Makefile.include: Difference between revisions
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=== Intel Composer suite and [https://software.intel.com/content/www/us/en/develop/tools/oneapi/all-toolkits.html oneAPI Base + HPC toolkits] for CPUs=== | === Intel Composer suite and [https://software.intel.com/content/www/us/en/develop/tools/oneapi/all-toolkits.html oneAPI Base + HPC toolkits] for CPUs=== | ||
* [[makefile.include.oneapi]] | |||
* [[makefile.include.oneapi_omp]] | |||
* [[makefile.include.intel|makefile.include.intel]]: Parallelized using MPI, combined with MKL. | * [[makefile.include.intel|makefile.include.intel]]: Parallelized using MPI, combined with MKL. | ||
* [[makefile.include.intel_omp|makefile.include.intel_omp]]: Parallelized using MPI + OpenMP, combined with MKL. | * [[makefile.include.intel_omp|makefile.include.intel_omp]]: Parallelized using MPI + OpenMP, combined with MKL. | ||
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* [[makefile.include.fujitsu_a64fx|makefile.include.fujitsu_a64fx]] | * [[makefile.include.fujitsu_a64fx|makefile.include.fujitsu_a64fx]] | ||
* [[makefile.include.fujitsu_a64fx_omp|makefile.include.fujitsu_a64fx_omp]] | * [[makefile.include.fujitsu_a64fx_omp|makefile.include.fujitsu_a64fx_omp]] | ||
* [[makefile.include.aocc_ompi_aocl]] | |||
* [[makefile.include.aocc_ompi_aocl_omp]] | |||
An advanced system administrator might benefit from a more detailed discussion about the [[Precompiler options|precompiler options]], [[Compiler options|compiler options]], and [[Linking to libraries|how to link libraries]]. | An advanced system administrator might benefit from a more detailed discussion about the [[Precompiler options|precompiler options]], [[Compiler options|compiler options]], and [[Linking to libraries|how to link libraries]]. | ||
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Then, add any optional feature as listed below. For more details see the [[Precompiler options|list of precompiler options]]. | Then, add any optional feature as listed below. For more details see the [[Precompiler options|list of precompiler options]]. | ||
=== HDF5 support (strongly recommended) === | === HDF5 support (strongly recommended, and mandatory for some features) === | ||
---- | ---- | ||
The HDF5 library is is needed for reading and writing HDF5 files such as {{FILE|vaspin.h5}}, {{FILE|vaspout.h5}} and {{FILE|vaspwave.h5}}. | |||
The | The library is available for download on the [https://www.hdfgroup.org/solutions/hdf5/ HDF5 official website]. | ||
To activate | To activate [[:Category:HDF5 support|HDF5 support]] add the following in the VASP <code>makefile.include</code> | ||
CPP_OPTIONS+= -DVASP_HDF5 | CPP_OPTIONS+= [[Precompiler_options#-DVASP_HDF5|-DVASP_HDF5]] | ||
HDF5_ROOT ?= /path/to/your/hdf5/installation | HDF5_ROOT ?= /path/to/your/hdf5/installation | ||
LLIBS += -L$(HDF5_ROOT)/lib -lhdf5_fortran | LLIBS += -L$(HDF5_ROOT)/lib -lhdf5_fortran | ||
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Available for VASP >{{=}} 6.2.0. | Available for VASP >{{=}} 6.2.0. | ||
{{NB|warning|This is required to perform some features of VASP, e.g. [[:Category:Electron-phonon interactions|electron-phonon coupling]], and is required for py4vasp.}} | |||
=== fftlib (recommended when using OpenMP) === | === fftlib (recommended when using OpenMP) === | ||
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=== Wannier90 (optional) === | === Wannier90 (optional) === | ||
---- | ---- | ||
To include the Wannier90 program, download the library from [http://www.wannier.org the source] and compile <code>libwannier.a</code>. | |||
{{NB|important|In case of Wannier90 3.x, you should compile a serial version by removing <code>COMMS{{=}}mpi</code> in the <code>make.inc</code> of Wannier90.}} Then, execute <code>make lib</code> to build the Wannier90 library. To activate this feature set the following: | {{NB|important|In case of Wannier90 3.x, you should compile a serial version by removing <code>COMMS{{=}}mpi</code> in the <code>make.inc</code> of Wannier90.}} Then, execute <code>make lib</code> to build the Wannier90 library. To activate this feature set the following: | ||
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LLIBS += -L$(WANNIER90_ROOT)/lib -lwannier | LLIBS += -L$(WANNIER90_ROOT)/lib -lwannier | ||
{{NB|mind| VASP version <{{=}} 6.1.x are compatible with Wannier90 <{{=}} 1.2. To interface VASP 6.1.x with Wannier90 2.x, set [[Precompiler_options#-DVASP2WANNIER90_and_-DVASP2WANNIER90v2|-DVASP2WANNIER90v2]] instead. As of VASP 6.2.x only Wannier90 2.x and 3.x are supported.}} | {{NB|mind| VASP version <{{=}} 6.1.x are compatible with Wannier90 <{{=}} 1.2. To interface VASP 6.1.x with Wannier90 2.x, set [[Precompiler_options#-DVASP2WANNIER90_and_-DVASP2WANNIER90v2|-DVASP2WANNIER90v2]] instead. As of VASP 6.2.x only Wannier90 2.x and 3.x are supported.}} | ||
=== Libxc (optional) === | === Libxc (optional) === | ||
---- | ---- | ||
To include the Libxc library of exchange-correlation functionals, install the library from [https://libxc.gitlab.io/download/ the source] and install it. Note that to get correct results with meta-GGA functionals (see discussion at {{TAG|LTBOUNDLIBXC}}), it is necessary to use Libxc from version 5.2.0 onwards (or the master version from [https://gitlab.com/libxc/libxc gitlab] for the latest implemented functionals) and to compile it with the option <code>--disable-fhc</code>. For instance, with GNU Autotools the steps to compile Libxc are | |||
autoreconf -i (necessary | autoreconf -i (necessary is the executable configure is not already present) | ||
./configure --prefix=PATH/TO/LIBXC --disable-fhc | ./configure --prefix=PATH/TO/LIBXC --disable-fhc | ||
make | make | ||
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INCS += -I$(LIBXC_ROOT)/include | INCS += -I$(LIBXC_ROOT)/include | ||
=== | === Libbeef (optional) === | ||
---- | ---- | ||
To include the BEEF van der Waals functionals, install the library from [https://github.com/vossjo/libbeef the source on GitHub] and add the following in the VASP <code>makefile.include</code> | |||
To include the | CPP_OPTIONS += [[Precompiler_options#-Dlibbeef|-Dlibbeef]] | ||
LIBBEEF_ROOT ?= /path/to/your/libbeef/installation | |||
LLIBS += -L$(LIBBEEF_ROOT)/lib -lbeef | |||
=== DFT-D4 (optional)=== | |||
---- | |||
To include the [[DFT-D4]] van der Waals method, install the library from [https://github.com/dftd4/dftd4 the source on GitHub] and add the following in the VASP <code>makefile.include</code> | |||
CPP_OPTIONS += [[Precompiler options#-DDFTD4|-DDFTD4]] | CPP_OPTIONS += [[Precompiler options#-DDFTD4|-DDFTD4]] | ||
DFTD4_ROOT ?= /path/to/your/dft4/installation | DFTD4_ROOT ?= /path/to/your/dft4/installation | ||
LLIBS += -L$(DFTD4_ROOT)/build -ldftd4 | # version 3.6.0 built and installed with meson | ||
INCS += -I$(DFTD4_ROOT)/libdftd4.a.p | LLIBS += $(shell pkg-config --with-path=$(DFTD4_ROOT)/lib64/pkgconfig --libs dftd4) | ||
INCS += $(shell pkg-config --with-path=$(DFTD4_ROOT)/lib64/pkgconfig --cflags dftd4) | |||
# version 3.6.0 and loaded dftd4 module, i.e. PKG_CONFIG_PATH environment variable set correctly | |||
#LLIBS += $(shell pkg-config --libs dftd4) | |||
#INCS += $(shell pkg-config --cflags dftd4) | |||
# for dft4-2.3.2 and older | |||
#LLIBS += -L$(DFTD4_ROOT)/build -ldftd4 | |||
#INCS += -I$(DFTD4_ROOT)/libdftd4.a.p | |||
{{NB|mind| The compilation of the DFTD4 source code requires a Fortran compiler supporting Fortran 2018 features.}} | |||
=== ELPA (optional)=== | |||
---- | |||
To include the ELPA eigenvalue solvers, install the library from [https://gitlab.mpcdf.mpg.de/elpa/elpa the source on GitLab] and add the following in the VASP <code>makefile.include</code> | |||
CPP_OPTIONS += -DELPA | |||
ELPA_ROOT ?= /path/to/your/elpa/installation | |||
LLIBS += -L$(ELPA_ROOT)/lib -lelpa | |||
INCS += -I$(ELPA_ROOT)/include/elpa-<version>/elpa | |||
INCS += -I$(ELPA_ROOT)/include/elpa-<version>/modules | |||
{{NB|mind| In the above you need to replace <code><version></code> by the correct designation of your ELPA version.}} | |||
=== libMBD (optional)=== | |||
---- | |||
To include the library libMBD of many-body dispersion methods, install the library from [https://github.com/libmbd/libmbd the source on GitHub] and add the following in the VASP <code>makefile.include</code> | |||
CPP_OPTIONS += [[Precompiler options#-DLIBMBD|-DLIBMBD]] | |||
LIBMBD_ROOT ?= /path/to/your/libMBD/installation | |||
LLIBS += -L$(LIBMBD_ROOT)/build/src -lmbd | |||
INCS += -I$(LIBMBD_ROOT)/build/src/modules/ | |||
{{NB|mind| To run a calculation the path to libmbd.so has to be added (either in .bashrc or in the terminal): LD_LIBRARY_PATH{{=}}$LD_LIBRARY_PATH:/path/to/your/libMBD/installation/build/src}} | |||
=== Plugins (optional) === | |||
Create a new [https://conda.io/projects/conda/en/latest/user-guide/getting-started.html conda] environment. Alternative environment creation packages should work, but we have not tested them. | |||
conda create -n vasp_plugin python=3.10 | |||
Enter the create <code>vasp_plugin</code> conda environment | |||
conda activate vasp_plugin | |||
Navigate to the <code>plugins</code> directory within VASP source code, | |||
cd </path/to/vasp/source/code>/src/plugins | |||
Install the VASP Python package through [https://pip.pypa.io/en/stable/installation pip] | |||
pip install . | |||
{{NB|mind|Make sure to be within the conda environment when you compile VASP.}} | |||
Add the following lines to your <code>makefile.include</code> | |||
CPP_OPTIONS+= -DPLUGINS | |||
LLIBS += $(shell python3-config --ldflags --embed) -lstdc++ | |||
CXX_FLAGS = $(shell python3 -m pybind11 --includes) -std=c++11 | |||
{{NB|mind|When running VASP with the Python interface you will need to add the lib directory of your Python to LD_LIBRARY_PATH. You can do this by running <code>export LD_LIBRARY_PATH{{=}}$LD_LIBRARY_PATH:$(python3-config --prefix)/lib</code>}} | |||
== Related articles == | == Related articles == | ||
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---- | ---- | ||
[[Category:VASP]][[Category:Installation]][[Category:Performance]][[Category:GPU | [[Category:VASP]][[Category:Installation]][[Category:Performance]][[Category:GPU]] |
Latest revision as of 13:17, 18 December 2024
Writing a makefile.include
file from scratch is not easy, so we suggest taking one of archetypical files that closely resembles your system as a starting point. It is necessary to customize it anyways to set appropriate paths etc. Optionally, you can enable additional features by setting precompiler flags or linking VASP to other libraries. For instance, we strongly recommend enabling HDF5 support.
Archetypical files
The templates contain information such as precompiler options, compiler options, and how to link libraries. Choose the template based on the compiler, parallelization etc. from the list below and mind the description:
Intel Composer suite and oneAPI Base + HPC toolkits for CPUs
- makefile.include.oneapi
- makefile.include.oneapi_omp
- makefile.include.intel: Parallelized using MPI, combined with MKL.
- makefile.include.intel_omp: Parallelized using MPI + OpenMP, combined with MKL.
- makefile.include.intel_ompi_mkl_omp: Parallelized using OpenMPI + OpenMP, combined with MKL.
- makefile.include.intel_serial: Not parallelized, strongly reduced feature-set, i.e., not suitable for production.
GNU compilers for CPUs
- makefile.include.gnu: Parallelized using MPI, Free and Open-Source Software (FOSS) stack.
- makefile.include.gnu_omp: Parallelized using MPI + OpenMP, FOSS stack.
- makefile.include.gnu_ompi_mkl_omp: Parallelized using OpenMPI + OpenMP, combined with MKL.
- makefile.include.gnu_ompi_aocl: Parallelized using OpenMPI, combined with AMD Optimizing CPU Libraries (AOCL).
- makefile.include.gnu_ompi_aocl_omp: Parallelized using OpenMPI + OpenMP, combined with AOCL.
NVIDIA HPC-SDK for CPU and GPU
- makefile.include.nvhpc: CPU version parallelized using MPI.
- makefile.include.nvhpc_omp: CPU version parallelized using MPI + OpenMP.
- makefile.include.nvhpc_ompi_mkl_omp: CPU version parallelized using OpenMPI + OpenMP, combined with MKL.
- makefile.include.nvhpc_acc: Ported to GPUs using OpenACC, parallelized using MPI .
- makefile.include.nvhpc_omp_acc: Ported to GPUs using OpenACC, parallelized using MPI + OpenMP.
- makefile.include.nvhpc_ompi_mkl_omp_acc: Ported to GPUs using OpenACC, parallelized using OpenMPI + OpenMP, combined with MKL.
Others
- makefile.include.fujitsu_a64fx
- makefile.include.fujitsu_a64fx_omp
- makefile.include.aocc_ompi_aocl
- makefile.include.aocc_ompi_aocl_omp
An advanced system administrator might benefit from a more detailed discussion about the precompiler options, compiler options, and how to link libraries.
Customize
Open the selected template of the archetypical files and add the required information as explained in the comments towards the end of the file. Then, add any optional feature as listed below. For more details see the list of precompiler options.
HDF5 support (strongly recommended, and mandatory for some features)
The HDF5 library is is needed for reading and writing HDF5 files such as vaspin.h5, vaspout.h5 and vaspwave.h5.
The library is available for download on the HDF5 official website.
To activate HDF5 support add the following in the VASP makefile.include
CPP_OPTIONS+= -DVASP_HDF5 HDF5_ROOT ?= /path/to/your/hdf5/installation LLIBS += -L$(HDF5_ROOT)/lib -lhdf5_fortran INCS += -I$(HDF5_ROOT)/include
Available for VASP >= 6.2.0.
Warning: This is required to perform some features of VASP, e.g. electron-phonon coupling, and is required for py4vasp. |
fftlib (recommended when using OpenMP)
When you plan to run VASP on multiple OpenMP threads and you are not using the FFTs from the Intel-MKL library, you should link against fftlib (included in the VASP distribution). To do so, uncomment the corresponding sections in the makefile.include.*_omp files. In makefile.include.gnu_omp, for instance, that would be:
# For the fftlib library (recommended) CPP_OPTIONS+= -Dsysv FCL += fftlib.o CXX_FFTLIB = g++ -fopenmp -std=c++11 -DFFTLIB_THREADSAFE INCS_FFTLIB = -I./include -I$(FFTW_ROOT)/include LIBS += fftlib LLIBS += -ldl
Wannier90 (optional)
To include the Wannier90 program, download the library from the source and compile libwannier.a
.
Important: In case of Wannier90 3.x, you should compile a serial version by removing COMMS=mpi in the make.inc of Wannier90.
|
Then, execute make lib
to build the Wannier90 library. To activate this feature set the following:
CPP_OPTIONS += -DVASP2WANNIER90 WANNIER90_ROOT ?= /path/to/your/wannier90/installation LLIBS += -L$(WANNIER90_ROOT)/lib -lwannier
Mind: VASP version <= 6.1.x are compatible with Wannier90 <= 1.2. To interface VASP 6.1.x with Wannier90 2.x, set -DVASP2WANNIER90v2 instead. As of VASP 6.2.x only Wannier90 2.x and 3.x are supported. |
Libxc (optional)
To include the Libxc library of exchange-correlation functionals, install the library from the source and install it. Note that to get correct results with meta-GGA functionals (see discussion at LTBOUNDLIBXC), it is necessary to use Libxc from version 5.2.0 onwards (or the master version from gitlab for the latest implemented functionals) and to compile it with the option --disable-fhc
. For instance, with GNU Autotools the steps to compile Libxc are
autoreconf -i (necessary is the executable configure is not already present) ./configure --prefix=PATH/TO/LIBXC --disable-fhc make make install
Then, add the following in the VASP makefile.include
CPP_OPTIONS += -DUSELIBXC LIBXC_ROOT ?= /path/to/your/libxc/installation LLIBS += -L$(LIBXC_ROOT)/lib -lxcf03 -lxc INCS += -I$(LIBXC_ROOT)/include
Libbeef (optional)
To include the BEEF van der Waals functionals, install the library from the source on GitHub and add the following in the VASP makefile.include
CPP_OPTIONS += -Dlibbeef LIBBEEF_ROOT ?= /path/to/your/libbeef/installation LLIBS += -L$(LIBBEEF_ROOT)/lib -lbeef
DFT-D4 (optional)
To include the DFT-D4 van der Waals method, install the library from the source on GitHub and add the following in the VASP makefile.include
CPP_OPTIONS += -DDFTD4 DFTD4_ROOT ?= /path/to/your/dft4/installation # version 3.6.0 built and installed with meson LLIBS += $(shell pkg-config --with-path=$(DFTD4_ROOT)/lib64/pkgconfig --libs dftd4) INCS += $(shell pkg-config --with-path=$(DFTD4_ROOT)/lib64/pkgconfig --cflags dftd4) # version 3.6.0 and loaded dftd4 module, i.e. PKG_CONFIG_PATH environment variable set correctly #LLIBS += $(shell pkg-config --libs dftd4) #INCS += $(shell pkg-config --cflags dftd4) # for dft4-2.3.2 and older #LLIBS += -L$(DFTD4_ROOT)/build -ldftd4 #INCS += -I$(DFTD4_ROOT)/libdftd4.a.p
Mind: The compilation of the DFTD4 source code requires a Fortran compiler supporting Fortran 2018 features. |
ELPA (optional)
To include the ELPA eigenvalue solvers, install the library from the source on GitLab and add the following in the VASP makefile.include
CPP_OPTIONS += -DELPA ELPA_ROOT ?= /path/to/your/elpa/installation LLIBS += -L$(ELPA_ROOT)/lib -lelpa INCS += -I$(ELPA_ROOT)/include/elpa-<version>/elpa INCS += -I$(ELPA_ROOT)/include/elpa-<version>/modules
Mind: In the above you need to replace <version> by the correct designation of your ELPA version.
|
libMBD (optional)
To include the library libMBD of many-body dispersion methods, install the library from the source on GitHub and add the following in the VASP makefile.include
CPP_OPTIONS += -DLIBMBD LIBMBD_ROOT ?= /path/to/your/libMBD/installation LLIBS += -L$(LIBMBD_ROOT)/build/src -lmbd INCS += -I$(LIBMBD_ROOT)/build/src/modules/
Mind: To run a calculation the path to libmbd.so has to be added (either in .bashrc or in the terminal): LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/path/to/your/libMBD/installation/build/src |
Plugins (optional)
Create a new conda environment. Alternative environment creation packages should work, but we have not tested them.
conda create -n vasp_plugin python=3.10
Enter the create vasp_plugin
conda environment
conda activate vasp_plugin
Navigate to the plugins
directory within VASP source code,
cd </path/to/vasp/source/code>/src/plugins
Install the VASP Python package through pip
pip install .
Mind: Make sure to be within the conda environment when you compile VASP. |
Add the following lines to your makefile.include
CPP_OPTIONS+= -DPLUGINS LLIBS += $(shell python3-config --ldflags --embed) -lstdc++ CXX_FLAGS = $(shell python3 -m pybind11 --includes) -std=c++11
Mind: When running VASP with the Python interface you will need to add the lib directory of your Python to LD_LIBRARY_PATH. You can do this by running export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:$(python3-config --prefix)/lib
|
Related articles
Installing VASP.6.X.X, Compiler options, Precompiler options, Linking to libraries, OpenACC GPU port of VASP, Toolchains, Validation tests, Known issues