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I am creating cudaStream in a host function

void callKernel(cudaStream_t* ptrStream)
{
    kernelDoesNotMatter<<<1,12,0,*ptrStream>>>();
    //Here i am not calling cudaStreamSynchronize
}
void host_func()
{
    cudaStream_t stream;
    cudaStreamCreate(&stream);
    callKernel(&stream);

    cudaError_t err = cudaStreamQuery(stream) //err == cudaSuccess?
}

Over here I am not calling cudaStreamSynchronize() after calling kernel in callKernel method why does cudaStreamQuery return cudaSuccess? Is it because we cannot pass the reference of cudaStream_t to another function? Am I missing something in this?

Thanks.

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maybe because the execution finished before cudaStreamQuery? –  Anycorn Mar 14 '12 at 21:17
    
i am not calling cudaStreamSynchronoize, so operations in the stream wont be executed. –  gsm1986 Mar 14 '12 at 21:21
    
cudaStreamSynchronoize is to ensure execution has finished. kernel may be done before cudaStreamSynchronoize –  Anycorn Mar 14 '12 at 21:23
    
so how am i suppose to check whether kernel is still working –  gsm1986 Mar 14 '12 at 21:35
    
cudaStreamQuery –  Anycorn Mar 14 '12 at 21:43

1 Answer 1

up vote 2 down vote accepted

cudaStreamQuery() returns cudaSuccess if all commands on the stream have completed. This means that in your example, it returns cudaSuccess because the kernel has already completed.

The purpose of cudaStreamQuery() is to allow you to write code that does other things on the host thread while waiting for the stream to complete. You can do that with something like this:

while (cudaSuccess !=cudaStreamQuery(stream)) { doUsefulWork(); }

Note this is not an idle wait loop.

If you want the semantics of an idle wait loop, rather than having an empty while block, it's better to use either cudaStreamSynchronize() or use a cudaEvent and cudaStreamWaitEvent(). The latter gives you more flexibility since you can wait on a specific event recorded (cudaEventRecord()) after a specific kernel or other call on the specified stream.

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for the case that i mentioned above, can i use two streams? –  gsm1986 Mar 15 '12 at 19:02
    
I don't understand the case exactly, seems to simplistic in your example to warrant multiple streams. However there's no reason in general you can't use multiple streams. You can even have a stream wait on an event recorded in another stream (starting with CUDA 4.0), which is really handy. –  harrism Mar 15 '12 at 20:49
    
I am trying to do something like double buffering (of kernels) using streams. I have a thread1 that continuously spins and reads data from socket and dispatches it to another thread2 that invokes the kernel. I do not want thread2 to wait for the kernel to finish processing. So that's why I am trying to use 2 streams, and queuing the kernels in them depending which 1 is not working so that I do not experience any packet loss. –  gsm1986 Mar 15 '12 at 21:25

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