Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have a multi-threaded CPU and I would like each thread of the CPU to be able to launch a seperate CUDA stream. The seperate CPU threads will be doing different things at different times so there is a chance that they won't overlap but if they do launch a CUDA kernel at the same time I would like it to continue to run concurrently.

I'm pretty sure this is possible because in the CUDA Toolkit documentation section It says "A stream is a sequence of commands (possibly issued by different host threads)..."

So if I want to implement this I would do something like

void main(int CPU_ThreadID) {
    cudaStream_t *stream;

    int *d_a;
    int *a;
    cudaMalloc((void**)&d_a, 100*sizeof(int));
    cudaMallocHost((void**)&a, 100*8*sizeof(int));
    cudaMemcpyAsync(d_a, a[100*CPU_ThreadID], 100*size(int), cudaMemcpyHostToDevice, stream);


That is just a simple example. If I know there are only 8 CPU Threads then I know at most 8 streams will be created. Is this the proper way to do this? Will this run concurrently if two or more different host threads reach this code around the same time? Thanks for any help!


I corrected some of the syntax issues in the code block and put in the cudaMemcpyAsync as sgar91 suggested.

share|improve this question
You don't have to malloc the stream pointer. Also, you may consider using cudaMemcpyAsync if you want the streams to overlap. –  sgarizvi Oct 15 '13 at 17:51
@sgar91: The streams will be in different contexts so they will never overlap. –  talonmies Oct 15 '13 at 17:52
@sgar91 Thanks! I've made those edits above. To talonmies: So is there no way for separate CPU threads to access the GPU device concurrently? What about forcing the threads to use the same context as Robert Crovella suggested below? –  Miggy Oct 15 '13 at 20:05

1 Answer 1

up vote 2 down vote accepted

It really looks to me like you are proposing a multi-process application, not multithreaded. You don't mention which threading architecture you have in mind, nor even an OS, but the threading architectures I know of don't posit a thread routine called "main", and you haven't shown any preamble to the thread code.

A multi-process environment will generally create one device context per process, which will inhibit fine-grained concurrency.

Even if that's just an oversight, I would point out that a multi-threaded application should establish a GPU context on the desired device before threads are spawned.

Each thread can then issue a cudaSetDevice(0); or similar call, which should cause each thread to pick up the established context on the indicated device.

Once that is in place, you should be able to issue commands to the desired streams from whichever threads you like.

You may wish to refer to the cudaOpenMP sample code. Although it omits the streams concepts, it demonstrates a multi-threaded app with the potential for multiple threads to issue commands to the same device (and could be extended to the same stream)

Whether or not kernels happen to run concurrently or not after the above issues have been addressed is a separate issue. Concurrent kernel execution has a number of requirements, and the kernels themselves must have compatible resource requirements (blocks, shared memory, registers, etc.), which generally implies "small" kernels.

share|improve this answer
Thank you for the answer. I'm pretty sure it is multi-threaded because the programmer who built the application said it was. I dont know for sure because I did not build it. Nevertheless it is an image processing algorithm and I know that on our 8-core CPU (hyperthreaded to 16 threads) it processes 15 images at a time (one thread remains to manage the jobs). I use windows. The name main is just what I call the function in the .cu file that accesses kernels. It could have been called anything. I will try out your suggestion and example then get back. Thanks again. Sorry for my confusion. –  Miggy Oct 15 '13 at 20:19
Sorry I took so long to accept. I was forced to put this project on hold. I did what you said using the cudaOpenMP sample code as an example. I created a C# program that used System.Threading to create different CPU threads that each launched a kernel through my Cuda dll. I tested using NVIDIA Visual Profilier and can verify that they ran in parallel as different streams on the same Cuda Context. The main program I need to use doesn't create threads through System.Threading but uses a different method so I'm not sure yet if this fixed my issue but you set me on the right track. Thanks! –  Miggy Nov 19 '13 at 20:53

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.