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Revision 35 as of 2015-02-01 03:01:45

location: Installation

Installation

Contents

  1. Installation
    1. System requirements
    2. Configure and compile BDF package
    3. Compile parallel bdf
    4. Examples of some typical installations
    5. Set system variables of BDF package

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.

1. Set fortran and C compiler. 

$export FC=ifort
$export CC=gcc
$export CXX=g++

2. Set blas and lapack library. 

$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.
 --enable-mpi=yes[no]         Compile BDF with MPI supporting.
 --enable-parallel=yes[no]   Compiler BDF with MPI and OpenMP support.

4. Compile BDF package. 

 $make

Compile parallel bdf

Some of BDF modules support parallel calculation. You can compiler BDF as parallel mode. At present, we support MPI and OpenMP.

1. MPI and OpenMP hybrid. 

 $./configure  --enable-parallel=yes

2. Only MPI. 

 $./configure  --enable-mpi=yes

3. Only OpenMP. 

 $./configure  --enable-openmp=yes

Examples of some typical installations

1. A 64bit machine with intel compiler and MKL library. 

  $export FC=ifort
  $export CC=gcc
  $export CXX=g++
  $export MATHLIB="-lmkl_intel_ilp64 -lmkl_sequential -lmkl_core -lpthread"
  $./configure --enabale-i8=yes --enable-openmp=yes
  $make

2. A Mac laptop with gfortran, gcc and user compiled lapack and blas library 

  $export FC=gfortran 
  $export CC=gcc 
  $export CXX=g++
  $export MATHILIB="-L/Users/mike/mathlib -lblas -llapack" 
  $./configure --enabale-i8=yes --enable-openmp=yes 
  $make

3. A Linux cluster with fort, icc, openmpi and intel MKL library. 

  $mpif90 --shownme

  ifort -I/opt/openmpi/include -I/opt/openmpi/lib -L/opt/openmpi/lib -lmpi_f90 -lmpi_f77 -lmpi -ldl -lm -Wl,--export-dynamic -lrt -lnsl -lutil

  $export FC=ifort
  $export CC=icc
  $export CXX=icpc
  $export MATHLIB="-lmkl_intel_ilp64 -lmkl_sequential -lmkl_core -lpthread"
  $export MPILIB="-I/opt/openmpi/include -I/opt/openmpi/lib -L/opt/openmpi/lib -lmpi_f90 -lmpi_f77 -lmpi -ldl -lm -Wl,--export-dynamic -lrt -lnsl -lutil"
  $./configure --enabale-i8=yes --enable-parallel=yes
  $make

  $./configure --enabale-i8=yes --enable-mpi=yes

Set system variables of BDF package