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I have some examlpes which give me some strange headaches: I produce a thread divergence, but I cannot figure out which branch or which statements are computed first?

First example:
I have the following kernel, which I start by 2 threads in 1 block. with a[0]=0, and a1=0.

__global__ void branchTest_kernel( float* a){

  int tx = threadIdx.x;

  if(tx==0){                   // or tx==1
     a[1] = a[0] + 1;  (a)
  }else{             // or tx==0
     a[0] = a[1] + 1;;         (b)
  }
}

Output

a[0] = 1  
a[1] = 1 

I assum that because the two threads are in on warp, they execute in lockstep, and (a) and (b) both read at the same time a[0] and a1.

Second example:
Exactly the same as the first but, now removed the else if part:

__global__ void branchTest_kernel( float* a){

  int tx = threadIdx.x;

  if(tx==0){
     a[1] = a[0] + 1;  (a)
  }else if{
     a[0] = a[1] + 1;  (b)
  }


} 

Output

a[0] = 1  
a[1] = 2 

What causes this behaviour that suddenly now (b) is first, and (a) second... (most inner branch probably) Can somebody explain how the precendence rules are for branches? Or where to find such information? Thanks alot!

I encountered this example during an implementation of a Gauss-Seidel Solver: Gauss Seidel See Figure 3, (a) diagonal block

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[EDITED!] --> wrong outputs, provided –  Gabriel May 25 '11 at 14:51
1  
Are you sure you provided the right code for the second case ? No condition after else if ? How many threads are you launching ? –  Pavan Yalamanchili May 25 '11 at 23:14

1 Answer 1

There are no precedence rules for branch execution order within a warp in CUDA - the behaviour is undefined. The compiler, assembler and JIT runtime are free to reorder instructions as they see fit, and you absolutely must not try and rely on whatever order you deduce empirically, because it can change (as you have found out). The only way to enforce formal correctness in that sort of situation is to use a atomic memory access operation, which will force serialization. Better still, look for another algorithm.

In your Gauss-Seidel case, the orthodox approach is use a separate kernel launch for each color in the graph decomposition of the matrix or computational grid.

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