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Following code sums every 32 elements in a array to the very first element of each 32 element group:

int i = threadIdx.x;
int warpid = i&31;
if(warpid < 16){
    s_buf[i] += s_buf[i+16];__syncthreads();
    s_buf[i] += s_buf[i+8];__syncthreads();
    s_buf[i] += s_buf[i+4];__syncthreads();
    s_buf[i] += s_buf[i+2];__syncthreads();
    s_buf[i] += s_buf[i+1];__syncthreads();

I thought I can eliminate all the __syncthreads() in the code, since all the operations are done in the same warp. But if I eliminate them, I get garbage results back. It shall not affect performance too much. But I want to know why I need __syncthreads() here.

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Are you using a Fermi GPU? –  talonmies May 23 '12 at 23:40
yes, it's a Quadro 6000, and I am using CUDA4.0. In fact, I have used similar technique on a GTX 580. I was surprised this doesn't work without __syncthreads() –  small_potato May 23 '12 at 23:46
You do realise that threadIdx.x & 31 isn't the warp number and (threadIdx.x & 31) < 16 doesn't select threads within the same warp? –  talonmies May 24 '12 at 0:10
I might get something wrong here. Isn't (threadIdx.x & 31) select the first 16 threads of each warp? –  small_potato May 24 '12 at 1:31
@small_potato: Yes it is the first 16 threads of each warp, but unless your intention is to produce a reduction sum per warp (so multiple sums per block), then I don't see how this helps you. But the main problem is probably how s_buf has been declared. Have you declared it volatile? –  talonmies May 24 '12 at 5:27

2 Answers 2

Maybe have a look at these Slides from Mark Harris. Why reinvent the wheel.


Each reduction step is dependent on the other. So you can only leave out the synchronization in the last excecuted warp equals 32 active threads in the reduction phase. One step before you need 64 threads and hence need a synchronisation since parallel execution is not guaranteed since you use 2 warps.

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That's pretty much I want to do. The problem is really, when I leave __syncthreads() out, things start to break. And The code actually work in debug mode while it breaks in release mode. –  small_potato May 24 '12 at 2:42
Is your intention to implement warp-based reduction? Reduce inside warp to reduce data by factor 32? so with 1024 threads/elements only 2 syncthreads are necessary? This could maybe improve performance much compared to conventional implementation. Will check this idea out later. –  djmj May 24 '12 at 3:15
The problem I am facing is just to sum 128 numbers residing in shared memory. I am not facing a global reduction problem, but what you saying might work as well. –  small_potato May 24 '12 at 3:44
Then use the code at page 35 of the pdf using only one syncthread. –  djmj May 24 '12 at 21:01

Here's an official and complete document on Reduction from NVIDIA including the source code that'll help you.

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