.y)*153 + (uint)posf3.x;

to get the cellindex of particles at Thanks

I figured it out.... use atomicAdd()...

share|improve this question
    
What does not work well? Is your code example simplified, or why you use shared memory just to increment a value that is not even used by other threads? Else here are just assumptions. Do you start your kernel with 256 threads, since this is the size of shared memory? Is cellIndex guaranteed to be smaller then device_cons size? A sketch about your intended algorithm would be helpfull to understand it. –  djmj Jul 19 '12 at 22:20
    
What does not work well? cell(50, 50, 50) has 237 particles, cell(15, 15, 15)has 121, cell(20, 20, 20)has 137, if I run with my code Is cellIndex guaranteed to be smaller then device_cons size? yes because the particle position can not be outside of domain –  user1536720 Jul 19 '12 at 22:50
    
cellIndex ofcell(50, 50, 50) is 50 *100*100 + 50*100 +50.(here domain size is 100X100X100). offset means the index of particles. my kernel just calculate how many particles in each cell.(if one particle pos is (50.5, 50.2, 50.3) ,then its in cell(50, 50, 50) the index of the cell is 50 *100*100 + 50*100 +50. device_cons[cellIndex]++ –  user1536720 Jul 19 '12 at 23:09
    
for better understanding here is my c++ code for(uint i=0; i<numParticles; i++) { float3 posf3 = dev_pos[i]; uint cellIndex = (uint)(posf3.z)*153*110 + (uint)(posf3.y)*153 + (uint)posf3.x; dev_con[cellIndex]++; } –  user1536720 Jul 19 '12 at 23:11
    
I figured it out.... use atomicAdd()...all good! –  user1536720 Jul 20 '12 at 5:00

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