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What happens when you run a CUDA kernel?

mezark · 288 points · 32 comments · anteayer

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einpoklumanteayer

First - nice writeup which goes into a lot of nooks and crannies. That said, a lot of the user-space "voodoo" is gone if you don't go through CUDA's "runtime API". If you use the driver API, take your kernel source as a string and compile it with NVIDIA's run-time compiler, you'll have better visibility into a lot (not all) of what's going on. For the "raw" version of this, look at: https://github.com/NVIDIA/cuda-samples/tree/master/cpp/0_Int... but for a much more readable, and still fully transparent modern-C++ API version of the same, try this: https://github.com/eyalroz/cuda-api-wrappers/blob/master/exa... that's a sample program for my CUDA API wrappers (header-only) library.

kinowayer

I just finished a master's on HPC where I had to take some classes on CUDA, MPI+CUDA, OpenCL. Reading an article like this before the classes would have been a lot helpful! Especially the part just before and after "What does it mean for a warp to be eligible?".

mschuetzayer

That was an interesting read. Also enjoyed reading about the semaphores in the default stream. It's great that cuda implicitly handles syncing of commands for users and makes parallel commands optional and opt-in via streams, unlike Vulkan which completely unloads the full complexity of syncing to users right from the start.

fooblasteranteayer

The hardware has some open documentation. You don't actually need to read the kernel source to find some of the method documentation or qmd formats. See https://github.com/NVIDIA/open-gpu-doc/blob/master/classes/c...

aberrahmane_bayer

It's very useful. The doorbell and QMD part were the most useful for me, because it connects the CUDA launch syntax to what actually gets submitted to the GPU. Most explanations stop around kernels, blocks and warps, but this made the CPU to driver to GPU path much easier to follow.