CUDA is Nvidia's parallel computing platform and programming model for GPUs (Graphics Processing Units). CUDA provides an interface to Nvidia GPUs through a variety of programming languages, libraries, and APIs. Before posting CUDA questions, please read "How to get Useful Answers to your CUDA Questions on Stack Overflow" below.
Online documentation for many aspects of CUDA programming is available here.
The CUDA platform enables application development using several languages and associated APIs, including:
You should ask questions about CUDA here on Stack Overflow, but if you have bugs to report you should discuss them on the CUDA forums or report them via the registered developer portal. You may want to cross-link to any discussion here on SO.
How to get Useful Answers to your CUDA Questions on Stack Overflow
Here are a number of suggestions to users new to CUDA and/or Stack Overflow. Follow these suggestions before asking your question and you are much more likely to get a satisfactory answer!
- Always check the result codes returned by CUDA API functions to ensure you are getting
cudaSuccess. If you are not, and you don't know why, include the information about the error in your question. This includes checking for errors caused by the most recent kernel launch, which requires calling
cudaDeviceSynchronize(). Here is an example of how to do error checking in CUDA programs.
- If you are getting
unspecified launch failureit is likely that your code is causing a segmentation fault, meaning the code is accessing memory that is not allocated for the code to use. Try to verify that the indexing is correct and check if
cuda-memcheckis reporting any errors.
- Search Stack Overflow (and the web!) for similar questions before asking yours. Some questions are frequently asked, as for example on
- Include an as-simple-as-possible code example in your question and you are much more likely to get a useful answer. If the code is short and self-contained (so users can test it themselves), that is even better.
- The debugger for CUDA,
cuda-gdb, is also very useful when you are not really sure what you are doing. You can monitor resources by warp, thread, block, SM and grid level. You can follow your program's execution. If a segmentation fault occurs in your program,
cuda-gdbcan help you find where the crash occurred and see what the context is.