Basic steps.
CUDA_VERSION=XXX make [target]
where[target]
is amongcuda92, cuda10x, cuda110, cuda11x, cuda12x, cpuonly
python setup.py install
To run these steps you will need to have the nvcc compiler installed that comes with a CUDA installation. If you use anaconda (recommended) then you can figure out which version of CUDA you are using with PyTorch via the command conda list | grep cudatoolkit
. Then you can install the nvcc compiler by downloading and installing the same CUDA version from the CUDA toolkit archive.
You can install CUDA locally without sudo by following the following steps:
wget https://raw.githubusercontent.com/TimDettmers/bitsandbytes/main/cuda_install.sh
# Syntax cuda_install CUDA_VERSION INSTALL_PREFIX EXPORT_TO_BASH
# CUDA_VERSION in {110, 111, 112, 113, 114, 115, 116, 117, 118, 120, 121}
# EXPORT_TO_BASH in {0, 1} with 0=False and 1=True
# For example, the following installs CUDA 11.7 to ~/local/cuda-11.7 and exports the path to your .bashrc
bash cuda install 117 ~/local 1
By default, the Makefile will look at your CUDA_HOME
environmental variable to find your CUDA version for compiling the library. If this path is not set it is inferred from the path of your nvcc
compiler.
Either nvcc
needs to be in path for the CUDA_HOME
variable needs to be set to the CUDA directory root (e.g. /usr/local/cuda
) in order for compilation to succeed
If you type nvcc
and it cannot be found, you might need to add to your path or set the CUDA_HOME variable. You can run python -m bitsandbytes
to find the path to CUDA. For example if python -m bitsandbytes
shows you the following:
++++++++++++++++++ /usr/local CUDA PATHS +++++++++++++++++++
/usr/local/cuda-11.7/targets/x86_64-linux/lib/libcudart.so
You can set CUDA_HOME
to /usr/local/cuda-11.7
. For example, you might be able to compile like this.
CUDA_HOME=~/local/cuda-11.7 CUDA_VERSION=117 make cuda11x
If you have problems compiling the library with these instructions from source, please open an issue.