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I'm implementing k-means, on GPU and for now i have the folowing code:

__device__ unsigned int cuda_delta = 0;

__global__ void kmeans_kernel(const sequence_t *data,
                          const sequence_t *centroids,
                          int * membership,
                          unsigned int n,
                          unsigned int numClusters )
{
int index = blockIdx.x * blockDim.x  + threadIdx.x;
if (index < n){

    int min_distance = INT_MAX;
    int nearest = -1;

    for (int i = 0; i < numClusters; i++){
        sequence_t centroid = centroids[i];
        int distance = distance(centroid, data[index]);
        if(distance < min_distance) {
            nearest = i;
            min_distance = distance;
        }
    }

    if(membership[index] != nearest) {
        membership[index]=nearest;
        atomicInc(&cuda_delta,n);
    }
}

As you can see, there is no data dependency on the algorithm, only in the variable cuda_delta, stored on global memory. According com the documentation:

An atomic function performs a read-modify-write atomic operation on one 32-bit or 64-bit word residing in global or shared memory

It is exactly what i need. Edit - here is all my host code

unsigned int delta=0; //Number of objects has diverged in current iteration

label = (int*)calloc(data_size,sizeof(int));
centroids = (sequence_t*)calloc(clusters,sizeof(sequence_t));

// cuda variables
sequence_t * cuda_data = NULL;
sequence_t * cuda_centroids = NULL;
int *cuda_membership = NULL;
unsigned int *cuda_tmp_centroidCount = NULL;

const unsigned int threadsPerBlock = 1024;
const unsigned int numBlocks = (data_size + threadsPerBlock - 1) / threadsPerBlock;
const unsigned int numBlocks2 = (clusters + threadsPerBlock - 1) / threadsPerBlock;

for(unsigned int i = 0;i < clusters;i++) {
    int h = i * data_size / clusters;
    centroids[i] = make_ulong3(data[h].x,data[h].y,data[h].z);
}

memset (label,-1,data_size * sizeof(int));

checkCuda(cudaMalloc(&cuda_data, data_size * sizeof(sequence_t)));
checkCuda(cudaMalloc(&cuda_centroids, clusters * sizeof(sequence_t)));
checkCuda(cudaMalloc(&cuda_membership, data_size * sizeof(int)));
checkCuda(cudaMalloc(&cuda_tmp_centroidCount, clusters * BIT_SIZE_OF(sequence_t) *sizeof(unsigned int)));


checkCuda(cudaMemcpy(cuda_data,data, data_size *sizeof(sequence_t) , cudaMemcpyHostToDevice));
checkCuda(cudaMemcpy(cuda_centroids, centroids, clusters *sizeof(sequence_t) , cudaMemcpyHostToDevice));
checkCuda(cudaMemcpy(cuda_membership, label, clusters *sizeof(int) , cudaMemcpyHostToDevice));
int pc = 0;

do {

    cudaMemset (cuda_tmp_centroidCount,0,clusters * BIT_SIZE_OF(sequence_t) *sizeof(unsigned int));
    delta = 0;
    checkCuda(cudaMemcpyToSymbol(cuda_delta, &delta,sizeof(unsigned int),0,cudaMemcpyHostToDevice));
    kmeans_kernel <<< numBlocks,threadsPerBlock>>>(cuda_data,
                                                   cuda_centroids,
                                                   cuda_membership,
                                                   data_size,
                                                   clusters); 
    cudaDeviceSynchronize();
    checkCuda(cudaMemcpyFromSymbol(&delta,cuda_delta,sizeof(unsigned int)));
    printf ("%d - delta = %d\n",pc,delta);
    checkCuda(cudaGetLastError());
    pc++;
}
while(delta > 0);
// copy output
checkCuda(cudaMemcpy(label,cuda_membership, clusters *sizeof(int) , cudaMemcpyDeviceToHost));
checkCuda(cudaMemcpy(centroids,cuda_centroids, clusters *sizeof(sequence_t) , cudaMemcpyDeviceToHost));

// free cuda memory
checkCuda(cudaFree(cuda_data));
checkCuda(cudaFree(cuda_centroids));
checkCuda(cudaFree(cuda_membership));
checkCuda(cudaFree(cuda_tmp_centroidCount));
checkCuda(cudaDeviceReset());

The delta value printed on the first iteration changes if i run the code multiple times, and it shouldn't. Most of the time the values printed are:

0 - delta = 18630
0 - delta = 859

The expected value is 18634. Am i missing something here ?

Edit The full code is available on github, to run the example just compile using make. And run the program using the following arguments, multiple times and you will see the delta value for the first iteration is not always the expected.

./cuda-means mus_musmusculus.dat 859

Thanks in advanced!

share|improve this question
    
Are you sure you wanted cudaInc, and not cudaAdd? –  SinisterMJ Sep 17 '13 at 3:12
    
    
Yes, i want cudaInc. I already looked up this question, but it's not the case. The n value is correctly, some time the value printed is the expected one "18634". But Thanks anyway. –  Guilherme Torres Castro Sep 17 '13 at 3:25
1  
You don't appear to be doing proper cuda error checking on the kernel. You might also try running your code with cuda-memcheck. –  Robert Crovella Sep 17 '13 at 4:06
1  
An SSCCE.org code is not your "full code". It's a small subset which compiles and demonstrates the problem. You are supposed to do some work to create this, not just dump your full code in a github repository. –  Robert Crovella Sep 17 '13 at 13:39

2 Answers 2

cudaMemcpyToSymbol(cuda_delta, &delta,sizeof(unsigned int));

and

cudaMemcpyFromSymbol(&delta,cuda_delta,sizeof(unsigned int));

are your problems.

From the documentation:

    cudaError_t cudaMemcpyFromSymbol ( void* dst, const void* symbol, size_t count, size_t offset = 0, cudaMemcpyKind kind = cudaMemcpyDeviceToHost )
Copies data from the given symbol on the device.
    Parameters

dst
    - Destination memory address 
symbol
    - Device symbol address 
count
    - Size in bytes to copy 
offset
    - Offset from start of symbol in bytes 
kind
    - Type of transfer

cudaMemcpyFromSymbol expects the adress the symbole as second parameter not the device symbol.

You can optain the address of a symbol using cudaGetSymbolAddress ( void** devPtr, const void* symbol )

void* is pure evil...

share|improve this answer
    
This is working fine, the actual problem is describe in my answer. You can check that on docs.nvidia.com/cuda/cuda-c-programming-guide/index.html. Just control + f for "cudaMemcpyToSymbol(devData, &value, sizeof(float));" –  Guilherme Torres Castro Sep 19 '13 at 20:28

Shame on me! The atomic operation was working perfectly.

I was not "memseting" membership array. After i fix it, everything is working.

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