Building From Source

This page gives instructions on how to build and install XGBoost from the source code on various systems. If the instructions do not work for you, please feel free to ask questions at the user forum.


Pre-built binary is available: now with GPU support

Consider installing XGBoost from a pre-built binary, to avoid the trouble of building XGBoost from the source. Checkout Installation Guide.

Obtaining the Source Code

To obtain the development repository of XGBoost, one needs to use git.


Use of Git submodules

XGBoost uses Git submodules to manage dependencies. So when you clone the repo, remember to specify --recursive option:

git clone --recursive

For windows users who use github tools, you can open the git shell and type the following command:

git submodule init
git submodule update

Building the Shared Library

This section describes the procedure to build the shared library and CLI interface independently. For building language specific package, see corresponding sections in this document.

  • On Linux and other UNIX-like systems, the target library is

  • On MacOS, the target library is libxgboost.dylib

  • On Windows the target library is xgboost.dll

This shared library is used by different language bindings (with some additions depending on the binding you choose). The minimal building requirement is

  • A recent C++ compiler supporting C++11 (g++-5.0 or higher)

  • CMake 3.14 or higher.

For a list of CMake options like GPU support, see #-- Options in CMakeLists.txt on top level of source tree.

Building on Linux and other UNIX-like systems

After obtaining the source code, one builds XGBoost by running CMake:

cd xgboost
mkdir build
cd build
cmake ..
make -j$(nproc)

Building on MacOS

Obtain libomp from Homebrew:

brew install libomp

Rest is the same as building on Linux.

Building on Windows

XGBoost support compilation with Microsoft Visual Studio and MinGW. To build with Visual Studio, we will need CMake. Make sure to install a recent version of CMake. Then run the following from the root of the XGBoost directory:

mkdir build
cd build
cmake .. -G"Visual Studio 14 2015 Win64"
# for VS15: cmake .. -G"Visual Studio 15 2017" -A x64
# for VS16: cmake .. -G"Visual Studio 16 2019" -A x64
cmake --build . --config Release

This specifies an out of source build using the Visual Studio 64 bit generator. (Change the -G option appropriately if you have a different version of Visual Studio installed.)

After the build process successfully ends, you will find a xgboost.dll library file inside ./lib/ folder. Some notes on using MinGW is added in Building Python Package for Windows with MinGW-w64 (Advanced).

Building with GPU support

XGBoost can be built with GPU support for both Linux and Windows using CMake. See Building R package with GPU support for special instructions for R.

An up-to-date version of the CUDA toolkit is required.


Checking your compiler version

CUDA is really picky about supported compilers, a table for the compatible compilers for the latests CUDA version on Linux can be seen here.

Some distros package a compatible gcc version with CUDA. If you run into compiler errors with nvcc, try specifying the correct compiler with -DCMAKE_CXX_COMPILER=/path/to/correct/g++ -DCMAKE_C_COMPILER=/path/to/correct/gcc. On Arch Linux, for example, both binaries can be found under /opt/cuda/bin/.

From the command line on Linux starting from the XGBoost directory:

mkdir build
cd build
# For CUDA toolkit >= 11.4, `BUILD_WITH_CUDA_CUB` is required.
make -j4


Specifying compute capability

To speed up compilation, the compute version specific to your GPU could be passed to cmake as, e.g., -DGPU_COMPUTE_VER=50. A quick explanation and numbers for some architectures can be found in this page.


Faster distributed GPU training with NCCL

By default, distributed GPU training is enabled and uses Rabit for communication. For faster training, set the option USE_NCCL=ON. Faster distributed GPU training depends on NCCL2, available at this link. Since NCCL2 is only available for Linux machines, faster distributed GPU training is available only for Linux.

mkdir build
cd build
cmake .. -DUSE_CUDA=ON -DUSE_NCCL=ON -DNCCL_ROOT=/path/to/nccl2
make -j4

On Windows, run CMake as follows:

mkdir build
cd build
cmake .. -G"Visual Studio 14 2015 Win64" -DUSE_CUDA=ON

(Change the -G option appropriately if you have a different version of Visual Studio installed.)

The above cmake configuration run will create an xgboost.sln solution file in the build directory. Build this solution in release mode as a x64 build, either from Visual studio or from command line:

cmake --build . --target xgboost --config Release

To speed up compilation, run multiple jobs in parallel by appending option -- /MP.

Building Python Package from Source

The Python package is located at python-package/.

Building Python Package with Default Toolchains

There are several ways to build and install the package from source:

  1. Use Python setuptools directly

The XGBoost Python package supports most of the setuptools commands, here is a list of tested commands:

python install  # Install the XGBoost to your current Python environment.
python build    # Build the Python package.
python build_ext # Build only the C++ core.
python sdist     # Create a source distribution
python bdist     # Create a binary distribution
python bdist_wheel # Create a binary distribution with wheel format

Running python install will compile XGBoost using default CMake flags. For passing additional compilation options, append the flags to the command. For example, to enable CUDA acceleration and NCCL (distributed GPU) support:

python install --use-cuda --use-nccl

Please refer to for a complete list of available options. Some other options used for development are only available for using CMake directly. See next section on how to use CMake with setuptools manually.

You can install the created distribution packages using pip. For example, after running sdist setuptools command, a tar ball similar to xgboost-1.0.0.tar.gz will be created under the dist directory. Then you can install it by invoking the following command under dist directory:

# under python-package directory
cd dist
pip install ./xgboost-1.0.0.tar.gz

For details about these commands, please refer to the official document of setuptools, or just Google “how to install Python package from source”. XGBoost Python package follows the general convention. Setuptools is usually available with your Python distribution, if not you can install it via system command. For example on Debian or Ubuntu:

sudo apt-get install python-setuptools

For cleaning up the directory after running above commands, python clean is not sufficient. After copying out the build result, simply running git clean -xdf under python-package is an efficient way to remove generated cache files. If you find weird behaviors in Python build or running linter, it might be caused by those cached files.

For using develop command (editable installation), see next section.

python develop   # Create a editable installation.
pip install -e .          # Same as above, but carried out by pip.
  1. Build C++ core with CMake first

This is mostly for C++ developers who don’t want to go through the hooks in Python setuptools. You can build C++ library directly using CMake as described in above sections. After compilation, a shared object (or called dynamic linked library, jargon depending on your platform) will appear in XGBoost’s source tree under lib/ directory. On Linux distributions it’s lib/ From there all Python setuptools commands will reuse that shared object instead of compiling it again. This is especially convenient if you are using the editable installation, where the installed package is simply a link to the source tree. We can perform rapid testing during development. Here is a simple bash script does that:

# Under xgboost source tree.
mkdir build
cd build
cmake ..
make -j$(nproc)
cd ../python-package
pip install -e .  # or equivalently python develop
  1. Use on system path.

This is for distributing xgboost in a language independent manner, where is separately packaged with Python package. Assuming is already presented in system library path, which can be queried via:

import sys
import os
os.path.join(sys.prefix, 'lib')

Then one only needs to provide an user option when installing Python package to reuse the shared object in system path:

cd xgboost/python-package
python install --use-system-libxgboost

Building Python Package for Windows with MinGW-w64 (Advanced)

Windows versions of Python are built with Microsoft Visual Studio. Usually Python binary modules are built with the same compiler the interpreter is built with. However, you may not be able to use Visual Studio, for following reasons:

  1. VS is proprietary and commercial software. Microsoft provides a freeware “Community” edition, but its licensing terms impose restrictions as to where and how it can be used.

  2. Visual Studio contains telemetry, as documented in Microsoft Visual Studio Licensing Terms. Running software with telemetry may be against the policy of your organization.

So you may want to build XGBoost with GCC own your own risk. This presents some difficulties because MSVC uses Microsoft runtime and MinGW-w64 uses own runtime, and the runtimes have different incompatible memory allocators. But in fact this setup is usable if you know how to deal with it. Here is some experience.

  1. The Python interpreter will crash on exit if XGBoost was used. This is usually not a big issue.

  2. -O3 is OK.

  3. -mtune=native is also OK.

  4. Don’t use -march=native gcc flag. Using it causes the Python interpreter to crash if the DLL was actually used.

  5. You may need to provide the lib with the runtime libs. If mingw32/bin is not in PATH, build a wheel (python bdist_wheel), open it with an archiver and put the needed dlls to the directory where xgboost.dll is situated. Then you can install the wheel with pip.

Building R Package From Source

By default, the package installed by running install.packages is built from source. Here we list some other options for installing development version.

Installing the development version (Linux / Mac OSX)

Make sure you have installed git and a recent C++ compiler supporting C++11 (See above sections for requirements of building C++ core).

Due to the use of git-submodules, devtools::install_github can no longer be used to install the latest version of R package. Thus, one has to run git to check out the code first, see Obtaining the Source Code on how to initialize the git repository for XGBoost. The simplest way to install the R package after obtaining the source code is:

cd R-package

But if you want to use CMake build for better performance (which has the logic for detecting available CPU instructions) or greater flexibility around compile flags, the above snippet can be replaced by:

mkdir build
cd build
cmake .. -DR_LIB=ON
make -j$(nproc)
make install

Installing the development version with Visual Studio (Windows)

On Windows, CMake with Visual C++ Build Tools (or Visual Studio) can be used to build the R package.

While not required, this build can be faster if you install the R package processx with install.packages("processx").


Setting correct PATH environment variable on Windows

If you are using Windows, make sure to include the right directories in the PATH environment variable.

  • If you are using R 4.x with RTools 4.0: - C:\rtools40\usr\bin - C:\rtools40\mingw64\bin

  • If you are using R 3.x with RTools 3.x:

    • C:\Rtools\bin

    • C:\Rtools\mingw_64\bin

Open the Command Prompt and navigate to the XGBoost directory, and then run the following commands. Make sure to specify the correct R version.

cd C:\path\to\xgboost
mkdir build
cd build
cmake .. -G"Visual Studio 16 2019" -A x64 -DR_LIB=ON -DR_VERSION=4.0.0
cmake --build . --target install --config Release

Building R package with GPU support

The procedure and requirements are similar as in Building with GPU support, so make sure to read it first.

On Linux, starting from the XGBoost directory type:

mkdir build
cd build
make install -j$(nproc)

When default target is used, an R package shared library would be built in the build area. The install target, in addition, assembles the package files with this shared library under build/R-package and runs R CMD INSTALL.

On Windows, CMake with Visual Studio has to be used to build an R package with GPU support. Rtools must also be installed.


Setting correct PATH environment variable on Windows

If you are using Windows, make sure to include the right directories in the PATH environment variable.

  • If you are using R 4.x with RTools 4.0:

    • C:\rtools40\usr\bin

    • C:\rtools40\mingw64\bin

  • If you are using R 3.x with RTools 3.x:

    • C:\Rtools\bin

    • C:\Rtools\mingw_64\bin

Open the Command Prompt and navigate to the XGBoost directory, and then run the following commands. Make sure to specify the correct R version.

cd C:\path\to\xgboost
mkdir build
cd build
cmake .. -G"Visual Studio 16 2019" -A x64 -DUSE_CUDA=ON -DR_LIB=ON -DR_VERSION=4.0.0
cmake --build . --target install --config Release

If CMake can’t find your R during the configuration step, you might provide the location of R to CMake like this: -DLIBR_HOME="C:\Program Files\R\R-4.0.0".

If on Windows you get a “permission denied” error when trying to write to …Program Files/R/… during the package installation, create a .Rprofile file in your personal home directory (if you don’t already have one in there), and add a line to it which specifies the location of your R packages user library, like the following:

.libPaths( unique(c("C:/Users/USERNAME/Documents/R/win-library/3.4", .libPaths())))

You might find the exact location by running .libPaths() in R GUI or RStudio.

Building JVM Packages

Building XGBoost4J using Maven requires Maven 3 or newer, Java 7+ and CMake 3.13+ for compiling Java code as well as the Java Native Interface (JNI) bindings.

Before you install XGBoost4J, you need to define environment variable JAVA_HOME as your JDK directory to ensure that your compiler can find jni.h correctly, since XGBoost4J relies on JNI to implement the interaction between the JVM and native libraries.

After your JAVA_HOME is defined correctly, it is as simple as run mvn package under jvm-packages directory to install XGBoost4J. You can also skip the tests by running mvn -DskipTests=true package, if you are sure about the correctness of your local setup.

To publish the artifacts to your local maven repository, run

mvn install

Or, if you would like to skip tests, run

mvn -DskipTests install

This command will publish the xgboost binaries, the compiled java classes as well as the java sources to your local repository. Then you can use XGBoost4J in your Java projects by including the following dependency in pom.xml:


For sbt, please add the repository and dependency in build.sbt as following:

resolvers += "Local Maven Repository" at "file://"+Path.userHome.absolutePath+"/.m2/repository"

"ml.dmlc" % "xgboost4j" % "latest_source_version_num"

If you want to use XGBoost4J-Spark, replace xgboost4j with xgboost4j-spark.


XGBoost4J-Spark requires Apache Spark 2.3+

XGBoost4J-Spark now requires Apache Spark 2.3+. Latest versions of XGBoost4J-Spark uses facilities of extensively to provide for a tight integration with Spark MLLIB framework, and these facilities are not fully available on earlier versions of Spark.

Also, make sure to install Spark directly from Apache website. Upstream XGBoost is not guaranteed to work with third-party distributions of Spark, such as Cloudera Spark. Consult appropriate third parties to obtain their distribution of XGBoost.

Enabling OpenMP for Mac OS

If you are on Mac OS and using a compiler that supports OpenMP, you need to go to the file xgboost/jvm-packages/ and comment out the line


in order to get the benefit of multi-threading.

Building with GPU support

If you want to build XGBoost4J that supports distributed GPU training, run

mvn -Duse.cuda=ON install

Building the Documentation

XGBoost uses Sphinx for documentation. To build it locally, you need a installed XGBoost with all its dependencies along with:

  • System dependencies

    • git

    • graphviz

  • Python dependencies

    Checkout the requirements.txt file under doc/

Under xgboost/doc directory, run make <format> with <format> replaced by the format you want. For a list of supported formats, run make help under the same directory.


It’s only used for creating shorthands for running linters, performing packaging tasks etc. So the remaining makefiles are legacy.