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I am having trouble with this piece of CUDA code I have written. This is supposed to be the CUDA implementation of the Dijkstra's algorithm. The code is as follows:

    __global__ void cuda_dijkstra_kernel_1(float* Va, int* Ea, int* Sa, float* Ca, float* Ua, char* Ma, unsigned int* lock){

        int tid = blockIdx.x;
        if(Ma[tid]=='1'){
            Ma[tid] = '0';
            int ind_Ea = Sa[tid * 2];
            int num_edges = Sa[(tid * 2) + 1];
            int v;
            float wt = 0;
            unsigned int leaveloop;
            leaveloop = 0u;
            while(leaveloop==0u){
                if(atomicExch(lock, 1u) == 0u){
                    for(v = 0; v < num_edges; v++){
                        wt = (Va[tid * 3] - Va[Ea[ind_Ea + v] * 3]) * (Va[tid * 3] - Va[Ea[ind_Ea + v] * 3]) +
                                (Va[(tid * 3) + 1] - Va[(Ea[ind_Ea + v] * 3) + 1]) * (Va[(tid * 3) + 1] - Va[(Ea[ind_Ea + v] * 3) + 1]) + 
                                (Va[(tid * 3) + 2] - Va[(Ea[ind_Ea + v] * 3) + 2]) * (Va[(tid * 3) + 2] - Va[(Ea[ind_Ea + v] * 3) + 2]) ;
                        wt = sqrt(wt);

                        if(Ca[Ea[ind_Ea + v]] > (Ca[tid] + wt)){
                            Ca[Ea[ind_Ea + v]] = Ca[tid]  + wt;
                            Ma[Ea[ind_Ea + v]] = '1';
                        }
                        __threadfence();
                        leaveloop = 1u;
                        atomicExch(lock, 0u);
                    }
                }
            }
        }
    }

The problem is in the 'relaxation phase' of the dijkstra's algorithm. I have implemented the relaxation phase of the dijkstra's algorithm as a critical section. If there is a vertex (lets say 'a')which is a neighbour of more than one verticex (i-e connecting to them with an edge), then all of the threads for those vertices will try to write to the location of vertex 'a' in the Cost Array Ca. Now my goal is to have the smaller value written in that location. To do that, I am trying to serialize the process and applying __threadfence() as well so that value written by one thread is visible to others and then eventually the smaller value is retained in the location of vertex 'a'. But the problem is, that this logic is not working. The location of vertex 'a' does not get the smallest value of all the threads trying to write to that location and I dont understand why?? Any help will be highly appreciated.

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2  
why are you setting tid = blockIdx.x; ? Shouldn't you use something like tid = (blockIdx.x*blockdim.x) + threadIdx.x; ? As near as I can tell, all your threads in the block are executing exactly the same code. Is that your intent? what does your kernel launch invocation look like? –  Robert Crovella Oct 6 '12 at 21:32
    
Hi Robert, there are as many blocks in grid as there are vertices. And there is only one thread per block. So, one vertex is being processed by the only thread in a block, the cuda kernel invocation is like this: cuda_kernel<<<dimGrid, dimBlock>>>(argumentlist..), where dimGrid = (numVers, 1), and dimBlock = (1, 1) –  Ehtsham Elahi Oct 6 '12 at 22:30
1  
"And there is only one thread per block" --- that won't be efficient. Unless there is a really good reason for using CUDA this way - don't! –  CygnusX1 Oct 7 '12 at 6:14
1  
You may want to read this answer on graph algorithms on GPU: stackoverflow.com/a/2431326/1043187 –  BenC May 19 '13 at 13:48

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