Development/FFTW: Difference between revisions

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* libfftw3l <small>for double, single and long-double precision libraries</small>
* libfftw3l <small>for double, single and long-double precision libraries</small>
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= Documentation =
= Documentation =
== Online ==
== Online ==

Revision as of 12:02, 15 December 2015

Description Content
module load numlib/fftw
Availability bwUniCluster | BwForCluster_Chemistry
License GPL | License and Copyright
Citing Authors
Links FFTW Homepage | Documentation
Graphical Interface No


Description

FFTW is a C subroutine library for computing the discrete Fourier transform (DFT) in one or more dimensions, of arbitrary input size, and of both real and complex data (as well as of even/odd data, i.e. the discrete cosine/sine transforms or DCT/DST). We believe that FFTW, which is free software, should become the FFT library of choice for most applications.
More infos about FFTW
This package provides three versions of the fftw3 library depending on precision:

  • libfft3
  • libfftw3f
  • libfftw3l for double, single and long-double precision libraries


Documentation

Online

Online Documentation

Local

  • info fftw3
  • man fftw-wisdom
  • man fftw-wisdom-to-conf


See also documentation folder pointed to by shell variable $FFTW_DOC_DIR

Versions and Availability

A list of versions currently available on all bwHPC-C5-Clusters can be obtained from the

Cluster Information System CIS

{{#widget:Iframe |url=https://cis-hpc.uni-konstanz.de/prod.cis/bwUniCluster/numlib/fftw |width=99% |height=200 |border=0 }} On the command line interface of any bwHPC cluster you'll get a list of available versions by using the command 'module avail chem/gamess'.

$ module avail chem/gamess
------------------------ /opt/bwhpc/common/modulefiles -------------------------
chem/gamess/12052014


Loading

Load the fftw module, and, if needed, the corresponding openmpi module.



Hints for compiling and linking

FFTW Specific Environments

To see a list of all FFTW environments set by the 'module load'-command use the command 'module display numlib/fftw'.
After having loaded the appropriate module(s), you can use several environment variables to compile and link your application.

$ module display numlib/fftw
-------------------------------------------------------------------
/opt/bwhpc/common/modulefiles/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1:
FTW_VERSION = 3.3.3-impi-4.1.1-intel-13.1 
FFTW_HOME = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1 
FFTW_BIN_DIR = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/bin 
FFTW_INC_DIR = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/include 
FFTW_LIB_DIR = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/lib 
FFTW_STA_DIR = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/lib 
FFTW_SHA_DIR ?? 
FFTW_MAN_DIR = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/share/man 
FFTW_INF_DIR = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/share/info 
FFTW_DOC_DIR = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/doc 
FFTW_EXA_DIR = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/examples 
FFTW_WWW = http://www.fftw.org/ 
PATH = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/bin:$PATH
MANPATH = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/share/man:$MANPATH
INFOPATH = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/share/info:$INFOPATH
LD_LIBRARY_PATH = /opt/bwhpc/common/numlib/fftw/3.3.3-impi-4.1.1-intel-13.1/lib:$LD_LIBRARY_PATH 
[...]

Compile a Serial Program

 $ gcc example.c -o example -I$FFTW_INC_DIR -L$FFTW_LIB_DIR -lfftw3 -lm

with POSIX Threads

Compile program with support for POSIX threads:

 $ gcc example.c -o example -I$FFTW_INC_DIR -L$FFTW_LIB_DIR -lfftw3_threads -lfftw3 -lpthread -lm

Compile program with support for OpenMP threads

 $ gcc example.c -o example -fopenmp -I$FFTW_INC_DIR -L$FFTW_LIB_DIR -lfftw3_omp -lfftw3 -lm

Compile program with support for MPI

 $ mpicc example.c -o example -I$FFTW_INC_DIR -L$FFTW_LIB_DIR -lfftw3_mpi -lfftw3 -lm 

Run program with MPI support

 $ mpirun -n <ncpu> ./example 

(Replace <ncpu> by number of processor cores.)

Replace -lfftw3, -lfftw3_threads, etc. by -lfftw3f, -lfftw3f_threads, etc. for single precision and by -lfftw3l, -lfftw3l_threads etc. for long-double precision codes, respectively.

These commands will compile your program with dynamic fftw library versions in which case you also have to have the fftw module loaded for running the program. Alternatively, you may want to link your program with static fftw library versions. With static fftw libraries it is only necessary to load the fftw module for compiling but not for executing the program.

Compile program with static fftw library versions

Example for POSIX threads support

 $ gcc example.c -o example -I$FFTW_INC_DIR $FFTW_LIB_DIR/{libfftw3_threads.a,libfftw3.a} -lpthread -lm 

or:

 $ gcc example.c -o example -I$FFTW_INC_DIR -L$FFTW_LIB_DIR -Wl,-Bstatic -lfftw3 -lfftw3_threads \
       -Wl,-Bdynamic -lpthread -lm 

Environment variables $FFTW_INC_DIR, $FFTW_LIB_DIR etc. are available after loading the module.

Sample code for various test cases is provided in folder pointed to by environment variable $FFTW_EXA_DIR.