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I have a CUDA kernel that is called from within a for loop. Something like

for(i=0; i<10; i++) {
   myKernel<<<1000,256>>>(A,i);
}

Assume now that I have an NVIDIA card with 15 Stream Multiprocessors (SMs). Also assume, for simplicity, that only one block can be mapped onto an SM, which basically says that most of the time, I will have 15 blocks executed on the device. Since kernel execution is asynchronous, basically the call with i=1 is going to line up for execution right after the first kernel was launched (the one with i=0).

My question is this: at some point when the first kernel (with i=0) is executed, there will be only 14 SMs busy, then only 13, then only 12, then only 11, etc.

Would the kernel with i=1 be sent for execution on the device as soon as one SM is available, or will the launch of this second kernel wait till all the SMs finished dealing with the first kernel (the one with i=0)?

Assume also that I'm working within one CUDA stream.

share|improve this question

Kernel launches in the same stream are serialized. Kernel invocations from different streams may be overlapped given enough resources (SMs, shared memory, etc)

share|improve this answer
    
Operations on the same stream are serialized. The GPU cannot read the next entry in the pushbuffer until the previous work in the stream completes. CC2.x-3.0 can support 16 concurrent kernels (if issued from different streams and there are no false dependencies or significant state changes). The GPU will distribute work to SMs in the order the kernels were submitted through the driver. This means that concurrent work can complete out of order but will always be distributed in order. For more information see developer.download.nvidia.com/CUDA/training/… – Greg Smith Aug 9 '12 at 4:57

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