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I'm trying to use local pointers to access memory that the current thread has affinity for.

Unfortunately, my local pointers don't seem to point where I think they should.

Anyone have an idea what is going wrong?

Edit: I forgot to mention that the output below is generated running this code with four threads, i.e. THREADS = 4.

My code:

#include <upc.h>
#include <stdio.h>
#include <stdlib.h>

int main(){

    shared int * T = (shared int *) upc_all_alloc(12, sizeof(int));
    if(!T)
        upc_global_exit(-1);

int i;
upc_forall(i=0; i<12; i++; &T[i]) T[i] = i;
upc_barrier;

if(MYTHREAD == 0)
    for(i=0; i<12; i++) printf("thread %d, T[%d] = %d\n", MYTHREAD, i, T[i]);
upc_barrier;

int my_start = (12/THREADS + 1)*MYTHREAD;
int my_end = (12/THREADS + 1)*(MYTHREAD+1) - 1;

int* T_local = (int*)&T[my_start];

for(i=my_start; i<=my_end; i++)
    printf("thread %d, T_local[%d] = %d, T[%d] = %d\n", MYTHREAD, 
            i-my_start, T_local[i-my_start], i, T[i]);
upc_barrier;

return 0;
}

The output (THREADS = 4):

thread 0, T[0] = 0
thread 0, T[1] = 1
thread 0, T[2] = 2
thread 0, T[3] = 3
thread 0, T[4] = 4
thread 0, T[5] = 5
thread 0, T[6] = 6
thread 0, T[7] = 7
thread 0, T[8] = 8
thread 0, T[9] = 9
thread 0, T[10] = 10
thread 0, T[11] = 11
thread 0, T_local[0] = 0, T[0] = 0
thread 0, T_local[1] = 4, T[1] = 1
thread 0, T_local[2] = 8, T[2] = 2
thread 0, T_local[3] = 0, T[3] = 3
thread 1, T_local[0] = 4, T[4] = 4
thread 1, T_local[1] = 8, T[5] = 5
thread 1, T_local[2] = 0, T[6] = 6
thread 2, T_local[0] = 8, T[8] = 8
thread 2, T_local[1] = 0, T[9] = 9
thread 2, T_local[2] = 0, T[10] = 10
thread 2, T_local[3] = 0, T[11] = 11
thread 3, T_local[0] = 0, T[12] = 0
thread 3, T_local[1] = 0, T[13] = 0
thread 3, T_local[2] = 0, T[14] = 0
thread 3, T_local[3] = 0, T[15] = 0
thread 1, T_local[3] = 0, T[7] = 7
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1 Answer

Your array T is allocated and declared with a cyclic layout (ie blocksize == 1). This means the first element with affinity to MYTHREAD is simply T[MYTHREAD]. Therefore you should probably initialize your pointer-to-local as follows:

int* T_local = (int*)&T[MYTHREAD];

In a cyclic layout the shared elements are passed out round-robin to the threads, which means each thread has a non-contiguous block of the distributed array elements. So for example with 4 threads, thread 0 will have affinity to T[0], T[4], and T[8]. The correctly-initialized T_local pointer-to-local on thread 0 will access these elements in its local slice of the shared array (as T_local[0], T_local[1] and T_local[2], respectively).

Your computation of my_start and my_end seem to be assuming a different (larger) blocking factor than what T is actually using, which is probably the source of your confusion.

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