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I have several blocks, each having some integers in a shared memory array of size 512. How can I check if the array in every block contains a zero as an element?

What I am doing is creating an array that resides in the global memory. The size of this array depends on the number of blocks, and it is initialized to 0. Hence every block writes to a[blockid] = 1 if the shared memory array contains a zero.

My problem is when I have several threads in a single block writing at the same time. That is, if the array in the shared memory contains more than one zero, then several threads will write a[blockid] = 1. Would this generate any problem?

In other words, would it be a problem if 2 threads write the exact same value to the exact same array element in global memory?

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5 Answers

up vote 12 down vote accepted

In the CUDA execution model, there are no guarantees that simultaneous writes from threads in the same block to the same global memory location will succeed. It probably will work, but it isn't guaranteed by the programming model. A better approach (from a correctness point of view), would be to have only one thread from each block do the global write. You can either use a shared memory flag set atomically or a reduction operation to determine whether the value should be set. Which you choose might depend on how many zeros there are likely to be. The more zeroes there are, the more attractive the reduction will be. CUDA includes warp level __any() and __all() operators which can be built into a very efficient boolean reduction in a few lines of code.

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My +1 for answering it from CUDA perspective which is what OP is looking for rather than a C/C++ development enviornment perspective. –  Alok Save May 11 '11 at 3:34
5  
Please see my answer for more details (can't post links and quotes in a comment!). CUDA does ensure that if multiple threads in a warp write to the same location then at least one thread will succeed in writing to the location but which thread that is (or which thread goes last) is undefined. –  Tom Mar 6 '12 at 16:31
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For a CUDA program, if multiple threads in a warp write to the same location then the location will be updated but it is undefined how many times the location is updated (i.e. how many actual writes occur in series) and it is undefined which thread will write last (i.e. which thread will win the race).

For devices of compute capability 2.x, if multiple threads in a warp write to the same address then only one thread will actually perform the write, which thread is undefined.

From the CUDA C Programming Guide section F.4.2:

If a non-atomic instruction executed by a warp writes to the same location in global memory for more than one of the threads of the warp, only one thread performs a write and which thread does it is undefined.

See also section 4.1 of the guide for more info.

In other words, if all threads writing to a given location write the same value, then it is safe.

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Yes, it will be a problem called as Race Condition.
You should consider synchronizing access to the global data through process Semaphores

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mmm i c would it be better if i used atomic operation or use a reduction algorithm to check if the array contains a zero? –  lina May 10 '11 at 17:35
    
@lina: It depends if you can make these operations atomic..Synchronization can be easy if you read a little basics...academictutorials.com/ipc/ipc-process-synchronization.asp hth –  Alok Save May 10 '11 at 17:38
    
but in cuda there is no such things... –  lina May 10 '11 at 17:39
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@Als: CUDA lacks global synchronization mechanisms like semaphores and mutexes, so while there isn't anything wrong with the suggestion, it is not applicable in this case. –  talonmies May 10 '11 at 17:48
    
@talonmies: I think you are correct, My answer was from a C/C++ point of view & I must admit I have no competency on Cuda. I happened to answer it from C/C++ prespective. –  Alok Save May 11 '11 at 3:32
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While not a mutex or semaphore, CUDA does contain a synchronization primative you can utilize for serializing access to a given code segment or memory location. Through the __syncthreads() function, you can create a barrier so that any given thread blocks at the point of the command call until all the threads in a given block have executed the __syncthreads() command. That way you can hopefully serialize access to your memory location and avoid a situation where two threads need to write to the same memory location at the same time. The only warning is that all the threads have to at some point execute __syncthreads(), or else you will end up with a dead-lock situation. So don't place the call inside some conditional if-statement where some threads may never execute the command. If you do approach your problem like this, there will need to be some provision made for the threads that don't initially call __syncthreads() to call the function later in order to avoid deadlock.

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As far as I can see in this case, you are writing the exact same value, to possibly same locations. During these writes, as long as you do not attempt to read anything (even an incrementation reads the location first) there will be no problems.

So, my suggestion will be just allowing them to write the same value to same locations, but then before using all the values, implementing a simple barrier to ensure that all the values are written before reading anything. Your barrier can as simple as:

//initialize barrier
counter = 0;
...
//waiting on the barrier
counter++;
while(counter != NUMBER_OF_THREADS)
{
    sleep...    //to
    continue;
}
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