Installation guide : optional libraries
Contents
- Installation guide : optional libraries
complex_bessel, library used for using complex-valued Bessel functions.
Concepts uses complex_bessel, a library written by Joey Dumont and Denis Gagnon to handle with complex-valued (see https://blog.joey-dumont.ca/complex_bessel/).
Direct installation
Dowload the latest version from the GIT repository git clone https://github.com/valandil/complex_bessel.git
Compile the code cd complex_bessel ; bash build.sh
Library will be in the build folder, whereas include files will be in the include folder.
Xerus, a general purpose tensor library
Complex uses Xerus, a general purpose tensor library written by Benjamin Huber and Sebastian Wolf.
Direct installation
Download the needed dependent packages (see https://libxerus.org/md_building_xerus.html). On Ubuntu these packages can be downloaded using sudo apt-get install binutils-dev libopenblas-dev libsuitesparse-dev liblapacke-dev
Get the latest development version of the code git clone https://git.hemio.de/xerus/xerus.git ; cd xerus ; git checkout v3
Copy the default configuration file and edit it cp config.mk.default config.mk ; $(EDITOR) config.mk
Test the library to be sure that all dependences and options are correct make test -j4
Compile and install the library. Depending on where you want to install it, you might need admin rights. make shared -j4 ; make install
alglib - cross-platform numerical analysis and data processing library
Installation of this library is optional since there is an already embedded version inside Concepts.
Installing packages in Debian, Ubuntu or Redhat
For the Linux distributions Debian or Ubuntu install the package libalglib-dev
ftsh - fast transform for spherical harmonics library
Concepts uses FTSH, a library written by Martin J. Mohlenkamp to handle with fast transform for spherical harmonics. It relies on the version 2 of the FFTW library.
Installation of FFTW2
Download it at http://www.fftw.org/download.html, using wget http://www.fftw.org/fftw-2.1.5.tar.gz
Uncompress it tar -zxf fftw-2.1.5.tar.gz
Go inside the folder with cd fftw-2.1.5
Configure and install with ./configure --prefix=$HOME/fftw2 ; make ; make install You can change the installation path.
Installation of FTSH
Download it at http://www.ohiouniversityfaculty.com/mohlenka/research/libftsh/, using wget http://www.ohiouniversityfaculty.com/mohlenka/research/libftsh.tar
Uncompress it tar xf libftsh.tar
Go inside the folder with cd libftsh2012_4_6
Edit the file make.inc to set up compiler and relative path to the FFTW2 library. Here are for example the local changes on a Ubuntu 18.04 system
10c10 < FORTRAN = g77 --- > FORTRAN = gfortran 41a42 > CFLAGS= -I$(HOME)/fftw2/include -fPIC 52c53 < LIBLINK= -lrfftw -lfftw -lm --- > #LIBLINK= -lrfftw -lfftw -lm 63a65 > LIBLINK = $(HOME)/fftw2/lib/librfftw.a $(HOME)/fftw2/lib/libfftw.a -lm
Compile it with make.
Activation
The file boost-build-modules.jam should be modified in the following
modules.poke : FFTW_PATH : /home/semin/fftw2/lib ; modules.poke : FFTW_INCLPATH : /home/semin/fftw2/include ; modules.poke : FTSH_PATH : /home/semin/libftsh2012_4_6 ; modules.poke : FTSH_INCLPATH : /home/semin/libftsh2012_4_6 ;
FFTW3 - Fast Fourier Transform library
Concepts uses FFTW3, a library written by Matteo Frigo and Steven G. Johnson and that is used to compute Discrete Fourier Transforms.
=== Installing packages in Debian, Ubuntu or Redhat
- ===
For the Linux distributions Debian or Ubuntu install the package
<pre>libfftw3-dev</pre>
=== Direct installation
- ===
Download it at ["http://www.fftw.org/download.html"], using <pre>wget http://www.fftw.org/fftw-3.3.8.tar.gz</pre>
Uncompress it <pre>tar -zxf fftw-3.3.8.tar.gz</pre>
Go inside the folder with <pre>cd fftw-3.3.8</pre>
Configure and install with <pre>./configure --prefix=$HOME/fftw2 ; make ; make install</pre> You can change the installation path