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| In principle, BDF supports all Unix-like platforms. However, we strongly propose you to use BDF at Linux platform together Intel Fortran and C compiler because BDF package is developed and thoroughly tested on such platforms. System requirements of BDF is summarized as following lines: {{{ OS: Linux, Mac, FreeBSD, Unix Compiler: Fortran 90 compiler such as Intel, gfortran, g95 Support softwares: Python, make Parallel environments: MPI }}} |
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| Several steps are needed to install BDF package. 1. Set fortran and C compiler. . If you use bash shell, you can set fortran and c compiler: {{{ $export FC=ifort $export CC=gcc }}} . Tips: If you ignored this step, the configure script will pick up the gfortran and gcc compiler as default. 2. Set blas and lapack library. . For flaxibality reason, we ask users to set blas and lapack libraries. {{{ $export MATHLIB="-LMathLibDir -llapackname -lblasname" }}} 3. Configure BDF package. After setting compiler and mathematic library. You can configure BDF by command configure in BDF root directory. {{{ $./configure }}} Configure support several parameters. {{{ --enable-debug=yes[no] Compile BDF in debug mode. --enable-i8=yes[no] Compile BDF with 64 bit integrals. --enable-openmp=yes[no] Compile BDF with OpenMP supporting. }}} 4. Compile BDF package. {{{ $make }}} == Examples of some typical installations == 1. A 64bit machine with intel compiler and MKL library. {{{ $export FC=ifort $export CC=gcc $export MATHLIB="-lmkl_intel_ilp64 -lmkl_sequential -lmkl_core -lpthread" $./configure --enabale-i8=yes --enable-openmp=yes $make }}} 1. A Mac laptop with gfortran, gcc and user compiled lapack and blas library {{{ $export FC=gfortran $export CC=gcc $export MATHILIB="-L/Users/mike/mathlib -lblas -llapack" $./configure --enabale-i8=yes --enable-openmp=yes $make }}} |
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[Add new module in BDF package] |
Installation
Contents
System requirements
In principle, BDF supports all Unix-like platforms. However, we strongly propose you to use BDF at Linux platform together Intel Fortran and C compiler because BDF package is developed and thoroughly tested on such platforms. System requirements of BDF is summarized as following lines:
OS: Linux, Mac, FreeBSD, Unix Compiler: Fortran 90 compiler such as Intel, gfortran, g95 Support softwares: Python, make Parallel environments: MPI
Configure and compile BDF package
Several steps are needed to install BDF package.
- Set fortran and C compiler.
- If you use bash shell, you can set fortran and c compiler:
$export FC=ifort $export CC=gcc
- Tips: If you ignored this step, the configure script will pick up the gfortran and gcc compiler as default.
- If you use bash shell, you can set fortran and c compiler:
- Set blas and lapack library.
- For flaxibality reason, we ask users to set blas and lapack libraries.
$export MATHLIB="-LMathLibDir -llapackname -lblasname"
- For flaxibality reason, we ask users to set blas and lapack libraries.
- Configure BDF package.
- After setting compiler and mathematic library. You can configure BDF by command configure in BDF root directory.
$./configure
Configure support several parameters.--enable-debug=yes[no] Compile BDF in debug mode. --enable-i8=yes[no] Compile BDF with 64 bit integrals. --enable-openmp=yes[no] Compile BDF with OpenMP supporting.
- After setting compiler and mathematic library. You can configure BDF by command configure in BDF root directory.
- Compile BDF package.
$make
Examples of some typical installations
- A 64bit machine with intel compiler and MKL library.
$export FC=ifort $export CC=gcc $export MATHLIB="-lmkl_intel_ilp64 -lmkl_sequential -lmkl_core -lpthread" $./configure --enabale-i8=yes --enable-openmp=yes $make
- A Mac laptop with gfortran, gcc and user compiled lapack and blas library
$export FC=gfortran $export CC=gcc $export MATHILIB="-L/Users/mike/mathlib -lblas -llapack" $./configure --enabale-i8=yes --enable-openmp=yes $make
Set system variables of BDF package
[Add new module in BDF package]