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When I originally ran my code I wrote it so that it ran one thread per block, as all threads are independent. But to test out efficiency I tried changing the number of threads per block, and I get different outputs depending on what the number of threads is. I declare the threads like this:

memcpy(p->numsteps, left->numsteps, stepsize);
//allocate siteset (array of sitearrays) on device
seqptr qsites;    //as in array of qs's
cudaMalloc((void **) &qsites, sitesize);
//copy left->siteset into device array (equivalent to memcpy(qs, ls) but for whole array)
cudaMemcpy(qsites, left->siteset, sitesize, cudaMemcpyHostToDevice);
//do loop in device
int block_size = NUMTHREADS; //each site operated on independently
int n_blocks = chars/NUMTHREADS + (NUMTHREADS%block_size==0?0:1);
fillinOne <<< n_blocks, block_size>>> (qsites, chars);
//put qset in p->siteset--equivalent to memcpy(p->siteset[m], qs)
cudaMemcpy(p->siteset, qsites, sitesize, cudaMemcpyDeviceToHost);

Running it with 1,2 and 4 blocks gives the right output, but everything else is wrong. Is this a problem I get by the way I'm declaring the threads, or maybe the way my kernel code is written? Do I need some explicit way to keep threads separate? Because the only thing I can think of is that they're interfering with each other somehow. Any ideas?

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I think the problem is on your kernel code. post your kernel code. – veda Nov 17 '11 at 4:53
If the results change for different number of threads per block you are not indexing your problem properly. – pQB Nov 17 '11 at 8:15
Most likely you have a wrong way of computing the current thread index inside your kernel. Please post the kernel code. – Tudor Nov 17 '11 at 16:52

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