CUDA graphs are a new way to synthesize complex operations from multiple operations. With "stream capture", it appears that you can run a mix of operations, including CuBlas and similar library operations and capture them as a singe "meta-kernel".
What's unclear to me is how the data flow works for these graphs. In the capture phase, I allocate memory A for the input, memory B for the temporary values, and memory C for the output. But when I capture this in a graph, I don't capture the memory allocations. So when I then instantiate multiple copies of these graphs, they cannot share the input memory A, temporary workspace B or output memory C.
How then does this work? I.e. when I call
cudaGraphLaunch, I don't see a way to provide input parameters. My captured graph basically starts with a
cudaMemcpyHostToDevice, how does the graph know which host memory to copy and where to put it?
Background: I found that CUDA is heavily bottlenecked on kernel launches; my AVX2 code was 13x times slower when ported to CUDA. The kernels themselves seem fine (according to NSight), it's just the overhead of scheduling several hundred thousand kernel launches.