Quick Instructions:
Invoke the following commands from the top level PETSc directory:
- ./configure --with-cc=gcc --with-fc=gfortran --download-f-blas-lapack --download-mpich
- make all test
Check here for MS Windows Installation
Encounter problems?
- Read the error message from ./configure!
- If you get the message 'No such file or directory' try:
python ./configure
- BLAS and LAPACK problems
- MPI problems. I don't want MPI
- make problems? Just copy/paste make command printed by configure including PETSC_DIR and PETSC_ARCH options
- Do not have fortran compiler? check examples below
- Check the bug-reporting section
Notes:
- Please download the latest patched tarball
- Please install PETSc as a regular/non-root user, perhaps in /home/username/soft
- To extract the sources use:
gunzip -c petsc-3.3-p0.tar.gz | tar -xof -
- Please check:
./configure --help
- Please check example usages
-
Examples are at config/examples/*.py. We use some of these scripts
locally for testing - for example one can update these files and run as:
- ./config/examples/arch-osx-10.6.py
-
Assuming BLAS, LAPACK, MPICH are not currently
installed
./configure
will download & install BLAS,
LAPACK, MPICH if they are not already installed on the system):
- ./configure --with-cc=gcc --with-fc=gfortran --download-f-blas-lapack --download-mpich
-
Same as above - but do not have a fortran compiler [and want to use PETSc from C].
- ./configure --with-cc=gcc --with-fc=0 --download-f2cblaslapack --download-mpich
-
If BLAS, LAPACK, MPI are already installed in default system/compiler locations and mpicc,
mpif90, mpiexec are available via PATH - configure does not require any additional options.
-
If BLAS, LAPACK, MPI are already installed in known user location use:
[Note: Do not specify --with-cc --with-fc etc when using --with-mpi-dir -
so that mpicc/mpif90 can be picked up from mpi-dir]
- ./configure --with-blas-lapack-dir=/usr/local/blaslapack --with-mpi-dir=/usr/local/mpich
or
- ./configure --with-blas-lapack-dir=/usr/local/blaslapack --with-cc=/usr/local/mpich/bin/mpicc --with-mpi-f90=/usr/local/mpich/bin/mpif90 --with-mpiexec=/usr/local/mpich/bin/mpiexec
-
Build Complex version of PETSc [using c++ compiler]
(add the option
--with-fortran-kernels=generic
to get
possibly faster complex number performance on some systems):
- ./configure --with-cc=gcc --with-fc=gfortran --with-cxx=g++ --download-f-blas-lapack --download-mpich --with-scalar-type=complex --with-clanguage=cxx
-
Install 2 variants of PETSc, one with gnu, the other with intel compilers. Specify different PETSC_ARCH for each build.
- ./configure PETSC_ARCH=linux-gnu --with-cc=gcc --with-fc=gfortran --download-mpich
- make PETSC_ARCH=linux-gnu all test
- ./configure PETSC_ARCH=linux-gnu-intel --with-cc=icc --with-fc=ifort --download-mpich --with-blas-lapack-dir=/usr/local/mkl
- make PETSC_ARCH=linux-gnu-intel all test
PETSC_DIR and PETSC_ARCH are a couple of variables that control the
configuration and build process of PETSc. These variables can be set as
envirnment variables or specified on the command line [to both configure and make]
-
specify enviornment variable for csh/tcsh [can be specified in ~/.cshrc]
- setenv PETSC_DIR /home/balay/petsc-3.3-p0
- setenv PETSC_ARCH linux-gnu-c-debug
-
specify enviornment variable for bash [can be specified in ~/.bashrc]
- export PETSC_DIR=/home/balay/petsc-3.3-p0
- export PETSC_ARCH=linux-gnu-c-debug
-
specify variable on commandline to configure
- ./configure PETSC_DIR=/home/balay/petsc-3.3-p0 PETSC_ARCH=linux-gnu-c-debug [other configure options]
-
specify variables on command line to make
- make PETSC_DIR=/home/balay/petsc-3.3-p0 PETSC_ARCH=linux-gnu-c-debug [other make options]
PETSC_DIR:
this variable should point to the location of the PETSc
installation that is used. Multiple PETSc versions can
coexist on the same file-system. By changing PETSC_DIR
value, one can switch between these installed versions of
PETSc.
PETSC_ARCH:
this variable gives a name to a configuration/build.
Configure uses this value to stores the generated config
makefiles in ${PETSC_DIR}/${PETSC_ARCH}/conf. And make
uses this value to determine this location of these
makefiles [which intern help in locating the correct
include and library files].
Thus one can install multiple variants of PETSc libraries
- by providing different PETSC_ARCH values to each
configure build. Then one can switch between using these
variants of libraries [from make] by switching the
PETSC_ARCH value used.
If configure doesn't find a PETSC_ARCH value [either in
env variable or command line option], it automatically
generates a default value and uses it. Also - if make
doesn't find a PETSC_ARCH env variable - it defaults to
the value used by last successful invocation of previous
configure.
Return to Installation Instructions
Specify compilers and compiler options used to build PETSc [and perhaps external packages]
-
Specify compilers using the options
--with-cc --with-fc --with-cxx
for c, c++, and fortran compilers
- --with-cc=mpicc --with-fc=mpif90
- --with-cc=gcc --with-fc=gfortran
- --with-cc=gcc --with-cxx=g++ --with-fc=gfortran --with-clanguage=cxx
-
If fortran compiler is not available - then disabling using fortran
-
If no compilers are specified - configure will
automatically look for available MPI or regular
compilers in the user's PATH
- mpicc/mpiCC/mpif90 or mpif77
- gcc/g++/gfortran or g77
- cc/CC/f77 etc..
-
It's best to use MPI compilers
as this will avoid the situation where MPI is compiled
with one set of compilers [like gcc/g77] and user
specified incompatible compilers to PETSc [perhaps
icc/ifort]. This can be done by either specifying
--with-cc=mpicc or --with-mpi-dir [and not
--with-cc=gcc]
- --with-cc=mpicc --with-fc=mpif90
- --with-mpi-dir=/opt/mpich2-1.1 [but *no* --with-cc=gcc]
-
Configure defaults to building PETSc in debug mode.
One can switch to using optimzed mode with the toggle
option --with-debugging [defaults to debug enabled].
Additionally one can specify more suitable optimization
flags with the options COPTFLAGS, FOPTFLAGS,
CXXOPTFLAGS.
- ./configure --with-cc=gcc --with-fc=gfortran --with-debugging=0 COPTFLAGS='-O3 -march=p4 -mtune=p4' FOPTFLAGS='-O3 -qarch=p4 -qtune=p4'
-
Configure cannot detect compiler libraries for certain
set of compilers. In this case one can specify
additional system/compiler libraries using the LIBS option
- ./configure --LIBS='-ldl /usr/lib/libm.a'
Return to Installation Instructions
PETSc provides interfaces to various external packages.
Blas/Lapack is a required package, MPI is not required if running sequentially. One can optionally use
external solvers like Hypre, MUMPS, etc. from within PETSc aplications.
PETSc configure has the ability to download and install these external packages. Alternatively if these packages
are already installed, then configure can detect and use them.
The following modes can be used to install/use external packages with configure.
-
--download-PACKAGENAME: Download specified
package and install it. Then configure PETSc to use this package.
- --download-f-blas-lapack --download-mpich
- --download-blacs --download-scalapack --download-mumps
-
--download-PACKAGENAME=/PATH/TO/package.tar.gz:
If ./configure cannot automatically download the package
[due to network/firewall issues], one can download the
package by alternaive means [perhaps wget or scp via some
other machine]. Once the tarfile is downloaded, the path
to this file can be specified to configure with this
option. Configure will proceed to install this package and
then configure PETSc with it.
- --download-mpich=/home/petsc/mpich2-1.0.4p1.tar.gz
-
--with-PACKAGENAME-dir=PATH:
If the external package is already installed - specify
its location to configure [it will attempt to detect,
include, library files from this location.] Normally this
corresponds to the top-level installation dir for the
package.
- --with-mpi-dir=/home/petsc/software/mpich2-1.0.4p1
-
--with-PACKAGENAME-include=INCLUDEPATH --with-PACKAGENAME-lib=LIBRARYLIST:
Usually a package is defined completely by its include file location -
and library list. [If the package is already installed] - then one can use
these two options to specify the package to configure. For eg:
-
--with-superlu-include=/home/petsc/software/suerplu/include
--with-superlu-lib=/home/petsc/software/superlu/lib/libsuperlu.a
-
--with-parmetis-include=/sandbox/balay/parmetis/include
--with-parmetis-lib="-L/sandbox/balay/parmetis/lib -lparmetis -lmetis"
-
--with-parmetis-include=/sandbox/balay/parmetis/include
--with-parmetis-lib=[/sandbox/balay/parmetis/lib/libparmetis.a,libmetis.a]
Notes:
-
Run
./configure --help
to get the list of external
packages and corresponding additional options [for example
--with-mpiexec
for mpich]
-
Generally one would use either one of the above 4 modes for any given
package - and not mix these. [i.e mixing
--with-mpi-dir
and
--with-mpi-include
etc.. should be avoided]
-
Some packages might not support certain options like
--download-PACKAGENAME
or
--with-PACKAGENAME-dir
. Architectures like Microsoft
Windows might have issues with these options. In these cases,
--with-PACKAGENAME-include --with-PACKAGENAME-lib
options should be prefered.
-
It's best to install some external packages like SuperLU_DIST, MUMPS,
Hypre with the option
--download-PACKAGENAME
. [the
correct options for these packages are --download-superlu_dist
--download-mumps --download-hypre
]
-
This will install the COMPATIBLE version of the external package.
A generic install of this package might not be compatible with
PETSc [perhaps due to version differences - or perhaps due to the
requirement of additional patches for it to work with PETSc]
-
All packages will be installed with the same set of compilers
- this avoids problems [for ex: weird link time errors] with
mixing code compiled with multiple compilers [for example mixing
gfortran and ifort compiled code].
-
If you want to download a compatible external package manually, then
the URL for this package is listed in configure source for this
package. For example, check
config/PETSc/packages/SuperLU.py
for the url for
download this package.
Additional options:
-
--with-external-packages-dir=PATH: By default,
external packages will be unpacked in
${PETSC_DIR}/externalpackages
.
However one can choose a different location where these packages are unpacked.
Return to Installation Instructions
These packages provide some basic numeric kernels used by PETSc.
-
Configure will automatically look for blas/lapack in certain standard
locations, on most systems you should not need to provide any
information about BLAS/LAPACK in the ./configure command.
-
One can use the following options to let configure download/install blas/lapack automatically.
- --download-f-blas-lapack [when fortran compiler is present]
- --download-f2cblaslapack [when configuring without a fortran compiler - i.e --with-fc=0]
-
Alternatively one can use other options like one of the following.
- --with-blas-lapack-lib=libsunperf.a
- --with-blas-lib=libblas.a --with-lapack-lib=liblapack.a
- --with-blas-lapack-dir=opt/intel/mkl72
Notes:
Return to Installation Instructions
This software provides the parallel functionality for PETSc.
- Configure will automatically look for MPI compilers mpicc/mpif77 etc and use them if found in your PATH.
-
One can use the following options to let configure download/install MPI automatically
- --download-mpich [install and use MPICH]
- --download-openmpi [Install and use Open MPI]
- See externalpackages for other installation options.
-
It's best to install PETSc with MPI compiler wrappers (often called
mpicc, mpicxx, mpif90) - this way, the SAME compilers used to build
MPI are used to build PETSc [this avoids incompatibilities which
might crop up - when using libraries compiled with different c or
fortran compilers.]. This can be achieved with the following
modes.
-
Vendor provided MPI might already be installed. IBM, SGI, Cray etc provide their own:
./config/confiure.py --with-cc=mpcc --with-fc=mpf77
-
If using MPICH which is already installed [perhaps using
myrinet/gm] then use [without specifying --with-cc=gcc etc.so
that configure picks up mpicc from mpi-dir]:
./configure --with-mpi-dir=/path-to-mpich-install
-
You can build (sequential) PETSc without an MPI. This is useful for
quickly installing PETSc [if MPI is not available - for whatever
reason]. However - if there is any MPI code in user application, then
its best to install a full MPI - even if the usage is currently
limited to uniprocessor mode.
Installing with Open MPI with shared MPI libraries:
OpenMPI defaults to building shared libraries for MPI. However, the
binaries generated by MPI wrappers mpicc/mpif77 etc require
LD_LIBRARY_PATH to be set to the location of these libraries.
Due to this OpenMPI restriction one has to set
LD_LIBRARY_PATH
correctly [per OpenMPI installation
instructions], before running PETSc configure. If you do not set this
environmental variables you will get messages when running
./configure
such as
UNABLE to EXECUTE BINARIES for config/configure.py
-------------------------------------------------------------------------------
Cannot run executables created with C. If this machine uses a batch system
to submit jobs you will need to configure using/configure.py with the additional option --with-batch.
Otherwise there is problem with the compilers. Can you compile and run code with your C/C++ (and maybe Fortran) compilers?
or when running a code compiled with OpenMPI
-bash-3.3$ ./conftest
./conftest: error while loading shared libraries: libmpi.so.0: cannot open shared object file: No such file or directory
Notes:
-
Avoid specifing compilers [with options
--with-cc
or
--with-fc
] when using the option
--with-mpi-dir
. [Option--with-mpi-dir
specifies using MPI compilers - so its best to use them - and not
overwride them with user specified --with-cc
].
-
One can specify mpiexec or mpiexec with the options
--with-mpiexec
Return to Installation Instructions
Microsoft Windows OS does not provide the same unix shell enviornment
as the other OSes. Also the default MS/Intel/Compaq compilers behave
differently than other unix compilers. So to install PETSc on Microsoft
Windows - one has to install cygwin
[for the unix enviornment] and use win32fe [part
of PETSc sources,to interface to MS/Intel/Compaq compilers].
Install Cygwin: Please download and install
cygwin package from http://www.cygwin.com.
Make sure the following cygwin components are installed.
- python
- make
- [default selection should already have
diff
and other tools]
Remove Cygwin link.exe: Cygwin link.exe can
conflict with Intel ifort and Comapq F90 compilers. If you are using
these compilers - please do [from cygwin/bash shell]:
mv /usr/bin/link.exe /usr/bin/link-cygwin.exe
Setup cygwin bash shell with Working Compilers:
We require the compilers to be setup properly in a cygwin bash
command shell, so that "cl foo.c
" or "ifort
foo.f
" works from this shell. For example - if using VS2005
C and Intel 10 Fortran one can do:
-
Start -> Programs -> Intel Software Development Tools ->
Intel Fortran Compiler 10 -> Visual Fortran Build Enviornment
[32bit or 64bit depending on your usage]. This should start a 'dos
cmd' shell.
-
Within this shell - run cygwin bash.exe as:
c:\cygwin\bin\bash.exe --login
- verify if the compilers are useable [by running cl, ifort in this shell]
- Now run configure with win32fe and then build the libraries with make [as per the usual instructions]
Example Configure usage with Windows Compilers:
Use configure with VC2005 C and Intel Fortran 10 [With MPICH2 installed].
./configure --with-cc='win32fe cl' --with-fc='win32fe ifort' --with-cxx='win32fe cl' --download-f-blas-lapack
If fortran usage is not required, use:
./configure --with-cc='win32fe cl' --with-fc=0 --download-f2cblaslapack
Using Compaq F90:
Using Microsoft C/C++ 6.0 & Compaq Fortran 6.0 with MPICH2 configure command to use:
./configure --with-cc='win32fe cl' --with-fc='win32fe f90' --download-f-blas-lapack
Note: MPICH2 mpif.h needs a fix for it to work with Compaq F90
[specifically remove line with MPI_DISPLACEMENT_CURRENT - which uses
'integer*8' - which is unsupported by Compaq F90]
ExternalPackages: The --download-package
option does not work with many external packages on Microsoft
Windows.
Project Files: We cannot provide Microsoft
Visual Studio project files for users as they are specific to the
configure options, location of external packages, compiler versions
etc. used for any given build of PETSc, so they are potentially
different for each build of PETSc. So if you need a project file for
use with PETSc - please do the following.
-
create an empty project file with one of the examples say
src/ksp/ksp/examples/tutorials/ex2.c
-
try compiling the example from cygwin bash shell - using makefile - for eg:
- cd src/ksp/ksp/examples/tutorials
- make ex2
-
if the above works - then make sure all the compiler/linker options
used by make are also present in the project file in the correct
notation.
-
if errors - redo the above step. [if all the options are correctly
specified - then the example should compile from MSDev.
Debugger: Running PETSc probrams with
-start_in_debugger is not supported on this platform, so debuggers will
need to be initiated manually. Make sure your environment is properly
configured to use the appropriate debugger for your compiler. The
debuggers can be initiated using Microsoft Visual Studio 6: msdev
ex1.exe
, Microsoft Visual Studio .NET: devenv
ex1.exe
, Intel Enhanced Debugger: edb ex1.exe
, or
GNU Debugger gdb ex1.exe
.
Using Cygwin gcc/g++/gfortran: One can install
and use PETSc with gcc/gfortran compilers from cygwin. In this case
follow the regular Unix instructions.
PETSc Win32 front end - win32fe:
This tool is used as a wrapper to Microsoft/ Borland/ Intel compilers
and associated tools - to enable building PETSc libraries using cygwin
make and other UNIX tools. For additional info, run
${PETSC_DIR}/bin/win32/win32fe
without any options.
Return to Installation Instructions
If one wants to install PETSc [with sources] in a common system
location like /usr/local or /opt, then we suggest creating a dir for
PETSc in the required location with user privileges, and then do the
PETSc install [as a regular/non-root user]. i.e.
- sudo mkdir /opt/petsc
- sudo chown user:group /opt/petsc
- cd /opt/petsc
- tar -xzf petsc-3.3-p0.tar.gz
- cd petsc-3.3-p0
- ./configure
- make
Installing with --prefix:
One can also use the GNU --prefix install mode.
- [untar PETSc in a non-root regular location - say /home/username]
- ./configure --prefix=/opt/petsc/petsc-3.3-p0 [other configure options]
- make
- sudo make install
After the install is done, one has to switch to using
PETSC_DIR=/opt/petsc/petsc-3.3-p0
. If you've installed
PETSc with the --prefix option then you DO NOT use a PETSC_ARCH
variable. You should install different configurations using different
--prefix names.
Using DESTDIR with prefix install:
One can also use the GNU DESTDIR with a prefix install. This mode is generally
used by binary packagers.
The following is an example of creating 2 binary packages
for PETSc - one with MPICH - the other with OpenMPI
- [untar PETSc]
- ./configure --prefix=/opt/petsc/petsc-3.3-p0-mpich --with-mpi-dir=/opt/mpich
- make
- make install DESTDIR=/tmp/petsc-pkg
- [package up /tmp/petsc-pkg and install the package. It will now be installed at /opt/petsc/petsc-3.3-p0-mpich]
- [user can now use this PETSc install with:] make PETSC_DIR=/opt/petsc/petsc-3.3-p0-mpich ex1
-
- [untar PETSc]
- ./configure --prefix=/opt/petsc/petsc-3.3-p0-openmpi --with-mpi-dir=/opt/openmpi
- make
- make install DESTDIR=/tmp/petsc-pkg
- [package up /tmp/petsc-pkg and install the package. It will now be installed at /opt/petsc/petsc-3.3-p0-openmpi]
- [user can now use this PETSc install with:] make PETSC_DIR=/opt/petsc/petsc-3.3-p0-openmpi ex1
-
Note: The --prefix build process internally uses a PETSC_ARCH value [either specified by user or automatically
created by configure], and the buildfiles are stored in petsc-source-tree/PETSC_ARCH location. But after 'make
install' step - PETSC_ARCH has no significance. One can reuse the same PETSC_ARCH for multiple builds - provided
the previous buildfiles are removed before starting the next build. Similarly one can reuse DESTDIR for multiple
installs provided the installfiles from the previous builddir are removed
Return to Installation Instructions
If one has to use a cross compiler - or go through the job scheduler to
use MPI on a given machine - use the configure option
--with-batch
as follows:
-
run configure with the additional option
--with-batch
on
the frontend node (compiler server) [perhaps with the
additional option --known-mpi-shared-libraries=0
]
-
the above configure run will create a binary
conftest
.
Run this binary conftest
on one compute node
using the job scheduler.
-
The above run of conftest will create a new python script
reconfigure
. Run python reconfigure
again
on the frontend node (compiler server) to complete the
configuration process
Return to Installation Instructions
TAU
package and the prerequisite PDT
packages need to be installed separately [perhaps with MPI].
Now use tau_cc.sh as compiler to PETSc configure.
- export TAU_MAKEFILE=/home/balay/soft/linux64/tau-2.20.3/x86_64/lib/Makefile.tau-mpi-pdt
- ./configure CC=/home/balay/soft/linux64/tau-2.20.3/x86_64/bin/tau_cc.sh --with-fc=0 PETSC_ARCH=arch-tau
Return to Installation Instructions
-
Requires CUDA,
Thrust and
Cusp .
Thrust has been included in CUDA since the 4.0 release - so a separate install is not needed.
- Currently using CUDA-4.1 or CUDA-4.2 with Cusp-v0.3.1
-
On Linux - make sure you have compatible NVidia driver
installed.
- check
config/examples/arch-cuda-double.py
for example usage.
Cuda build of PETSc curently works on Apple OSX, Linux [Ubuntu 10.04], Microsoft Windows [Server 2003].
Return to Installation Instructions
-
Configure and build PETSc with the additional configure options (note
this currently only works on Linux)
-
Run a sample example with:
- cd src/snes/examples/tutorials
- make ex19
-
./ex19 -dm_vec_type pthread -dm_mat_type aijpthread -pc_type none
-da_grid_x 100 -da_grid_y 100 -log_summary
-mat_no_inode -preload off -vec_threads 2
Return to Installation Instructions